CN210285313U - Resistance to compression antiknock formula fruit holds in palm and fruit packing carton - Google Patents

Abstract

The utility model provides a resistance to compression blast resistant formula fruit holds in palm, includes the base plate, is array distribution a plurality of fruit check on the base plate, the fruit check include wall body cambered surface and bottom cambered surface, and the horizontal cross-section of wall body cambered surface is the goose egg form, wall body cambered surface upper end, lower extreme opening, wall body cambered surface lower extreme opening part and bottom cambered surface are in the same direction as connecting, forms the chamber that holds that is used for holding fruit behind wall body cambered surface and the bottom cambered surface connection, and the contained angle α of bottom cambered surface and horizontal plane is 20 to 45 degrees.

Description

Resistance to compression antiknock formula fruit holds in palm and fruit packing carton

Technical Field

The utility model belongs to the technical field of fruit transport package, especially, relate to an anti-compression and anti-explosion type fruit holds in palm and a fruit packaging box.

Background

Because the climatic environments of various regions are different, fruits which can be planted and produced are correspondingly different; to meet consumer demand, produce fruits are often shipped across the country for sale. Spherical and ellipsoidal fruits are stored and transported by adopting fruit trays. In the existing fruit tray, a plurality of fruit lattices are usually arranged on a plate body, and the fruit lattices are in a hemispherical shape; when the fruit tray is used, the fruits are usually placed in the fruit grids, and then the multiple layers of fruit trays are placed in the paper box, so that the fruits are packaged and protected, and the damage to the fruits in the transportation process is reduced. The fruit check of current fruit support is hemispherical shape, and the fruit is held to the fruit check, but hemispherical fruit check is limited to the protection dynamics of fruit, to the fruit of soft point, uses current fruit support very easily by the extrusion, extrudees even and explodes, causes the fruit damaged.

SUMMERY OF THE UTILITY MODEL

In view of the above problem, the utility model provides a resistance to compression antiknock formula fruit holds in palm, it has can prevent that the crowded extrusion of fruit is exploded, protect advantages such as fruit better when transporting.

Another object of the utility model is to provide a fruit packing box.

The pressure-resistant and explosion-resistant fruit tray comprises a base plate, wherein a plurality of fruit lattices are distributed on the base plate in an array manner, the fruit lattices comprise a wall body arc surface and a bottom arc surface, the horizontal section of the wall body arc surface is in an egg shape, the upper end and the lower end of the wall body arc surface are open, the lower end opening of the wall body arc surface is in smooth connection with the bottom arc surface, a containing cavity for containing fruits is formed after the wall body arc surface is connected with the bottom arc surface, and the included angle α between the bottom arc surface and the horizontal plane is 20-45 degrees.

Preferably, a plurality of semicircular grooves are uniformly formed in the outer side of the top end of each fruit lattice, and the inner ends of the semicircular grooves are communicated with the accommodating cavity.

Preferably, a plurality of strip-shaped bulges are arranged on the outer surface of the fruit grid.

Preferably, the strip-shaped bulges are vertical strip-shaped bulges, the strip-shaped bulges are arranged on the outer surface of the cambered surface of the wall body, and the distance between every two adjacent bulges is the same.

Preferably, the substrate is rectangular, and N rows and M columns of fruit grids are arranged on the substrate, wherein N, M are natural numbers greater than 0.

Preferably, a through groove is formed between every two adjacent fruit lattices in each row, the vertical section of each through groove is in a fan shape, and the central angle of each fan shape is larger than or equal to 180 degrees and smaller than 300 degrees.

Preferably, the height of the lower end of the wall cambered surface is gradually reduced from one side to the other side.

Preferably, the substrate is circular, and a plurality of fruit lattices are arranged around the center of the substrate.

Preferably, the bottom cambered surface is provided with air holes, and the diameter of each air hole is 5-10 mm.

The fruit packing box comprises the fruit support, a box body and corrugated paper, wherein the box body is hollow, the shape and size of the corrugated paper are the same as those of the box body, and the fruit support and the corrugated paper are sequentially stacked into the box body.

The utility model has the advantages that: the utility model discloses a bottom cambered surface that is the slope contained angle with the horizontal plane setting, therefore when putting the whole fruit support into the box and transporting, only a small part of the bottom of fruit check and external world direct contact, the most of the bottom of fruit check still keeps certain distance with the external world, therefore after the external world forms the pressure to the fruit check, the bottom of fruit check still has certain buffer distance with the external world, can reduce the direct contact of most external force and fruit check through this buffer distance, thereby can avoid the fruit in the fruit support more to be squeezed even crowded and exploded, and then form the better protection to the fruit; the accommodating cavity is made of soft plastic materials and has certain stretching and shrinking properties, so that when the fruits are placed in the accommodating cavity, the fruits can be better fixed through the micro-stretching of the accommodating cavity; the utility model also arranges strip-shaped bulges on the outer surface of the fruit lattice, and the strip-shaped bulges can play a buffer role to further protect the fruits in the fruit lattice; the semicircular groove is formed in the outer side edge of the top end of the fruit lattice, when the fruit lattice bears external force, external energy is absorbed through deformation of the semicircular groove, the external force is buffered from the upper portion direction, and the fruit in the fruit lattice is prevented from being crushed when the upper portion pressure is too high.

Drawings

Fig. 1 is a top view of an embodiment of the present invention.

Fig. 2 is a side view of an embodiment of the present invention.

Fig. 3 is a front view of an embodiment of the present invention.

Fig. 4 is a schematic diagram of a fruit lattice according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of a viewing angle according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of another view angle according to an embodiment of the present invention.

The fruit tree planting device comprises a base plate 1, fruit lattices 2, air holes 3, through grooves 4, cambered surfaces 5, accommodating cavities 6, semicircular grooves 7 and strip-shaped protrusions 8.

Detailed Description

The present invention will be further specifically described with reference to the accompanying drawings.

The utility model provides a resistance to compression blast resistant formula fruit holds in palm, it includes the base plate, is provided with a plurality of fruit check on the base plate, and a plurality of fruit check are the array and distribute.

The substrate is rectangular, the fruit lattices are arranged in N rows and M columns on the substrate, wherein N, M are all natural numbers larger than 0.

The fruit tray comprises a wall arc surface and a bottom arc surface, wherein the horizontal section of the wall arc surface is in a goose egg shape, the horizontal section is a surface obtained by cutting the wall arc surface by a plane in the horizontal direction, the upper end and the lower end of the wall arc surface are open, the lower end opening of the wall arc surface is smoothly connected with the bottom arc surface, and a containing cavity for containing fruits is formed after the wall arc surface is connected with the bottom arc surface.

The wall body cambered surface and the bottom cambered surface all adopt the softwood to make, consequently hold the chamber by wall body cambered surface and bottom cambered surface constitution and possess certain little scalability performance, put into when the fruit and hold the intracavity, through holding the little flexible in chamber to wrap up the fruit better, fix, the fruit does not rock easily in the transportation, avoids causing the bruise of fruit.

In the embodiment, a plurality of semicircular grooves are uniformly formed in the outer edge of the top end of each fruit lattice. One end of the diameter of the semicircular groove is superposed with the outer edge of the fruit lattice, and the inner end of the semicircular groove is communicated with the accommodating cavity. The semicircular groove can be compressed when being extruded; when stretched, expands outwardly. When the fruit support is subjected to external force, the semicircular grooves disperse and bear a part of force through the deformation of the semicircular grooves, so that the external force applied to the fruit lattices is reduced, the fruits in the fruit lattices are further protected, and the external force damage to the fruits in the fruit lattices is reduced.

In this embodiment, a plurality of strip-shaped protrusions are arranged on the outer surface of the fruit lattice. Specifically, the strip-shaped protrusions are vertical, and the width of each strip-shaped protrusion is 8 to 15 mm. The plurality of strip-shaped bulges are distributed on the outer surface of the cambered surface of the wall body, and the distance between every two adjacent strip-shaped bulges is the same. Through the strip arch of the surface of fruit check, when the surface of fruit check is direct to contact with the external world and extrude, the strip arch contacts with the external world earlier, forms the buffering to fruit check, has protected the fruit in the fruit check better.

In this embodiment, a through groove is provided between adjacent fruit lattices in each row on the substrate, the vertical cross-sectional shape of the through groove is a sector with a central angle of 180 degrees or more, and the central angle of the sector is preferably less than 300 degrees. The vertical section is a section obtained by cutting the through groove by a vertical plane. Through set up logical groove between the adjacent fruit check of a row, firstly when taking out fruit, the consumer can be with the finger from leading to the inslot that slides in the fruit check, be convenient for pick up fruit to the convenient fruit of placing in the fruit check of taking out. Secondly, because the through groove enlarges the connecting area between the fruit lattices, the fruit tray can bear larger force, so that the whole fruit tray can bear larger force, and the fruits in the fruit lattices can be better protected in the transportation process.

In this embodiment, the thickness of the substrate is 0.6 mm, the length of the substrate is 355 mm, and the width of the substrate is 278 mm. And 6 rows and 9 columns of fruit grids were arranged on the substrate. The height of the fruit lattice is 33 mm, the maximum width of the fruit lattice is 28 mm, and the maximum length of the fruit lattice is 40 mm. This is only in conjunction with the above-described structural design to further illustrate the dimensions in this embodiment. During the in-service use, this fruit holds in palm size change that can carry out the fruit check according to fruit size, the size that actually holds. The fruit support can be manufactured by injection molding and integrated molding.

In this embodiment, the bottom arc surface is opened with air holes, and the diameter of the air holes is 5 to 10 mm. Because fruit exists respiration when transporting, sets up the gas pocket and can be convenient for fruit ventilation in the transportation to breathe with oxygen, rather than carrying out anaerobic respiration, thereby reduce rotten, the rotten scheduling problem of fruit in the transportation, keep fresh to fruit better.

In this embodiment, as shown in fig. 1, the front end of each fruit lattice is inclined to the left. When the fruit lattice is used, the wampee is put into the fruit lattice, the big end of the wampee faces the rear end of the fruit lattice, and the small end of the wampee faces the front end of the fruit lattice. After the fruit is put in, one end of the small head of the wampee is lightly pressed, so that one end of the thief of the wampee extends into the fruit grid, and the whole wampee is placed into the fruit grid to form protection for the fruit. The invention is particularly suitable for fruits with the shape similar to goose eggs, such as wampee.

A fruit packing box comprises a box body, corrugated paper and a fruit tray. The box body is rectangular and hollow. The box body can be made of paper materials. The corrugated paper is rectangular, and the length and the width of the corrugated paper are the same as those of the box body. The fruit support and the corrugated paper are sequentially stacked in the box body, a fruit is placed in each fruit grid of the fruit support, and the corrugated paper is placed on the uppermost layer of the fruit support. Then the box cover of the box body is covered, so that the fruits are packaged. Fruit is packed through this fruit packing carton, except having the advantage of the resistance to compression blast that the fruit holds in the palm and brings, fruit has further been protected from the top to the corrugated paper, and the box body further forms outer the encirclement to fruit support, corrugated paper from all around, forms the second layer protection to fruit, consequently this fruit packing carton can protect fruit better.

As an extension of the above embodiment, the substrate is circular, and a plurality of fruit lattices are arranged around the center of the substrate. The corrugations are correspondingly provided with a circular shape, and the box body is correspondingly provided with a circular shape. The round fruit support and the corrugated paper are sequentially stacked in the round box body, so that the transportation and the package of the fruits are formed.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. The pressure-resistant and explosion-resistant fruit tray is characterized by comprising a base plate, wherein a plurality of fruit lattices are distributed on the base plate in an array manner, each fruit lattice comprises a wall body arc surface and a bottom arc surface, the horizontal section of each wall body arc surface is in an egg shape, the upper end and the lower end of each wall body arc surface are open, the lower end opening of each wall body arc surface is in smooth connection with the bottom arc surface, a containing cavity for containing fruits is formed after the wall body arc surfaces are connected with the bottom arc surfaces, and the included angle α between the bottom arc surfaces and the horizontal plane is 20-45 degrees.

2. The compression-resistant and explosion-resistant fruit tray as claimed in claim 1, wherein: a plurality of semicircular grooves are uniformly formed in the outer side of the top end of each fruit lattice, and the inner ends of the semicircular grooves are communicated with the accommodating cavity.

3. The compression-resistant and explosion-resistant fruit tray as claimed in claim 1, wherein: a plurality of strip-shaped bulges are arranged on the outer surface of the fruit grid.

4. The compression-resistant and explosion-resistant fruit tray as claimed in claim 3, wherein: the strip-shaped bulges are vertical strip-shaped bulges, the strip-shaped bulges are arranged on the outer surface of the cambered surface of the wall body, and the distance between every two adjacent bulges is the same.

5. The compression-resistant and explosion-resistant fruit tray as claimed in claim 1, wherein: the substrate is rectangular, N rows and M fruit grids are arranged on the substrate, and N, M are natural numbers larger than 0.

6. The compression-resistant and explosion-resistant fruit tray as claimed in claim 5, wherein: a through groove is formed between every two adjacent fruit lattices in each row, the vertical section of each through groove is fan-shaped, and the central angle of each fan-shaped is larger than or equal to 180 degrees and smaller than 300 degrees.

7. The compression-resistant and explosion-resistant fruit tray as claimed in claim 1, wherein: the height of the lower end of the wall cambered surface is gradually reduced from one side to the other side.

8. The compression-resistant and explosion-resistant fruit tray as claimed in claim 1, wherein: the base plate is circular, and a plurality of fruit lattices are arranged around the circle center of the base plate.

9. The compression-resistant and explosion-resistant fruit tray as claimed in claim 1, wherein: and the cambered surface at the bottom is provided with air holes, and the diameters of the air holes are 5-10 mm.

10. A fruit packing box, which adopts a fruit tray of any one of claims 1 to 8, and is characterized in that: the fruit tray and the corrugated paper are sequentially stacked into the box body.

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