CN210184243U - Vivipara living body transport case - Google Patents

Abstract

The utility model discloses a field snail live body transport case belongs to fishery transportation technical field. The vivipara living body transport case comprises a case body, and a partition plate is transversely and detachably arranged in the case body; the partition plate divides the interior of the box body into a refrigerating cavity and an air flowing cavity from top to bottom; an ice placing chamber is fixedly arranged in the refrigerating cavity; the interior of the ice placing chamber is hollow, the top of the ice placing chamber is opened, the bottom of the ice placing chamber is positioned in the center of the partition plate, and the top of the ice placing chamber is lower than or level with the top of the box body; the box with all open a plurality of ventilation holes on the baffle. The utility model discloses a field snail live body transport case, the gas permeability is good, and easy transport can maintain low temperature environment, and simple structure, and market prospect is wide, is fit for the scale and popularizes and applies.

Description

Vivipara living body transport case

Technical Field

The utility model relates to a field snail live body transport case belongs to fishery transportation technical field.

Background

Vivipara, gastropoda, viviparidae. River snails are large snails familiar in fresh water, inhabit river ponds or fields in fresh water, but are strong in dryness resistance, and the respiratory metabolism of the river snails is increased along with the increase of temperature. Therefore, escargots should be transported under dry and low temperature conditions. The river snail transport means in the prior art has the following defects: the air permeability is not strong, the transportation is not easy, and the low temperature can not be maintained. The defects cause a great amount of death of the river snails during transportation, thereby affecting the sale of the river snails.

In view of the above, there is a need to develop a transportation box for living escargots to overcome the shortcomings of the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the defects of the prior art and providing a live vivipara transport case. The utility model discloses a field snail live body transport case, the gas permeability is good, and easy transport can maintain low temperature environment, and simple structure, and market prospect is wide, is fit for the scale and popularizes and applies.

The utility model provides an above-mentioned technical problem's technical scheme as follows: a vivipara living body transport case comprises a case body, wherein a partition plate is transversely and detachably arranged in the case body; the partition plate divides the interior of the box body into a refrigerating cavity and an air flowing cavity from top to bottom; an ice placing chamber is fixedly arranged in the refrigerating cavity; the interior of the ice placing chamber is hollow, the top of the ice placing chamber is opened, the bottom of the ice placing chamber is positioned in the center of the partition plate, and the top of the ice placing chamber is lower than or level with the top of the box body; the box with all open a plurality of ventilation holes on the baffle.

The principle of the utility model is that:

first, a partition plate is provided inside the cabinet, and divides the inside of the cabinet into a cooling chamber and an air flow chamber from top to bottom. An ice placing chamber is arranged in the cold storage chamber, and an ice bag is placed in the ice placing chamber and used for refrigerating the cold storage chamber, so that the aim of maintaining a low-temperature environment is fulfilled. The ice bag is a block solid which is frozen by colloid prepared by water or water filled in a plastic bag, the shape of the block solid is matched with that of the ice placing chamber, and the finished product is placed into the ice placing chamber from the top of the ice placing chamber. And the ice bag can be used repeatedly, can not cause the waste, practices thrift the cost. The air flow cavity is used for facilitating ventilation of the refrigerating cavity and enhancing the ventilation of the box body.

And secondly, a plurality of ventilation holes are formed in the box body and the partition plate, so that airflow circulation flow can be formed, the ventilation performance of the box body is enhanced, and the survival rate of the river snails is improved.

And thirdly, a refrigerating cavity outside the ice placing chamber is a river snail storage area. The cold air generated by the ice bag in the ice storage chamber is guided into the river snail storage area, so that the stored river snails are cooled uniformly, a lower environmental temperature is kept, the consumption of oxygen and food is reduced, and the survival rate of the river snails is improved.

Fourthly, the baffle detachably and box internal connection are the clearance box of being convenient for, and are more nimble convenient like this.

To sum up, the utility model discloses a field snail live body transport case, the gas permeability is good, and easy transport can maintain the low temperature environment, and simple structure, and market prospect is wide, is fit for the scale and popularizes and applies.

The utility model discloses a use method:

when the escargots need to be transported, the partition plate is placed into the box body from the top of the box body, the pre-frozen ice bags matched with the ice placing chamber in shape are placed into the ice placing chamber from the top of the ice placing chamber, and then the escargots are placed into the escargots storing area in the refrigerating cavity.

And when the transportation is finished, the ice bag is taken out from the ice placing chamber and is frozen, so that the ice bag is convenient to use next time.

When the box body needs to be cleaned, the partition plate is taken out and can be cleaned.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the box body comprises a bottom plate, a first side plate, a second side plate, a third side plate and a fourth side plate, wherein the first side plate, the second side plate, the third side plate and the fourth side plate are sequentially connected end to end and fixed on the bottom plate to form a hollow box body structure with an open upper end, the first side plate and the third side plate are arranged oppositely, and the second side plate and the fourth side plate are arranged oppositely; the upper end of the third side plate is hinged with a box cover used for closing the top opening of the box body, and a plurality of ventilation holes are formed in the bottom plate, the first side plate, the second side plate, the third side plate, the fourth side plate and the box cover.

The adoption of the further beneficial effects is as follows: the shape of the box body can be a cuboid, a cube, a cylinder or other shapes. The rectangular or cubic structure is adopted, so that the carrying and stacking are convenient. A plurality of ventilation holes are formed in the bottom plate, the first side plate, the second side plate, the third side plate, the fourth side plate and the box cover, so that air flow circulation flowing can be formed, the ventilation performance of the box body is enhanced, and the survival rate of the field snails is improved.

Furthermore, the inner side surfaces of the first side plate, the second side plate, the third side plate and the fourth side plate are respectively and fixedly provided with a bearing strip for placing the partition plate.

The adoption of the further beneficial effects is as follows: the inner end faces of the first side plate, the second side plate, the third side plate and the fourth side plate are respectively provided with a bearing strip, and the bearing strips are used for placing the partition plates and are very firm. Baffle detachably and box internal connection are convenient for clear up the filth that viviparidae produced in the box, and are more nimble convenient like this. The workman puts the baffle on the bearing strip or takes off from the bearing strip through handing the air vent on the baffle or putting the ice chest, and is very convenient.

Furthermore, the height of the supporting strip from the top of the box body is greater than that from the bottom of the box body.

The further beneficial effects of the adoption are as follows: so set up for the height in refrigeration chamber is greater than the height in air flow chamber, can deposit the field snail of transporting more.

Further, the upper end of the third side plate is hinged to one end of the box cover through a hinge, the other end of the box cover is provided with a buckle, and a buckle groove which is matched with the buckle and can be connected together in a clamping mode is formed in the outer side face of the first side plate.

The adoption of the further beneficial effects is as follows: one end of the box cover is hinged with the upper end of the third side plate through a hinge, the structure is simple, and the box cover cannot fall off and be lost. The other end of case lid is equipped with the buckle, and the lateral surface of first curb plate is equipped with the assorted draw-in groove, through the joint of buckle and draw-in groove, easily opens or close the box, conveniently realizes opening and shutting of case lid in a flexible way, and seals effectually, can not cause the river snail to escape from cold-stored intracavity.

Further, grooves are symmetrically formed in the outer end faces of the second side plate and the fourth side plate respectively.

The adoption of the further beneficial effects is as follows: the outer end faces of the second side plate and the fourth side plate are symmetrically provided with grooves respectively, so that a worker can carry the glass with two hands conveniently.

Furthermore, the ice placing chamber is cylindrical.

The adoption of the further beneficial effects is as follows: the ice storage chamber is cylindrical, so that the river snail storage area can be uniformly cooled, and the river snail storage area is more attractive compared with a cuboid.

Furthermore, a plurality of supporting feet which are vertical to the box body are uniformly and fixedly connected to the edge of the bottom of the box body.

The adoption of the further beneficial effects is as follows: a plurality of supporting feet which are mutually perpendicular to the box body are fixedly connected to the bottom edge of the box body evenly, so that the box body can not be in direct contact with the ground, a certain distance is reserved between the box body and the ground, and ventilation inside the box body is facilitated.

Further, the support feet are cylindrical structures.

The further beneficial effects of the adoption are as follows: the support footing is the cylinder structure, and is more stable.

The utility model has the advantages that:

1. the inside baffle that is equipped with of box, baffle are separated the box inside from the top down and are kept in the cold storage chamber and the air flow chamber. An ice placing chamber is arranged in the cold storage chamber, and an ice bag is placed in the ice placing chamber and used for refrigerating the cold storage chamber, so that the aim of maintaining a low-temperature environment is fulfilled. The ice bag is a block solid which is frozen by colloid prepared by water or water filled in a plastic bag, the shape of the block solid is matched with that of the ice placing chamber, and the finished product is placed into the ice placing chamber from the top of the ice placing chamber. And the ice bag can be used repeatedly, can not cause the waste, practices thrift the cost. The air flow cavity is used for facilitating ventilation of the refrigerating cavity and enhancing the ventilation of the box body.

2. All open a plurality of ventilation holes on box and baffle, can form the air current circulation flow like this, strengthen the air permeability of box to improve the survival rate of field snail.

3. A refrigerating cavity outside the ice placing chamber, which is a river snail storage area. The cold air generated by the ice bag in the ice storage chamber is guided into the river snail storage area, so that the stored river snails are cooled uniformly, a lower environmental temperature is kept, the consumption of oxygen and food is reduced, and the survival rate of the river snails is improved.

4. The baffle detachably and box internal connection are convenient for clear up the box, and are more nimble convenient like this.

5. The utility model discloses a field snail live body transport case, the gas permeability is good, and easy transport can maintain low temperature environment, and simple structure, and market prospect is wide, is fit for the scale and popularizes and applies.

Drawings

Fig. 1 is the overall structure schematic diagram of the vivipara living body transport case of the utility model when the case cover is opened.

Fig. 2 is the overall structure schematic diagram of the vivipara living body transport case of the utility model when the case cover is closed.

Fig. 3 is a plan view of fig. 1 with the separator 8 removed.

Fig. 4 is a schematic structural view of the separator 8 of fig. 1.

In the drawings, the components represented by the respective reference numerals are listed below:

1. the refrigerator comprises a box body, a bottom plate, a first side plate, a second side plate, a third side plate, a fourth side plate, a box cover, a partition plate, a refrigerating cavity, an air flowing cavity, an ice placing chamber, a vent hole, a groove and a groove, wherein the box body 2 is provided with a bottom plate 3, the first side plate 4, the second side plate 5, the third side plate; 14. bearing strip, 15, hinge, 16, buckle, 17, buckle groove, 18, support footing.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following detailed drawings, the examples given are intended to illustrate the present invention and are not intended to limit the scope of the invention.

A vivipara living body transportation box is shown in figures 1-4 and comprises a box body 1, wherein a partition plate 8 is transversely and detachably arranged inside the box body 1; the partition plate 8 divides the interior of the box body 1 into a refrigerating chamber 9 and an air flowing chamber 10 from top to bottom; an ice chamber 11 is fixedly arranged in the refrigerating cavity 9; the ice placing chamber 11 is hollow and has an open top, the bottom of the ice placing chamber is positioned at the center of the partition plate 8, and the top of the ice placing chamber is lower than the top of the box body 1 or is flush with the top of the box body 1; the box body 1 and the partition plate 8 are both provided with a plurality of vent holes 12.

The principle of the utility model is that:

first, a partition plate is provided inside the cabinet, and divides the inside of the cabinet into a cooling chamber and an air flow chamber from top to bottom. An ice placing chamber is arranged in the cold storage chamber, and an ice bag is placed in the ice placing chamber and used for refrigerating the cold storage chamber, so that the aim of maintaining a low-temperature environment is fulfilled. The ice bag is a block solid which is frozen by colloid prepared by water or water filled in a plastic bag, the shape of the block solid is matched with that of the ice placing chamber, and the finished product is placed into the ice placing chamber from the top of the ice placing chamber. And the ice bag can be used repeatedly, can not cause the waste, practices thrift the cost. The air flow cavity is used for facilitating ventilation of the refrigerating cavity and enhancing the ventilation of the box body.

And secondly, a plurality of ventilation holes are formed in the box body and the partition plate, so that airflow circulation flow can be formed, the ventilation performance of the box body is enhanced, and the survival rate of the river snails is improved.

And thirdly, a refrigerating cavity outside the ice placing chamber is a river snail storage area. The cold air generated by the ice bag in the ice storage chamber is guided into the river snail storage area, so that the stored river snails are cooled uniformly, a lower environmental temperature is kept, the consumption of oxygen and food is reduced, and the survival rate of the river snails is improved.

Fourthly, the baffle detachably and box internal connection are the clearance box of being convenient for, and are more nimble convenient like this.

To sum up, the utility model discloses a field snail live body transport case, the gas permeability is good, and easy transport can maintain the low temperature environment, and simple structure, and market prospect is wide, is fit for the scale and popularizes and applies.

The utility model discloses a use method:

when the escargots need to be transported, the partition plate is placed inside the box body from the top of the box body, then the pre-frozen ice bags matched with the ice placing chamber in shape are placed into the ice placing chamber from the top of the ice placing chamber, and then the escargots are placed into the escargots storing area in the refrigerating chamber.

And when the transportation is finished, taking the ice bag out of the ice placing chamber, freezing and using the ice bag for the next time.

When the box body needs to be cleaned, the partition plate is taken out and can be cleaned.

The box body 1 comprises a bottom plate 2, a first side plate 3, a second side plate 4, a third side plate 5 and a fourth side plate 6, wherein the first side plate 3, the second side plate 4, the third side plate 5 and the fourth side plate 6 are sequentially connected end to end and fixed on the bottom plate 2 to form a hollow box body structure with an open upper end, the first side plate 3 and the third side plate 5 are oppositely arranged, and the second side plate 4 and the fourth side plate 6 are oppositely arranged; the upper end of the third side plate 5 is hinged with a box cover 7 for closing the top opening of the box body 1, and the bottom plate 2, the first side plate 3, the second side plate 4, the third side plate 5, the fourth side plate 6 and the box cover 7 are all provided with a plurality of ventilation holes 12. The shape of the box body can be a cuboid, a cube, a cylinder or other shapes. The rectangular or cubic structure is adopted, so that the carrying and stacking are convenient. A plurality of ventilation holes are formed in the bottom plate, the first side plate, the second side plate, the third side plate, the fourth side plate and the box cover, so that air flow circulation flowing can be formed, the ventilation performance of the box body is enhanced, and the survival rate of the field snails is improved.

And the inner side surfaces of the first side plate 3, the second side plate 4, the third side plate 5 and the fourth side plate 6 are respectively and fixedly provided with a bearing strip 14 for placing the partition plate 8. The inner end faces of the first side plate, the second side plate, the third side plate and the fourth side plate are respectively provided with a bearing strip, and the bearing strips are used for placing the partition plates and are very firm. Baffle detachably and box internal connection are convenient for clear up the filth that viviparidae produced in the box, and are more nimble convenient like this. The workman puts the baffle on the bearing strip or takes off from the bearing strip through handing the air vent on the baffle or putting the ice chest, and is very convenient.

The height of the supporting strip 14 from the top of the box body 1 is greater than that from the bottom of the box body 1. So set up for the height in refrigeration chamber is greater than the height in air flow chamber, can deposit the field snail of transporting more.

The upper end of the third side plate 5 is hinged to one end of the case cover 5 through a hinge 15, the other end of the case cover 5 is provided with a buckle 16, and the outer side face of the first side plate 3 is provided with a buckle groove 17 which is matched with the buckle 14 and can be clamped together. One end of the box cover is hinged with the upper end of the third side plate through a hinge, the structure is simple, and the box cover cannot fall off and be lost. The other end of case lid is equipped with the buckle, and the lateral surface of first curb plate is equipped with the assorted draw-in groove, through the joint of buckle and draw-in groove, easily opens or close the box, conveniently realizes opening and shutting of case lid in a flexible way, and seals effectually, can not cause the river snail to escape from cold-stored intracavity.

Grooves 13 are symmetrically arranged on the outer end faces of the second side plate 4 and the fourth side plate 6 respectively. The outer end faces of the second side plate and the fourth side plate are symmetrically provided with grooves respectively, so that a worker can carry the glass with two hands conveniently.

The ice placing chamber is cylindrical. The ice storage chamber is cylindrical, so that the river snail storage area can be uniformly cooled, and the river snail storage area is more attractive compared with a cuboid.

A plurality of supporting feet 18 vertical to the box body 1 are uniformly and fixedly connected with the edge of the bottom of the box body. A plurality of supporting feet which are mutually perpendicular to the box body are fixedly connected to the bottom edge of the box body evenly, so that the box body can not be in direct contact with the ground, a certain distance is reserved between the box body and the ground, and ventilation inside the box body is facilitated.

The support feet 18 are cylindrical structures. The support footing is the cylinder structure, and is more stable.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (9)

1. The vivipara living body transport case is characterized by comprising a case body (1), wherein a partition plate (8) is transversely and detachably arranged in the case body (1); the clapboard (8) divides the interior of the box body (1) into a refrigerating cavity (9) and an air flowing cavity (10) from top to bottom; an ice chamber (11) is fixedly arranged in the refrigerating cavity (9); the ice placing chamber (11) is hollow and has an open top, the bottom of the ice placing chamber is positioned at the center of the partition plate (8), and the top of the ice placing chamber is lower than the top of the box body (1) or is flush with the top of the box body (1); the box body (1) and the partition plate (8) are both provided with a plurality of ventilation holes (12).

2. A vivipara transport case as claimed in claim 1, characterized in that said case body (1) comprises a bottom plate (2), a first side plate (3), a second side plate (4), a third side plate (5) and a fourth side plate (6), wherein said first side plate (3), said second side plate (4), said third side plate (5) and said fourth side plate (6) are sequentially connected end to end and fixed on said bottom plate (2) to form a hollow case body structure with an open upper end, said first side plate (3) is opposite to said third side plate (5), said second side plate (4) is opposite to said fourth side plate (6); the upper end of third curb plate (5) articulates there is the case lid (7) that is used for with the open-top of box (1) confined, bottom plate (2) first curb plate (3) second curb plate (4) third curb plate (5) fourth curb plate (6) with all open a plurality of ventilation holes (12) on case lid (7).

3. A vivipara transport case as claimed in claim 2, characterized in that a support strip (14) for placing the partition (8) is fixed on the inner side of the first side plate (3), the second side plate (4), the third side plate (5) and the fourth side plate (6).

4. A vivipara transport case as claimed in claim 3, characterized in that said supporting strip (14) has a greater height from the top of said case (1) than from the bottom of said case (1).

5. A vivipara transport case as claimed in claim 2, characterized in that the upper end of the third side plate (5) is hinged to one end of the case cover (7) through a hinge (15), the other end of the case cover (7) is provided with a buckle (16), and the outer side surface of the first side plate (3) is provided with a buckle groove (17) which is matched with the buckle (16) and can be buckled together.

6. A vivipara transport case as claimed in claim 2, characterized in that at the outer end faces of said second side plate (4) and said fourth side plate (6), there are symmetrically arranged grooves (13), respectively.

7. A vivipara transport case as claimed in any one of claims 1 to 6, characterized in that said ice housing (11) is cylindrical.

8. A vivipara transport case as claimed in any one of claims 1 to 6, characterized in that a plurality of supporting feet (18) perpendicular to each other are fixedly connected to the bottom edge of said case (1) uniformly.

9. Vivipara transport case according to claim 8, characterized in that said supporting footing (18) is of cylindrical structure.

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