CN210017506U - Transportation equipment for live and fresh aquatic products - Google Patents

Abstract

The utility model provides a fresh aquatic products transportation equipment alive, wherein fresh aquatic products transportation equipment alive includes a automobile body, one holds unit and a partition unit, wherein hold the unit set up in the automobile body, wherein it has one and holds the chamber to hold the unit, wherein the partition unit includes at least a separator, wherein the separator is set up in hold the unit, and the separator is kept hold the unit hold the intracavity, with the partition hold the chamber be two at least accept cavities, wherein at every the accept cavity is equipped with fresh aquatic products respectively by splendid attire to at the in-process of transporting fresh aquatic products alive, guarantee the survival rate of fresh aquatic products alive.

Description

Transportation equipment for live and fresh aquatic products

Technical Field

The utility model relates to a living bright aquatic products flow field especially relates to a living bright aquatic products transportation equipment, wherein living bright aquatic products transportation equipment is used for guaranteeing the survival rate of the living bright aquatic products of being transported.

Background

Aquatic products are one of the important ways to obtain nutrients such as protein in life. With the development of economy and the improvement of living standard, the demand on aquatic products is higher and higher, people need fresh aquatic products instead of frozen aquatic products, because frozen products can cause bad flavor and loss of nutrients due to processing and processing modes and overlong storage time in the transportation process.

With the progress of science and technology, live and live transportation vehicles serving as transportation carriers of live and live aquatic products operate to live, and the main purpose of the transportation vehicles is to solve the problem of long-distance transportation of the live and live aquatic products, so that consumers far inland can also obtain the fresh aquatic products in time, especially the abundant seafood products. The existing aquatic product transportation vehicle solves the problem of transportation of fresh and live aquatic products by providing a proper water temperature, good water quality and enough dissolved oxygen, but still has some problems influencing the transportation efficiency.

Firstly, for the live aquatic products themselves, especially the fishes like to gather together in the water, which may cause the density per unit volume to be too high to affect the overall survival rate due to the gathering during the long-distance transportation. On the one hand, the oxygen content in the area is lower than that in the surrounding area due to the excessive density, and on the other hand, some harmful substances are generated during the activity of the fishes in the water, and the harmful substances accumulated in the area can damage the fishes.

Secondly, in the transportation process, the transportation equipment such as the vehicle itself will shake, especially when accelerating and decelerating, or the road surface is not good, or when the turning amplitude is large, the water body violently shaking in the water tank may cause extrusion injury to fish schools therein, and the fish schools even generate stress response. In addition, because the fish school is gathered together and moves, the interior of the fish school can be extruded or scratched mutually due to sudden shaking, so that the fish school can be injured or frightened due to the extrusion of the water body and can be injured from the same type, and in addition, the fish school can be scratched by the box body due to the shaking. These factors all contribute to the survival rate of the live aquatic products in the transport facility.

In addition, during shipment, since a large amount of fresh aquatic products are put into the aquatic product transporting apparatus at a time, the fresh aquatic products are pressed against each other in such a manner that the fresh aquatic products are put into the aquatic product transporting apparatus in stages, and stress reaction may occur due to changes in conditions such as physical and chemical conditions of the water environment for the fresh aquatic products that have been put into the aquatic product transporting apparatus in a previous batch. Similarly, the survival rate of the fresh and live aquatic products can be influenced by the manual operation, such as fishing, of the fresh and live aquatic products in the water tank.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a living bright aquatic products transportation equipment, wherein by living bright aquatic products transportation equipment can reduce the mortality of living bright aquatic products in the middle of the transportation.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein living bright aquatic products transportation equipment can reduce the influence of vibrations to living bright aquatic products, and then improves the survival rate.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein living bright aquatic products transportation equipment can reduce the influence that the gathering of living bright aquatic products caused, and then improves the survival rate.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein living bright aquatic products transportation equipment has reduced the harmful effects that mutual gathering caused through the mode of dispersion living bright aquatic products.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein living bright aquatic products transportation equipment provides a plurality of divided spaces to make the unable direct contact of living bright aquatic products in the different spaces, and then reduced the influence that mutual gathering caused.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein living bright aquatic products transportation equipment provides a plurality of independent spaces to hold different or the same living bright aquatic products, mutual interference is not made when putting in on the one hand, and on the other hand also reduces the influence of fishing to living bright aquatic products.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein a plurality of independent spaces that living bright aquatic products transportation equipment provided can be dismantled alone or the installation to satisfy the transportation demand of different quantity or different kinds of living bright aquatic products.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein the space size in a plurality of independent spaces that living bright aquatic products transportation equipment provided has different specifications, satisfies different transportation demands when practicing thrift the space.

Another object of the utility model is to provide a transport equipment for fresh aquatic products, wherein the transport equipment for fresh aquatic products includes an automobile body and a plurality of water tank, wherein the water tank by detachably install in the automobile body.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein the water tank has different specification and dimension in order to provide not equidimension accommodation space.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein a plurality of spaces can be separated into to the water tank, but each space intercommunication is but the living bright aquatic products can't pass through to reduce the influence that the cluster of living bright aquatic products caused.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein the space of different specifications can be separated into by the installation needs to the water tank to adapt to different kinds of living bright aquatic products, satisfy different user demands.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein the water tank by independent detachably install in the automobile body to when conveniently using one of them water tank, not to other living bright aquatic products in the water tank cause the influence.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, by the independent removal the water tank is to being located all living bright aquatic products in the water tank remove to conveniently carry out a subsequent loading or catch the operation under the prerequisite of minimize environmental impact.

Another object of the utility model is to provide a transport equipment for fresh aquatic products, by independent the water tank can carry out the individual observation and management to fresh aquatic products.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein living bright aquatic products transportation equipment provides a partition unit, wherein the partition unit can with a chamber that holds of automobile body is separated into a plurality of spaces, with the installation the water tank.

Another object of the utility model is to provide a living fresh aquatic products transportation equipment, wherein separate the unit by detachably connect in the automobile body, so that the automobile body can be as required by the different specifications of adaptation separate the unit.

Another object of the utility model is to provide a transport equipment for fresh aquatic products, wherein transport equipment for fresh aquatic products the partition unit with the water tank all can be dismantled, and then can be used as normal transport equipment.

Another object of the utility model is to provide a living bright aquatic products transportation equipment, wherein living bright aquatic products transportation equipment provides a buffer unit, plays a cushioning effect to the impact that the living bright aquatic products received in the transportation has been reduced.

According to an aspect of the utility model, the utility model provides a living bright aquatic products transportation equipment, it includes:

a vehicle body;

the accommodating unit is arranged on the vehicle body and is provided with an accommodating cavity; and

a partition unit, wherein the partition unit comprises at least one partition, wherein the partition is disposed in the accommodating unit, and the partition is held in the accommodating chamber of the accommodating unit to partition the accommodating chamber into at least two receiving chambers.

According to the utility model discloses an embodiment, the fresh aquatic products transportation equipment that lives further includes an at least water tank, wherein the water tank has a box and holds the chamber to supply the storage fresh aquatic products, wherein the water tank by detachably install in the accepting cavity.

According to an embodiment of the invention, at least one of the separators is a first direction separator, and further the separator is a second direction separator, wherein the first direction separator and the second direction separator are arranged and held in the accommodation chamber of the accommodation unit, respectively, and the first direction separator and the second direction separator are perpendicular to each other, so as to separate the accommodation chamber of the accommodation unit into mutually independent receiving chambers.

According to an embodiment of the present invention, at least one of the separators is a first direction separator, at least one of the separators is a second direction separator, and further the separator is a third direction separator, wherein the first direction separator, the second direction separator and the third direction separator are respectively disposed and held in the accommodating chamber of the accommodating unit, and any two directions of the first direction separator, the second direction separator and the third direction separator are perpendicular to each other, so as to separate the accommodating chamber of the accommodating unit into the receiving chambers independent of each other.

According to the utility model discloses an on the other hand, the utility model provides a living bright aquatic products transportation equipment, it includes:

a vehicle body; and

at least one partition unit, wherein the partition unit is arranged on the vehicle body, and each partition unit is provided with at least one receiving cavity.

According to another aspect of the utility model, the utility model discloses a fresh aquatic products transportation equipment further is provided, and it includes:

a vehicle body;

the accommodating unit is arranged on the vehicle body and is provided with an accommodating cavity; and

at least two water tanks, wherein every the water tank respectively by detachably set up in hold the intracavity hold in the unit, wherein the water tank has a box and holds the chamber to supply the storage live and fresh aquatic products.

According to an embodiment of the invention, the living aquatic product transporting apparatus further comprises a separating unit, wherein the separating unit comprises at least one separating member, wherein the separating member is disposed in the accommodating unit, in the nasal cavity the separating member is held in the accommodating cavity of the accommodating unit, so as to separate the accommodating cavity into a plurality of receiving cavities along the height direction of the accommodating unit, wherein at least one of the water tanks is detachably disposed in one of the receiving cavities.

According to an embodiment of the invention, the spacers are detachably connected to each other.

Drawings

Fig. 1 is a schematic structural view of a transportation device for fresh aquatic products according to a preferred embodiment of the present invention.

Fig. 2A is a schematic perspective view of the transportation device for fresh aquatic products according to the preferred embodiment of the present invention.

Fig. 2B is a schematic view of the transportation device for fresh aquatic products according to the preferred embodiment of the present invention.

Fig. 2C is a schematic view of the transportation device for fresh aquatic products according to the preferred embodiment of the present invention.

Fig. 2D is a schematic view of the transportation device for fresh aquatic products according to the preferred embodiment of the present invention.

Fig. 3A is a plan view of a partition unit of the live fresh aquatic product transporting apparatus according to the above preferred embodiment of the present invention.

Fig. 3B is a schematic view of a further variant embodiment of the separation unit according to the present invention.

Fig. 3C is a schematic view of a further variant embodiment of the separation unit according to the present invention.

Fig. 4 is a perspective view of a transportation device for fresh aquatic products according to another preferred embodiment of the present invention.

Fig. 5 is a perspective view of a transportation device for fresh aquatic products according to another preferred embodiment of the present invention.

Fig. 6 is a schematic view of the use of the transportation device for fresh aquatic products according to another preferred embodiment of the present invention.

Fig. 7A is a schematic view of a water tank according to a preferred embodiment of the present invention.

Fig. 7B is a schematic view of yet another variant embodiment of the water tank according to the present invention.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

As shown in fig. 1, fig. 2A and fig. 2B, and with reference to fig. 2C to fig. 6, according to the present invention, a transportation device for fresh aquatic products is illustrated, wherein the transportation device for fresh aquatic products is used for transporting fresh aquatic products, and the impact of the impact force generated by shaking, turning and the like on the fresh aquatic products stored therein can be reduced as much as possible during transportation, so as to improve the survival rate of the fresh aquatic products.

Specifically, the transporting apparatus for fresh aquatic products comprises a vehicle body or standard box body (hereinafter referred to as "vehicle body") 10, a containing unit 20, a separating unit 30, a plurality of receiving units 40 and at least one water tank 50, wherein the containing unit 20 is disposed on the vehicle body 10, the containing unit 20 is provided with a containing cavity 21 to be used for containing articles, the separating unit 30 is contained in the containing cavity 21 of the containing unit 20 to separate the containing cavity 21 to form the receiving unit 40, the receiving unit 40 is provided with a receiving cavity 41, and the water tank 50 is contained in the receiving cavity 41.

The vehicle body 10 includes some equipment necessary for transportation, which may include, but is not limited to, a running gear, a power plant, a cab, etc.

In other words, the live fresh aquatic product transporting apparatus provides a plurality of spaces to accommodate the water tank 50. That is, the receiving chamber 21 is partitioned into a plurality of receiving chambers 41 for receiving at least one of the water tanks 50, respectively, in such a manner that the whole of the fresh water product received in the fresh water product transporting apparatus can be dispersed into each of the water tanks 50 stored in the receiving chamber 41. On the one hand can avoid like this because the too big problem of crowd effect density of living fresh aquatic products especially fish, and then reduced when receiving the impact the extruded probability of living fresh aquatic products, on the other hand has also avoided concentrated living fresh aquatic products to the competition of oxygen and the problem that the gathering produces the too high harmful substance of concentration as far as possible, simultaneously each water tank 50 is equipped with water, gas, electricity and signal connection interface and outside comprehensive water treatment purification optimization system and information system are connected, can accomplish single or a plurality of water tank formation a single region, form and keep apart or carry out independent operating mode or quality of water regulation to single or a plurality of water tank.

Further, the water tank 50 is detachably connected to the receiving unit 40 so that the water tank 50 can be performed a taking-out operation or a putting-in operation to take out or put in the live fresh aquatic products from or to the water tank 50. That is, the water tanks 50 of different receiving units 40 are independent from each other, and when one receiving unit 40 is taken out or put into the water tank 50, the water tank 50 of another receiving unit 40 is not affected.

The fresh water products in different receiving units 40 are independent from each other by dispersing the fresh water products in the receiving units 40 in the accommodating cavities 21. In other words, the user can perform the taking out operation or the putting in operation on the live fresh aquatic product in one of the receiving units 40 alone without affecting the live fresh aquatic product in the other receiving units 40, thereby reducing the influence on the other live fresh aquatic product in the live fresh aquatic product transporting apparatus. Because to the live and fresh, if all live and fresh aquatic products all are placed in same space, when the user need catch or replenish the live and fresh again, can all cause the influence to the live and fresh in the whole space, under this condition, the live and fresh probably produces stress response and also can be because receive the frightening mutual extrusion and then be injured, these all can cause the influence to the final quality of live and fresh and survival rate.

It is worth mentioning that in the initial loading process of the live and fresh aquatic products, the user can install the live and fresh aquatic products into the different receiving units 40 respectively according to the type and size, and then the user can conveniently perform a subsequent operation, such as fishing. Also can be according to the different demands on the market, for example different customers come partial shipment live and fresh aquatic products, and then reduce the influence to other live and fresh in the middle of catching the process.

It is further worth mentioning that the height and width between different receiving units 40 can be set to be different according to the requirement.

Further, the partition unit 30 includes at least one partition member 31, wherein the partition member 31 is disposed in the accommodating unit 20 to form the receiving unit 40 by the cooperation of the partition member 31 and the accommodating unit 20. Specifically, the containing unit 20 has a bottom surface 22, a top surface 23, a first side surface 24, a second side surface 25, a third side surface 26 and a fourth side surface 27, wherein the bottom surface 22 and the top surface 23 are oppositely disposed, wherein the first side surface 24 is connected to the second side surface 25, the second side surface 25 is connected to the third side surface 26, the third side surface 26 is connected to the fourth side surface 27, and the fourth side surface 27 is connected to the first side surface 24, wherein the first side surface 24 and the third side surface 26 are oppositely disposed, the second side surface 25 and the fourth side surface 27 are oppositely disposed, wherein the second side surface 24 and the fourth side surface 26 are on the same axis in the moving direction of the fresh aquatic product transporting apparatus, wherein the second side surface 25 and the fourth side surface 27 are disposed on both sides with respect to the vehicle body 10, wherein the third side 26 is located at the rear side of the vehicle body 10.

Preferably, the accommodating unit 20 is a cubic structure, wherein the first side 24 and the third side 26 are parallel to each other, and the second side 25 and the fourth side 27 are parallel to each other, wherein the first side 24 is perpendicular to the second side 25 and the fourth side 27, respectively, and the third side 26 is perpendicular to the second side 25 and the fourth side 27, respectively.

The periphery of the bottom surface 22 is simultaneously connected to the bottom ends of the first side surface 24, the second side surface 25, the third side surface 26 and the fourth side surface 27, wherein the top surface 23 is simultaneously connected to the top ends of the first side surface 24, the second side surface 25, the third side surface 26 and the fourth side surface 27. That is, the bottom surface 22, the top surface 23, the first side surface 24, the second side surface 25, the third side surface 26, and the fourth side surface 27 surround and form the accommodating chamber 21.

The partition unit 30 includes at least one first partition 311 and at least one second partition 312, wherein the first partition 311 is disposed parallel to the second side 24 and/or the fourth side 26, and the first partition 311 is extended along the first side 24 toward the third side 26, the second partition 312 is disposed parallel to the first side 23 and/or the third side 25, and the second partition 312 is extended along the second side 25 toward the fourth side 27, and the first partition 311 and the second partition 312 are staggered with each other to partition the receiving cavity 21 into a plurality of receiving spaces.

In the present embodiment, the number of the first partitions 311 is one, one first partition 311 is longitudinally disposed at the receiving unit 20 to divide the receiving chamber 21 into two spaces, and further, at least one second partition 312 extends from a preset position of the first partition 311 toward both sides of the first partition 311 to the first side 24 and the third side 26, respectively, to divide the receiving chamber 21 into more spaces. Optionally, the first partition 311 divides the accommodating chamber 21 into two identical spaces, or two different spaces, for forming the receiving units 40 with different specifications later.

By transverse is meant parallel to and in the same direction as the first side 24 and the third side 26. Longitudinal means that said second side 25 and said fourth side 27 are parallel and in the same direction, longitudinal and transverse are perpendicular to each other.

The partition assembly 31 further includes a third partition 313, the first partition 311 and the second partition 312 are on different planes, the plane of the first partition 311 is perpendicular to the plane of the second partition 312, the third partition 313 is not on the same plane as the first partition 311 and the second partition 312, and the plane of the third partition 313 is perpendicular to the plane of the first partition 311 and the plane of the second partition 312. In other words, the third partition 313 is disposed parallel to the bottom surface 22 and the top surface 23 of the containing unit 20, and divides the containing chamber 21 into layers.

Thus, the accommodating chamber 21 of the accommodating unit 20 is divided into a plurality of receiving units 40 by the partition member 31 in three mutually perpendicular directions of the X axis, the Y axis and the Z axis, respectively.

Preferably, the first spacer 311, the second spacer 312 and the third spacer 313 are each a plate-shaped structure having a certain strength and thickness.

Further, the partition unit 30 includes a partition bottom surface 32, a partition top surface 33, a first partition side surface 34 and a third partition side surface 36, and has a partition unit opening 38, wherein the partition bottom surface 32 is disposed opposite to the partition top surface 33, the partition bottom surface 32 is disposed at the top end, the partition unit 30 is disposed at the bottom end, the first partition side surface 34 is disposed opposite to the third partition side surface 36, the first partition side surface 34 is adjacent to the first side surface 24 of the housing unit 20, and the third partition side surface 36 is adjacent to the third side surface 26 of the housing unit 20. That is, the partition top surface 33, the partition bottom surface 32, the first partition side surface 34 and the third partition side surface 36 form the partition unit opening 38 on both sides of the vehicle body 10, respectively, so that the water tank 50 can be taken out through the partition unit opening 38 of the partition unit 30 when the accommodation chamber 21 of the accommodation unit 20 is exposed.

The first partition 311 of the partition unit 30 is formed to extend from the first partition side 34 to the third partition side 36, the second partition 312 is formed to extend perpendicularly to the first partition 311 from the first partition 311 toward both sides, and the third partition 313 is formed to be connected to the first partition side 34, the second partition side 35, the third partition side 36, and the fourth partition side 37 at the same time.

When the partition unit 30 is placed in the accommodating unit 20 of the vehicle body 10, the partition bottom surface 32 of the partition unit 30 contacts the bottom surface 22 of the accommodating unit 20 to obtain a supporting function.

It is worth mentioning that the partition unit 30 is detachably mounted to the vehicle body 10, and the water tank 50 may be directly placed on the partition unit 30 during the detachment or the installation. That is, the partition unit 30 may be assembled outside the vehicle body 10 and then moved entirely into the accommodation chamber 21. Further, the partition unit 30 may be mounted with an auxiliary tool, such as a pulley, at the bottom end of the partition unit 30 to assist the movement of the partition unit 30.

It is also worth mentioning that the position at which any one of the first partition 311, the second partition 312, and the third partition 313 of the partition unit 30 is provided is allowed to be selected as needed, so that the size of the receiving chamber 41 of each two of the receiving units 40 can be adjusted.

The receiving unit 40 has a receiving bottom surface 42, a receiving top surface 43, a first receiving side surface 44, a second receiving side surface 45, and a third receiving side surface 46, wherein the receiving bottom surface 42 is located at the bottom of the receiving unit 40, the receiving top surface 43 is located at the top of the receiving unit 40, wherein the first receiving side surface 44 is parallel to the first side surface 24 of the containing unit 20, the second receiving side surface 45 is parallel to the second side surface 25 of the containing unit 20, the third receiving side surface 46 is parallel to the third side surface 26 of the containing unit 20, wherein one end of the second receiving side surface 45 is connected to the first receiving side surface 44, and the other end is connected to the third receiving side surface 46.

For one of the receiving units, the receiving bottom surface 42 is formed at the third divider 313, the receiving top surface 43 is formed at the other third divider 313, the first receiving side surface 44 is formed at one of the second dividers 312, the third receiving side surface 46 is formed at the other second divider 312, the second receiving side surface 45 is formed at one of the first dividers 311, and the fourth receiving side surface 47 is formed at the other first divider 311.

That is, the first receiving side 44 and the third receiving side 46 are oppositely arranged. The receiving bottom surface 42, the receiving top surface 43, the first receiving side surface 44, the second receiving side surface 45 and the third receiving side surface 46 form the receiving cavity 41 around them. The opening of the receiving chamber 41 is located above the second receiving side 45, i.e. towards the fourth side 27 or the second side 25 of the receiving unit 20. In other words, the receiving unit 40 is opened toward both sides of the vehicle body 10, and the user can load the water tank 50 into the receiving unit 40 at both side positions of the vehicle body 10. It is to be understood that the partition unit 30 can not include the partition bottom surface 32, the partition top surface 33, the first partition side surface 34, the second partition side surface 35, the third partition side surface 36, and the fourth partition side surface 37.

In other words, the receiving unit 40 is constituted by the accommodating unit 20 and the partition unit 30, and the top surface 23 and the bottom surface 22 of the accommodating unit 20 can be regarded as the receiving top surface 43 and the receiving bottom surface 44 of the receiving unit 40.

In another embodiment of the present invention, one end of one of the first dividers 311 is connected to the first side 24 of the containing unit 20 and the other end is connected to the third side 26 of the containing unit 20, while one end of one of the second dividers 312 is connected to the second side 25 of the containing unit 20 and the other end is connected to the fourth side 27 of the containing unit 20. That is, the first spacer 311 is integrally extended and formed on the first side surface 24 and the third side surface 26, and the second spacer 312 is integrally extended and formed on the second side surface 25 and the fourth side surface 27. In a plan view, the length of the first separator 311 and the length of the second separator 312 correspond to the length and the width of the accommodating unit 20, respectively. In this way, the containing cavity 21 is regularly divided into a plurality of receiving cavities 41 of 2 × N, where N is the number of the second separating members 312 plus one.

Further, referring to fig. 2C and 2D with emphasis, the first partition 311, the second partition 312, and the third partition 313 of the partition unit 30 are provided to be detachable from each other to form the receiving units 40 of different sizes. That is, the housing chamber 21 of the housing unit 20 can be partitioned into the plurality of receiving chambers 41 by assembling the first partition 311, the second partition 312, and the third partition 313 with each other.

In this way, the user can divide the receiving cavity 41 into different sizes and volumes according to his own needs and choices, to suit different transport needs during each transport.

It is worth mentioning that the first partitions 311 of the partition unit 30 can be detachably connected and assembled with each other, the second partitions 312 of the partition unit 30 can be detachably connected and assembled with each other, and the third partitions 313 of the partition unit 30 can be detachably connected and assembled with each other. The first and second partitions 311 and 312 of the partition unit 30 can be detachably connected and assembled with each other, the first and third partitions 311 and 313 of the partition unit 30 can be detachably connected and assembled with each other, and the second and third partitions 312 and 313 of the partition unit 30 can be detachably connected and assembled with each other, so that the first, second, and third partitions 311, 312, and 313 can be arbitrarily assembled to partition the receiving chamber 21 to meet various demands of a user.

The first separator 311, the second separator 312, and the third separator 313 may be detachably connected to each other by a snap-fit manner. The first separator 311, the second separator 312, and the third separator 313 may be engaged with each other by their own structures, or the first separator 311, the second separator 312, and the third separator 313 may be engaged with each other by another connection mechanism.

It is understood that, for the whole transportation apparatus for fresh aquatic products, the receiving chamber 41 may be formed by being partitioned by the first partition 311, the second partition 312, and the third partition 313 of the partition unit 30, or by directly providing the partition unit 30 to the vehicle body 10, the partition unit 30 having at least one receiving chamber 41 for receiving the water tank via the receiving chamber 41 inherent to the partition unit 40. It will be appreciated that the positions and numbers of the first dividing member 311, the second dividing member 312 and the third dividing member 313 in one of the dividing units 30 can be set as required, so as to form different sizes and numbers of receiving chambers 41 to meet different use requirements.

It is worth mentioning that a plurality of the partition units 30 may be stacked on top of each other to provide the receiving cavities 41 with different heights in the height direction.

As shown in fig. 3A, 3B and 3C, and with reference to fig. 1 to 2D, a modified embodiment of the above-described embodiment according to the present invention is illustrated with respect to the partition unit 20.

In another embodiment of the present invention, a first separator 311 is integrally formed to extend from the first side 24 toward the third side 26, and at least a second separator 312 is outwardly formed to extend from both sides of the first separator 311, that is, one of the second spacers 312 may extend outward at the left side of the first spacer 311, the other of the second spacers 312 may extend outward at the right side of the first spacer 311, but the second spacers 312 respectively positioned at both sides of the first spacer 311 are not on the same plane, further, the receiving units 40 may be formed differently on both sides of the first separator 311, with the first separator 311 being a boundary, the number may be different, and the size may be adjusted according to the position of the second separator 312 on the first separator 311. In this way, the transport requirements of different types of the water tank 50 are met.

In another embodiment of the present invention, at least one of the second partitions 312 is configured to extend integrally from a predetermined position of the second side surface 25 toward the fourth side surface 27, that is, the second partition 312 penetrates the accommodating cavity 21. One first partition 311 is integrally extended from a predetermined position of the first side 24 toward the third side 26, wherein one end of the first partition 311 is connected to the first side 24 and the other end is connected to the second partition 312, and further, one first partition 311 and one second partition 312 divide the receiving chamber 21 into three receiving chambers 41.

Further, at least one second partition 312 is provided at both sides of the first partition 311, that is, the partition unit 30 partitions the accommodation chamber 21 into a plurality of the receiving units 40, wherein the receiving units 40 surrounded by the second partition 312 and the third side 26 have a length equal to that of the third side 26, or there is at least one receiving unit 40 in which the receiving unit 40 has a length equal to that of the third side 26.

In another embodiment of the present invention, at least one of the second separating members 312 is configured to extend integrally from a predetermined position of the second side surface 25 toward the fourth side surface 27, that is, the length of the second separating member 312 is equal to the length of the first side surface 24. Further, one of the first partitions 311 extends from the third side surface 26 to the nearest second partition 312, and the remaining accommodation chambers 21 are divided into two by the first partition 311 on the basis of the division by the second partition 312. Further, at least one of the partition assemblies 31 is disposed at both sides of the first partition 311, extending outward from the first partition 311.

One first separator 311 may be formed between two second separators 312. It will be understood by those skilled in the art that the first and second spacers 311 and 312 are not limited to the present invention.

Thereby, the accommodating chamber 21 is partitioned into a plurality of the receiving units 40, wherein at least one of the receiving units 40 has a length equal to that of the first side surface 24 and is disposed close to the first side surface 24.

In another embodiment of the present invention, at least one of the second separating members 312 is integrally extended toward the fourth side 27 at a predetermined position of the second side 25, that is, the length of the second separating member 312 is equal to the length of the first side 24, and the second separating members 312 are spaced apart from each other.

Further, one first divider 311 is disposed between the two second dividers 312 to divide the receiving cavity 41 formed in the two second dividers 312 into two receiving cavities 41, one first divider 311 may be disposed between the first side surface 24 and the second divider 312 closest to the first side surface 24, or one first divider 311 may be disposed between the third side surface 26 and the second divider 312 closest to the third side surface 26.

It is understood that different first separating members 311 may be disposed on the same plane or on different planes to form different sizes of the receiving units 40.

Further, at least one second partition 312 may be disposed outward from the first partition 311 at a predetermined position to further partition the receiving chamber 41. At least one of the second spacers 312 may be formed to extend outward from only one side of the first spacer 311, or the second spacers 312 may be formed to extend outward from both sides of the first spacer 311.

It is worth mentioning that the first and second partitions 311 and 312 are detachably coupled to each other to facilitate the installation and removal of the partition unit 30. The user can adjust the volume of the receiving chamber 41 of the receiving unit 40 by attaching and detaching the first and second partitioning members 311 and 312.

Further, the water tank 50 is detachably installed to the receiving unit 40, and when it is necessary to load the fresh aquatic product transporting apparatus with the fresh water, the water tank 50 may be removed from the vehicle body 10, and then the fresh water is loaded into the water tank 50, and then the water tank 50 is re-installed to the vehicle body 10. The user can carry different kinds or sizes of fresh food according to the difference of the water tank 50, or load the water tank 50 to other vehicles or storage equipment equipped with similar equipment, so as to realize transportation or temporary storage.

It is worth integrating that the water tank 50 can also provide different spaces for separately accommodating the fresh food. As shown in fig. 7A and 7B, an embodiment of the water tank according to the present invention is illustrated, and in particular, the water tank 50 includes a tank body 51, a tank cover 52 and a tank partition member 53, wherein the case 51 has a case accommodating chamber 510, wherein the cover 52 is openably covered in the case accommodating chamber 510, wherein the case partition member 53 partitions the case receiving chamber 510 into a plurality of receiving spaces to provide different spaces, and the receiving spaces are isolated from each other for fresh food so that the fresh food cannot pass from one receiving space to another receiving space through the box body partition member 53, each of the receiving spaces is in communication with water, that is, water can pass from one receiving space to the other receiving space through the partition member 31.

Optionally, the box partition member 53 is a baffle plate having a hole provided in the box 51 to partition the box receiving chamber 510. The baffle has at least one hole of a predetermined size to prevent the passage of fresh water but allow the passage of water.

Optionally, the tank divider 53 is a mesh, made of wire, also with holes of a predetermined size to prevent the passage of live food but allow the passage of water.

Optionally, the tank partition 53 is a frame with a net, and the net configuration on the frame prevents the living foods from passing through, thereby reducing the possibility of mutual compression between the living foods when the tank 50 is impacted.

Alternatively, the box partition member 53 may have a shape to partition the box receiving chamber 510 into different shapes, such as a rectangle, a square, a honeycomb, a labyrinth, or a racetrack shape combined with a rest area, or a shape. It will be understood by those skilled in the art that the above-described shape does not limit the present invention. The box partition member 53 plays a role of dispersing the freshness.

The box accommodating cavities 510 partitioned by the box partition member 53 may be a plurality of accommodating spaces having the same shape, or accommodating spaces having different specifications, so that the different types of fresh foods which can survive in the same water environment can be placed in the same water tank 50, and the different types of fresh foods cannot be in contact with each other, thereby reducing the possibility of accidents occurring between the different types of fresh foods or the different sizes of fresh foods.

Further, the housing chamber 21 may be divided into a plurality of spaces in different directions by the tank partition member 53, the water tank 50 may be divided by the tank partition member 53 on an X axis of the water tank 50, the water tank 50 may be divided by the tank partition member 53 on a Y axis of the water tank 50, and the water tank 50 may be divided by the tank partition member 53 on a Z axis of the water tank 50, with the center of the water tank 50 as an origin. In other words, the case accommodating chamber 510 can be partitioned into a plurality of longitudinal spaces, a plurality of lateral spaces, and a plurality of layers of spaces to fully utilize the volume of the case 51.

Further, the case partition member 53 is detachably provided to the case 51 so that the case 51 can be divided into different accommodating spaces according to actual needs by replacing the case partition member 53 of a different shape. Also, the general water tank 50 can be changed into the water tank 50 having a plurality of receiving spaces by manufacturing the tank partition member 53.

The water tank 50 further includes a locking assembly 54, wherein the locking assembly 54 is disposed on the tank body 51 to enable the tank body 51 to be fixedly mounted to the receiving unit 40. By operating the locking assembly 54, the water tank 50 can be secured after being mounted in the receiving unit 40 to reduce movement during transport. When the user needs to take out the water tank 50, the water tank 50 is taken out by operating the locking assembly 54 again.

The water tank 50 further includes a guide assembly 55, wherein the guide assembly 55 is used to assist in mounting the tank body 51 to the receiving unit 40. The guide assembly 55 includes at least one first guide 551 and at least one second guide 552, wherein the first guide 551 is disposed at a predetermined position on the outside of the housing 51, and wherein the second guide 552 is disposed at a predetermined position on the inside of the receiving unit 40, so that when the housing 51 is mounted to the receiving unit 40, the first guide 551 on the outside of the housing 51 is movably coupled to the second guide 552 on the inside of the receiving unit 40. In other words, the user can easily install the water tank 50 having a certain weight to a predetermined position of the receiving unit 40 by the guide member 55.

Alternatively, the first guide 551 is a slide rail, and the second guide 552 is a sliding slot adapted to the first guide 551. Alternatively, the first guide 551 may be a slide groove, and the second guide 552 may be a slide groove disposed on the first guide 551. The number of the first guide members 551 may be two, and the first guide members 551 may be respectively disposed at both sides of the case 51, one of the first guide members 551 may be a slide rail and may be matched with the second guide member 552 corresponding to a slide groove, and the other of the first guide members 551 may be a slide groove and may be matched with the second guide member 552 corresponding to a slide rail. As shown in fig. 6, the partition unit 30 may be integrally moved to the accommodation unit 20.

It is understood that the number of the first guide members 551 matches the number of the second guide members 552, and the above description does not limit the number of the first guide members 551 and the second guide members 552. The guide assembly 55 not only guides the water tank 50, but also helps to position the water tank 50 in the receiving unit 40, thereby reducing the movement of the water tank 50 in the receiving unit 40 during transportation to protect the freshness.

It is worth mentioning that one receiving unit 40 can accommodate a plurality of water tanks 50 to make full use of the space of the transportation device for the live and fresh aquatic products, so as to save the cost.

The receiving unit 40 has a receiving bottom surface 42, a receiving top surface 43, a first receiving side surface 44, a second receiving side surface 45, and a third receiving side surface 46, wherein the receiving bottom surface 42 is located at the bottom of the receiving unit 40, the receiving top surface 43 is located at the top of the receiving unit 40, wherein the first receiving side surface 44 is parallel to the first side surface 24 of the containing unit 20, the second receiving side surface 45 is parallel to the second side surface 25 of the containing unit 20, the third receiving side surface 46 is parallel to the third side surface 26 of the containing unit 20, wherein one end of the second receiving side surface 45 is connected to the first receiving side surface 44, and the other end is connected to the third receiving side surface 46. That is, the first receiving side 44 and the third receiving side 46 are oppositely arranged. The receiving bottom surface 42, the receiving top surface 43, the first receiving side surface 44, the second receiving side surface 45 and the third receiving side surface 46 form the receiving cavity 41 around them. The opening of the receiving chamber 41 is located above the second receiving side 45, i.e. towards the fourth side 27 or the second side 25 of the receiving unit 20. In other words, the receiving unit 40 is opened toward both sides of the vehicle body 10, and the user can load the water tank 50 into the receiving unit 40 at both side positions of the vehicle body 10.

Specifically, the receiving unit 20 of the vehicle body 10 has two openings 210, wherein the openings 210 are respectively disposed at both sides, and the second side 25 and the fourth side 27 are respectively openably connected to the first side 24 and the third side 26, so that the receiving chamber 21 can be exposed by opening the second side 25 or the fourth side, and a user can put in the water tank 50 through the openings 210 of the receiving unit 20 or take out the water tank 50 from both sides of the vehicle body 10 through the openings 210, respectively.

It will be understood by those skilled in the art that the number and positions of the first, second and third spacers 311, 312, 313 are not limited to the present invention, as long as the receiving unit 40 having an outward opening is formed at both sides of the vehicle body 10, so that the user can use the receiving unit 40 through the opening 210.

Further, the water tank 50 includes a function connection assembly 56, wherein the function connection assembly 56 is disposed on the tank body 51 for connecting external auxiliary equipment, such as an oxygenation device, an external water circulation treatment device, a ventilation device, a valve device, a water pump device, a lighting device, an electronic monitoring device, a sensor device, and the like. Specifically, the function connection assembly 56 includes a movable connection element 561 and has a connection interface 560, wherein the movable connection element 561 is movably covered on the connection interface 560, when the movable connection element 561 is plugged into an external device, the movable connection element 561 is separated from the connection interface 560, so that the box body accommodating cavity 510 of the water box 50 is connected with the external device, and when the connection interface 560 is not plugged, the movable connection element 561 automatically covers the connection interface 560 to prevent the water in the water box 50 from flowing out from the connection interface 560.

Accordingly, the vehicle body 10 includes a function unit 60, wherein the function unit 60 includes at least one function 61, at least one function passage 62 and at least one function connector 63, wherein the function 61 may be an oxygen supply device to maintain a sufficient oxygen content in the water tank 50, a heating device to maintain the water tank 50 at a constant temperature, or a water change device to communicate with an external water treatment device to maintain the water quality of the water tank 50. It will be appreciated by those skilled in the art that the types of the functional components 61 can include, but are not limited to, the above description, and can be configured by the user according to actual use requirements. The functional member 61 may be disposed outside the receiving unit 20, not in the same space as the water tank 50, to facilitate maintenance and replacement of the functional member 61. The functional joint 63 is disposed at a predetermined position inside the receiving unit 40 to match the interface 560 provided at the water tank 50 such that the water tank 50 communicates with the outside through the functional joint 63 inserted into the interface 560 when the water tank 50 is received in the receiving unit 40.

Further, the functional joint 63 is connected to the functional member 61 through the functional passage 62, and the functional passage 62 is disposed in the partition unit 30 in a buried manner, so that the partition unit 30 has an aesthetic appearance, and the partition unit 30 has a strength to protect the functional passage 62, such as a water passage, from being damaged by collision during installation of the water tank 50.

Preferably, the interface 560 of the functional connection assembly 56 is disposed at a connection side of the water tank 50, wherein the connection side refers to a side that is in contact with the second receiving side 45 of the receiving unit 40 when the water tank 50 is mounted to the receiving unit 40. In this way, when the water tank 50 is pushed into the receiving unit 40, the interface 560 is located at the front end, so that the connection of the interface 560 to the functional connector 63 of the functional unit 60 is completed during the movement.

In other words, the interface 560 is disposed at a predetermined position on the connection side of the water tank 50, and the functional joint 63 is disposed at a predetermined position on the second receiving side 45 of the receiving unit 40, so that when the water tank 50 is mounted to the receiving unit 40, the interface 560 automatically aligns with the functional joint 63 to complete the connection of the water tank 50 to the external device during the movement of the water tank 50.

It is worth mentioning that the interface 560 of the water tank 50 is automatically connected to the functional joint 63 when the water tank 50 is mounted to the receiving unit 40, so that there is no need for a user to specifically align the functional joint 63 with the interface 560. When the water tank 50 is taken out of the receiving unit 40, the connection of the water tank 50 to an external device is automatically disconnected.

Further, the vehicle body 10 includes a control unit 70, wherein the control unit 70 is controllably connected to the function unit 60 to control the connection of the function member 61 and the water tank 50.

Optionally, the water tank 50 further comprises a handle 57, wherein the handle 57 is disposed at an outer side of the tank body 51, where the outer side is a side opposite to the connection side, and the outer side is located at an outward position after the water tank 50 is mounted to the receiving unit 40 so that a user can conveniently move the water tank 50 by holding the handle 57 disposed outward.

Fig. 4 is a perspective view of a transportation device for fresh aquatic products according to another preferred embodiment of the present invention, and fig. 1 to 3C are attached.

The transporting apparatus for fresh aquatic products comprises a vehicle body 10, a containing unit 20, a separating unit 30, a plurality of receiving units 40 and at least one water tank 50, wherein the containing unit 20 is disposed on the vehicle body 10, the vehicle body 10 carries the containing unit 20 and can transport the containing unit 20, and the containing unit 20 has a containing cavity 21 for containing articles.

The partition unit 30 is provided in the housing unit 20 to partition the housing chamber 21 into a plurality of housing spaces, forming a plurality of the receiving units 40, wherein each of the receiving units 40 has a receiving chamber 41, and wherein the water tank 50 is received in the receiving chamber 41.

Specifically, the partition unit 30 includes at least one first partition 311 and at least one third partition 313, wherein the first partition 311 is disposed to extend along the first side 24 of the receiving unit 20 in a direction toward the third side 26, that is, the first partition 311 is disposed in a direction substantially parallel to the first side 24 and the third side 26 of the receiving unit 20 such that the receiving chamber 21 is divided into a plurality of spaces in a longitudinal direction. The first spacer 311 is located in a plane substantially parallel to the plane of the first side 24 and the third side 26.

The third partition 313 is provided to extend in a direction toward the third side 26 along the first side 24 of the receiving unit 20, but the plane of the third partition 313 is parallel to the plane of the bottom surface 22 and the top surface 23, and is perpendicular to the plane of the first side 24 and the third side 26, respectively. That is, the presence of the third partition 313 further divides the accommodation chamber 21 into a multi-layered space.

As for the receiving unit 40, the length of the receiving unit 40 in the longitudinal direction is set to be the same as the length of the first side 24. For the containing unit 20, the first and third partitions 311 and 313 are divided into M × N spaces, where M-1 and N-1 represent the number of the first and third partitions 311 and 313, respectively. The user can select the number of the first and third dividers 311 and 313 according to the requirement, so as to obtain the receiving units 40 with different sizes and specifications.

It should be noted that the distances between the first partitions 311 and the third partitions 313 may be different, that is, the receiving chambers 41 of the receiving units 40 may have different volumes to accommodate the water tanks 50 having different sizes.

Further, the partition unit 30 includes a partition bottom surface 32, a partition top surface 33, a first partition side surface 34, a second partition side surface 35 and a fourth partition side surface 37 and has a partition unit opening 38, wherein the bottom partition surface 32 is disposed opposite to the top partition surface 33, the bottom partition surface 32 is located at the bottom end, the top partition surface 33 is located at the top end, wherein the second partition side 35 is disposed opposite the fourth partition side 37, wherein one end of the first partition side 34 is connected to the second partition side 35 and the other end is connected to the fourth side 27, the first partition side 34 is disposed parallel to the first side 24 of the containing unit 20, the second partition side 35 is disposed parallel to the second side 25 of the receiving unit 20, the fourth partition side 37 is disposed parallel to the fourth side 27 of the receiving unit 20. The partition unit opening 38 is formed at the peripheral edges of the partition bottom surface 32, the partition top surface 33, the first partition side surface 34, the second partition side surface 35, and the fourth partition side surface 37, so that when the third side surface 26 of the receiving unit 20 is opened, the partition unit opening 38 is exposed to perform a subsequent operation on the water tank 50 located at the receiving unit 40.

The third partition 313 is provided to be connected to the first partition side 34, the second partition side 35, and the fourth partition side 37 at the same time and to be parallel to the partition bottom surface 32 and the partition top surface 33, respectively, that is, the third partition 313 is provided to extend from the second partition side 35 toward the fourth partition side 37 and also from the first partition side 34 toward the partition unit opening 38. The first partition 311 is provided to extend from the first partition side 34 in the longitudinal direction toward the partition unit opening 38, and is connected to the second partition side 35 and the fourth partition side 37, respectively.

It should be noted that the third partition 313 may directly extend from the second side 25 to the fourth side 27 of the receiving unit 20, that is, the partition unit 30 may not include the partition bottom 32, the partition top 33, the first partition side 34, the second partition side 35, the third partition side 36 and the fourth partition side 37.

The third divider 313 may be integrally formed or may be divided, and may be detachably coupled to the first divider 311 to facilitate installation and removal. The first divider 311 may be integrally formed or may be divided, and may be detachably coupled to the third divider 313 to facilitate installation and removal. In this embodiment, the third side 26 of the accommodating unit 20 is openably covered in the accommodating chamber 21 so that the accommodating chamber 21 is exposed to take out or place the water tank 50 inward.

For the receiving unit 40, the receiving unit 40 has a receiving bottom 42, a receiving top 43, a first receiving side 44, a second receiving side 45 and a fourth receiving side 46, wherein the receiving bottom 42 is parallel to the bottom 22 of the receiving unit 20, wherein the receiving top 43 is parallel to the top 23 of the receiving unit 20, wherein the receiving top 43 and the receiving bottom 42 are arranged opposite to each other, wherein the second receiving side 45 is located inside the receiving bottom 42 and the receiving top 43 and faces the fourth side 27 or the second side 25 of the receiving unit 20. For the same receiving unit 40, the receiving bottom face 42 is formed at one of the third dividers 313, the receiving top face 43 is formed at the other of the third dividers 313, the first receiving side face 44 is formed at the first dividing side face 34, the second receiving side face 45 is formed at one of the first dividers 313, and the fourth receiving side face 47 is formed at the other of the first dividers 313.

For the receiving chamber 41 of the receiving unit 40, the receiving chamber 41 is surrounded by the receiving bottom 42, a receiving top 43, a first receiving side 44, a second receiving side 45 and a fourth receiving side 46. It is noted that the length of the receiving chamber 41 is equal to the length of the accommodating chamber 21. A user can place a plurality of said water tanks 50 in the same said receiving chamber 41

In a further modified embodiment of this embodiment, at least one receiving chamber 41 is formed between the fourth partition side 37 and the adjacent first partition 311, at least one receiving chamber 41 is formed between the second partition side 35 and the adjacent first partition 311, or the receiving chamber 41 is formed between one first partition 311 and the other first partition 311. Further, at least one third divider 313 may be provided to extend from the fourth dividing side 37 toward the adjacent first divider 311 to divide the receiving chamber 41 again, at least one third divider 313 may be provided to extend from the first divider 311 to another first divider 311 to divide the receiving chamber 41, and at least one third divider 313 may be provided to extend from the second dividing side 35 toward the adjacent first divider 311. It is worth mentioning that the three third partitions 313 may not be in the same plane, so as to form the receiving cavities 41 with different heights and sizes for users.

It should be understood by those skilled in the art that the combination of the first spacer 311 and the third spacer 313 is not limited to the above description, and the positions of the first spacer 311 and the third spacer 313 may be combined according to actual needs.

Fig. 5 is a perspective view of a transportation device for fresh aquatic products according to another preferred embodiment of the present invention, and fig. 1 to 4 are shown

The present embodiment is different from the above-mentioned embodiment in that the partition unit 30 includes at least one first partition 311 and at least one second partition 312, wherein the first partition 311 is disposed to extend along the direction from the first side 24 to the third side 26 of the accommodating unit 20, the number of the first partitions 311 is not limited to one, and the plane on which the first partitions 311 are disposed, the plane on which the second side 25 is disposed, and the plane on which the fourth side 27 is disposed are parallel to each other. The second spacers 312 are disposed to extend in a direction from the second side 25 to the fourth side 27 of the receiving unit 20, wherein the number of the second spacers 312 is not limited to one, and the plane in which the second spacers 312 are disposed, the plane in which the first side 24 is disposed, and the plane in which the third side 26 is disposed are parallel to each other, that is, the first spacers 311 and the second spacers 312 are perpendicular to each other.

It is understood that the distance between each of the first partitions 311 is not necessarily the same, and the distance between the first partitions 311 may be adjusted in the direction of the first side 24 to obtain different spaces according to the size of the water tank 50.

For the receiving unit 40, the length of the receiving unit 40 is approximately equal to the height of the first side 24, the second side 25, the third side 26, and the fourth side 27. The opening of the receiving chamber 41 of the receiving unit 40 is provided at the top end of the receiving unit 40, so that the user can put the water tank 50 into the receiving chamber 41 or take it out of the receiving chamber 41 from the top end of the containing unit 20. From a top view, the receiving chamber 21 is divided into M × N receiving spaces by the first and second partitions 311 and 312, wherein the number of the first partitions 311 is M-1, and wherein the number of the second partitions 312 is N-1. Further, the depth of the receiving chamber 41 is equal to the depth of the containing unit 20 so that the containing unit 20 can contain a greater number of the water tanks 50 or the water tanks 50 having a greater length in the vertical direction.

Further, the partition unit 30 includes a partition bottom surface 32, a first partition side surface 34, a second partition side surface 35, a third partition side surface 36 and a fourth partition side surface 37 and has a partition unit opening 38, wherein the first partition side surface 34 and the third partition side surface 36 are oppositely disposed, the first partition side surface 34 is parallel and adjacent to the first side surface 24 of the accommodation unit 20, the third partition side surface 36 is parallel and adjacent to the third side surface 26 of the accommodation unit 20, wherein the second partition side surface 35 and the fourth partition side surface 37 are oppositely disposed, the second partition side surface 35 is parallel and adjacent to the second side surface 25 of the accommodation unit 20, the fourth partition side surface 37 is parallel and adjacent to the fourth side surface 27 of the accommodation unit 20, wherein one end of the first partition side surface 34 is connected to the second partition side surface 34, and at the other end to the fourth partition side 37, wherein the third partition side 36 is connected at one end to the second partition side 35 and at the other end to the fourth partition side 37. The partition bottom 32 is provided at the bottom end while being connected to the first partition side 34, the second partition side 35, the third partition side 36 and the fourth partition side 37, wherein the partition unit opening 38 is formed at the top end so that the water tank 50 can be put in from the top end of the vehicle body 10.

The first partition 311 is provided to extend outward from the first partition side 34 of the partition unit 30 in parallel with the third partition side 36. The second partition 312 is provided to extend from the second partition side 35 toward the fourth partition side 37 of the partition unit 30, and is parallel to the first partition side 34 and the third partition side 36.

Optionally, in another embodiment of the present invention, the partition unit does not include the first partition side 34, the second partition side 35, the third partition side 36 and the fourth partition side 37. The first partition 311 may be provided with one end connected to the first side 24 of the receiving unit 20, and the second partition 313 may be provided with one end connected to the second side 25 of the receiving unit 20 and the other end connected to the fourth side 27 of the receiving unit 20. Alternatively, both ends of the first partition 311 are free ends, both ends of the second partition 313 are free ends, and the first partition 311 and the second partition 313 are connected to each other in a staggered manner to form a three-dimensional support on the bottom surface 22 of the accommodating unit 20.

According to another embodiment of the present invention, the fresh aquatic product transporting apparatus is divided into M longitudinal spaces by M-1 first partitions 311, wherein the second partitions 312 are disposed between the first partitions 311 from one predetermined position of the first partitions 311 toward the other first partitions 311, or disposed between the first partitions 311 and the second side 25 of the containing unit 20 from a predetermined position of the first partitions 311 with the outside toward the second side 25, or disposed between the first partitions 311 and the fourth side 27 of the containing unit 20 from a predetermined position of the first partitions 311 with the other side toward the fourth side 27. Each of the second partitions 312 is disposed perpendicular to the first partition 311, that is, a plane in which the second partition 312 is disposed is perpendicular to a plane in which the first partition 311 is disposed, and the second partitions 312 divide the M longitudinal spaces into M × N receiving spaces.

It will be understood that the second partitions 312 located in different M longitudinal spaces need not be coplanar with each other, that is, the depth of each receiving chamber 41 is the same, but the size of the cross-section can be set by the distance between the first partition 311 and the second partition 312. The body 10 may include different volumes of the receiving cavity 41 to accommodate different sizes of the water tank 50.

According to another embodiment of the present invention, the embodiment is different from the above embodiment in the separation unit 20.

Specifically, the partition unit 30 includes at least one first partition 311 and at least one second partition 312, wherein one of the first partitions 311 is extended from a predetermined position of the first side 24 toward the third side 26. That is, one end of the first separator 311 is connected to the first side surface 24, and the other end thereof may be connected to one of the second separators 312 or the third side surface 26. The second separator 312 may have one end connected to the first separator 311, the second side 25 or the fourth side 27, or both ends of the first separator 311 are connected to the second side 25 and the other end is connected to the fourth side 27. That is, the first dividing member 311 does not need to be disposed on the same plane as the other first dividing members 311, and the second dividing member 312 does not need to be disposed on the same plane as the other second dividing members 312, as long as the two first dividing members 311 and the two second dividing members 312 form one receiving chamber 41, or one first dividing member 311, one second dividing member 312, and the side surface of the housing unit 20 form one receiving chamber 41.

The containing unit 20 has at least one opening 210, wherein the opening 210 is provided at the top end of the containing unit 20, and the top surface 23 is openably provided in the containing chamber 21 so that the opening 210 is exposed, thereby taking out the water tank 50 from the top end opening.

It should be noted that, in the present invention, the first separator 311, the second separator 312 and the third separator 313 may be connected to each other at the receiving unit 20 to form the receiving unit 40 having six sides, and some auxiliary devices, such as circuits, may be placed at this portion to utilize space.

The first, second, and third partitions 311, 312, and 313 may be provided as a panel having a thickness such that the functional passages 62 are provided inside the first, second, and third partitions 311, 312, and 313. The partition unit 30 has a strength to ensure that the water tank 50 is fixedly installed at the receiving unit 40 during transportation. It is to be understood that the first partition 311, the second partition 312, and the third partition 313 are partitions of different directions, and may also be referred to as a first-direction partition, a second-direction partition, and a third-direction partition, respectively, to partition the receiving chamber 21 of the receiving unit 20 in a plurality of directions.

Further, the transporting apparatus for fresh aquatic products includes a buffering unit 80, wherein the buffering unit 80 is used to reduce the impact on the fresh aquatic products during the transportation process. Because in the transportation process, probably because road conditions, the transport equipment of live and fresh aquatic products can not keep a steady driving state, and then when the transport equipment of live and fresh aquatic products was in a undulant driving state, for the live and fresh that is located in the transport equipment of live and fresh aquatic products, probably receive the impact from all directions for water in the water tank 50 produces and rocks and then influences the live and fresh that is located wherein. On one hand, sudden impact may cause stress reaction on the fresh food, and on the other hand, the fresh food may be squeezed by water and the fresh food may be squeezed each other in the process of impact. The damping unit 80 can reduce an impact caused by an external factor such as vibration or rotation.

Alternatively, the damping unit 80 may be a rubber damper, an isolation washer, a damper block, or an air or spring damper, etc. It should be understood by those skilled in the art that the kinds of the buffer unit 80 may include, but are not limited to, the above-mentioned types.

Specifically, the buffer unit 80 is disposed inside the receiving unit 40 such that the buffer unit 80 performs a buffering function between the receiving unit 40 and the water tank 50 when the water tank 50 is mounted to the receiving unit 40.

The buffer unit 80 may be disposed at the bottom end of the water tank 50 or around the water tank to perform a buffering function, or at the top end of the water tank 50. Or may be disposed between the water tank 50 and the inner wall of the containing unit 20 to buffer between the containing unit 20 and the water tank 50.

The buffer unit 80 may also be disposed around the partition unit 30, for example, at the bottom end of the partition bottom surface 32 of the partition unit 30, between the partition unit 30 and the accommodating unit 20, to buffer the impact from the accommodating unit 20.

It will be understood by those skilled in the art that the embodiments of the present invention as described above and shown in the drawings are given by way of example only and are not limiting of the present invention. The objects of the present invention have been fully and effectively accomplished. The functional and structural principles of the present invention have been shown and described in the embodiments without departing from the principles, embodiments of the present invention may have any deformation or modification.

Claims (10)

1. Transport of living fresh aquatic products equipment, its characterized in that includes:

a vehicle body;

the accommodating unit is arranged on the vehicle body and is provided with an accommodating cavity;

a partition unit, wherein the partition unit includes at least one partition, wherein the partition is provided to the housing unit, and the partition is held in the housing chamber of the housing unit to partition the housing chamber into at least two receiving chambers; and

at least one water tank, wherein the water tank has a box and holds the chamber to supply the storage living fresh aquatic products, wherein the water tank is installed in the accepting chamber.

2. The live fresh aquatic product transport apparatus of claim 1, wherein the water tank is removably mounted to the receiving chamber.

3. The live fresh aquatic product transporting apparatus according to claim 1 or 2, wherein when the number of the partitions is plural, at least one of the partitions is a first direction partition, and the other partition is a second direction partition, wherein the first direction partition and the second direction partition are respectively disposed and held in the accommodating chamber of the accommodating unit, and the first direction partition and the second direction partition are perpendicular to each other to partition the accommodating chamber of the accommodating unit into the receiving chambers independent of each other.

4. The live fresh aquatic product transporting apparatus according to claim 1 or 2, wherein when the number of the partitions is plural, at least one of the partitions is a first direction partition, at least one of the partitions is a second direction partition, and the other of the partitions is a third direction partition, wherein the first direction partition, the second direction partition, and the third direction partition are respectively disposed and held in the accommodating chamber of the accommodating unit, and any two directions of the first direction partition, the second direction partition, and the third direction partition are perpendicular to each other to partition the accommodating chamber of the accommodating unit into the receiving chambers independent of each other.

5. Transport of living fresh aquatic products equipment, its characterized in that includes:

a vehicle body;

at least one partition unit, wherein the partition unit is arranged on the vehicle body, and each partition unit is provided with at least one receiving cavity; and

at least one water tank, wherein the water tank has a tank receiving cavity for storing a live fresh aquatic product, wherein the water tank is installed in the receiving cavity of the partition unit.

6. Transport of living fresh aquatic products equipment, its characterized in that includes:

a vehicle body;

the accommodating unit is arranged on the vehicle body and is provided with an accommodating cavity; and

at least two water tanks, wherein every the water tank respectively by detachably set up in hold the intracavity hold in the unit, wherein the water tank has a box and holds the chamber to supply the storage live and fresh aquatic products.

7. The live-fresh aquatic transport apparatus of claim 6 further comprising a partition unit, wherein the partition unit comprises at least one partition, wherein the partition is provided in the housing unit, and a nasal cavity in which the partition is held in the housing cavity of the housing unit to partition the housing cavity into a plurality of receiving cavities along a height direction of the housing unit, wherein at least one of the water tanks is detachably provided in one of the receiving cavities.

8. The live fresh aquatic product transporting apparatus of claim 7, wherein when the number of the partitions is plural, at least one of the partitions is a first direction partition, and the other partition is a second direction partition, wherein the first direction partition and the second direction partition are respectively disposed and held in the accommodating chamber of the accommodating unit, and the first direction partition and the second direction partition are perpendicular to each other to partition the accommodating chamber of the accommodating unit into the receiving chambers independent of each other.

9. The live fresh aquatic product transporting apparatus of claim 7, wherein when the number of the partitions is plural, at least one of the partitions is a first direction partition, at least one of the partitions is a second direction partition, and the other of the partitions is a third direction partition, wherein the first direction partition, the second direction partition, and the third direction partition are respectively disposed and held in the accommodating chamber of the accommodating unit, and any two directions of the first direction partition, the second direction partition, and the third direction partition are perpendicular to each other to partition the accommodating chamber of the accommodating unit into the receiving chambers independent of each other.

10. The live fresh aquatic product transporting apparatus according to any one of claims 7 to 9, wherein the partitions are detachably connected to each other.

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