RU222088U1 - POLYMER TRAY - Google Patents

Abstract

The utility model refers to a rigid container made of polymer material and is intended for storing and moving prefabricated polymer containers, as well as products for industrial, technical and household purposes by placing and fixing them on the outer horizontal surface of the product. The technical task of this utility model is to create a pallet structure with a lesser degree of deformation of the supports during torsion due to loads and a tighter fit to the supporting surface. The technical result of the claimed utility model is the achievement of the specified technical task. The technical result is achieved due to the fact that the pallet is made of polypropylene or polyethylene. The support legs are made with a large number of shaped stiffening ribs (four along the long side of the support, two along the short side), and also have reinforcing edging on the ribs. These features make it possible to ensure a lower degree of deformation when using the product, which means a tighter fit of the pallet to the supporting surface and high stability of the structure. The utility model is implemented as follows: the pallet is installed on a hard, stable surface, and cargo is loaded on top of the pallet using any known method. To ensure that the cargo does not slide off the surface of the pallet during transportation, the design provides side projections along the entire perimeter; no other fastening of the cargo to the pallet is required. For compact placement, storage of cargo and saving useful space, pallets can be stacked in the required number of tiers, while the protrusions on the inner surfaces of the supports ensure tight fixation of each tier, and the supports, reinforced with shaped stiffening ribs, prevent breakage of the supports as a result of impact impacts from different sides. Moreover, due to the fact that the supporting legs of the structure are made of polymer material (polypropylene or polyethylene) and have internal and external reinforcement, even when using one tier of the pallet, the structure fits more tightly to the floor in comparison with analogues, which ensures higher stability of the pallet and a lower degree of deformation under the influence of the weight of the load. The design of the supports allows you to place other hollow supports of a similar product in them, fix them and nest them in each other when palletizing, which makes it possible to increase the number of palletized pallets at a given height. Thus, the claimed technical solution ensures the achievement of the stated technical result.

Description

Technical field

The utility model refers to a rigid container made of polymer material and is intended for storing and moving prefabricated polymer containers, as well as products for industrial, technical and household purposes, by placing and fixing them on the outer horizontal surface of the product.

Prior art.

From the prior art, the design of a utility model is known according to application No. 2022130712, which provides for achieving such a technical result as improving the performance properties of the pallet by increasing the stability and rigidity of the structure. The technical result is achieved due to the fact that the solution provides for a special design of the pallet supports (reinforced with shaped stiffeners, have protrusions on the inner surface).

The designs of pallets used for transporting and storing goods are also known from the prior art (see, for example: https://iplast.com/catalog/plastikovye-pallety/plastikovye-poddony-1200x800/02-102-legkiy-plastikovyy- poddon-1200kh800kh140/, publication date – 06/28/2022; https://p-61.ru/legkiy-perforirovannyy-plastikovyy-poddon-na-nozhkakh-1200kh800kh140/, publication date – 06/25/2022; https://www. balttara.ru/katalog/plastikovye-pallety/polimernyy-poddon-na-nozhkah-1200x800, publication date – 10/31/2020, http://nikcity.ru:80/catalog/palet/Q102, publication date – 05/03/2017 and etc.), however, these solutions are not characterized by the presence of shaped stiffeners at the supports, which entails less stability of the structure compared to the stated solution. In addition, there are no protrusions on the inside of the supports for stacking pallets.

Disclosure of the essence of the utility model

The technical task of this utility model is to create a pallet structure with a lesser degree of deformation of the supports during torsion due to loads and a tighter fit to the supporting surface.

The technical result of the claimed utility model is the achievement of the specified technical task.

The technical result is achieved due to the fact that the pallet is made of polypropylene or polyethylene. The support legs are made with a large number of shaped stiffening ribs (four along the long side of the support, two along the short side), and also have reinforcing edging on the ribs. These features make it possible to ensure a lower degree of deformation when using the product, which means a tighter fit of the pallet to the supporting surface and high stability of the structure.

Brief description of drawings

in fig. 1 shows a perspective view of the pallet from above;

in fig. 2 - perspective view of the pallet from below;

in fig. 3 – bottom view of the pallet;

in fig. 4 – side view of the pallet;

in fig. 5 – front view of the pallet;

in fig. 6 is a perspective view from above of the corner support of the pallet.

The pallet (Fig. 1-5) is a one-piece molded product made of polymer material (polypropylene or polyethylene). The pallet consists of a solid bearing base (1) of a rectangular shape, which is in direct contact with the load placed on the pallet, and hollow supports (2)-(13) tapering downwards with drainage holes (14). The base has a complex cellular structure formed by the intersection of longitudinal (15) and transverse (16) stiffeners to increase the structural strength and rigidity of the pallet (Fig. 2). The supports are arranged in three spaced longitudinal rows in such a way that the base (1) protrudes beyond the limits of the supports. Corner supports (2), (4), (11), (13) are located next to the corners of the base. The front (3) and rear (12) intermediate supports are located on the front and rear edges on the same transverse line between the corner supports (2), (4) and, respectively, (11), (13), and are made together with the corner supports ( 2), (4), (11), (13) are longitudinally extended, thereby ensuring the stability of the pallet when moving along a conveyor with rollers, so that the elongated supports are always in contact with more than one roller. The lateral intermediate supports (5), (6) and (9), (10) are located in pairs on the sides on the same longitudinal line between the corresponding pair of corner supports and are interconnected by hollow jumpers (17), (18), increasing the rigidity and stability of the entire designs. In the middle of the pallet, in the preferred embodiment of the design, there is a pair of central shortened supports (7), (8), located on the same longitudinal line between the front (3) and rear (12) intermediate supports and on the same transverse line between the paired side supports (5), (6) and (9), (10). This paired design of the central supports increases the stability of the pallet on a flat surface and ensures operational reliability under increased external loads. In this case, the specified mutual arrangement of the supports provides two flat surfaces between the transverse rows of supports for accommodating two teeth of a forklift. The bottom of the supports are reinforced (Fig. 6) with shaped stiffeners (19), which further increases the rigidity of the structure, as well as continuous rounded stiffeners (22) around the perimeter of each support to ensure impact resistance of the pallet and a reinforcing edging on the ribs (23). In this case, the internal surfaces of the supports are made with protrusions (20), which serve as stops when laying on top of other pallets in such a way that the upper pallet rests with stiffening ribs (19) against the protrusions (20) of the lower pallet, allowing them to be nested into each other when palletizing, which gives the ability to increase the number of palletized pallets at a given height, and the lower part of the supports, in contact with the floor, is made thicker to give it significant strength, while the cellular platform of the pallet is designed in such a way that container legs can be placed and fixed into it.

Implementation of a utility model

1. A pallet having a rectangular load-bearing base in the form of a cellular platform with side projections and hollow supports with drainage holes having internal and external reinforcement, made of polymer material, arranged in three spaced longitudinal rows in such a way that the load-bearing base protrudes beyond the limits of the supports, in this case, the corner supports, as well as the front and rear intermediate supports are made longitudinally elongated, the side intermediate supports are made in pairs and located on the same longitudinal line between the corner supports, and each mentioned pair is connected to each other by a hollow jumper, and in the central part of the pallet there is a pair of longitudinally shortened supports located on the same longitudinal line between the front and rear intermediate supports and on the same transverse line with the side intermediate supports, while in the lower part of the structure the supports are reinforced with figured stiffeners, four on the long side and two on the short side of each support, as well as Continuous rounded stiffening ribs were added around the perimeter of each support to ensure impact resistance of the pallet and a reinforcing edging on the ribs, and the inner part of the surface of the supports is made with an external protrusion corresponding to the shaped stiffening ribs to give the structure greater strength, while the pallet supports have the shape and depth of insertion supports, allowing them to be nested into each other during palletizing, which makes it possible to increase the number of palletized pallets at a given height, and the lower part of the supports, in contact with the floor, is made thicker to give it significant strength, while the cellular platform of the pallet is designed in such a way that it It is possible to place and fix container legs.

2. The pallet according to claim 1, characterized in that it is made of polypropylene.

3. The pallet according to claim 1, characterized in that it is made of polyethylene.

The utility model is implemented as follows: the pallet is installed on a hard, stable surface, and cargo is loaded on top of the pallet using any known method.

To ensure that the cargo does not slide off the surface of the pallet during transportation, the design provides side projections along the entire perimeter; no other fastening of the cargo to the pallet is required.

For compact placement, storage of cargo and saving useful space, pallets can be stacked in the required number of tiers, while the protrusions on the inner surfaces of the supports ensure tight fixation of each tier, and the supports, reinforced with shaped stiffening ribs, prevent breakage of the supports as a result of impact impacts from different sides.

Moreover, due to the fact that the supporting legs of the structure are made of polymer material (polypropylene or polyethylene) and have internal and external reinforcement, even when using one tier of the pallet, the structure fits more tightly to the floor in comparison with analogues, which ensures higher stability of the pallet and a lower degree of deformation under the influence of the weight of the load. The design of the supports allows you to place other hollow supports of a similar product in them, fix them and nest them in each other when palletizing, which makes it possible to increase the number of palletized pallets at a given height.

Thus, the claimed technical solution ensures the achievement of the stated technical result.

Claims (3)

1. A pallet having a rectangular load-bearing base in the form of a cellular platform with side projections and hollow supports with drainage holes having internal and external reinforcement, made of polymer material, arranged in three spaced longitudinal rows in such a way that the load-bearing base protrudes beyond the limits of the supports, in this case, the corner supports, as well as the front and rear intermediate supports, are made longitudinally elongated, the side intermediate supports are made in pairs and located on the same longitudinal line between the corner supports, and each mentioned pair is connected to each other by a hollow jumper, and in the central part of the pallet there is a pair of longitudinally shortened supports located on the same longitudinal line between the front and rear intermediate supports and on the same transverse line with the lateral intermediate supports, while in the lower part of the structure the supports are reinforced with figured stiffeners, four on the long side and two on the short side of each support, as well as Continuous rounded stiffening ribs have been added around the perimeter of each support to ensure impact resistance of the pallet and a reinforcing edging on the ribs, and the inner part of the surface of the supports is made with an external protrusion corresponding to the shaped stiffening ribs to give the structure greater strength, while the pallet supports have the shape and depth of insertion supports, allowing them to be nested into each other when palletizing, which makes it possible to increase the number of palletized pallets at a given height, and the lower part of the supports, in contact with the floor, is made thicker to give it significant strength, while the cellular platform of the pallet is designed in such a way that it It is possible to place and fix container legs. 2. The pallet according to claim 1, characterized in that it is made of polypropylene. 3. The pallet according to claim 1, characterized in that it is made of polyethylene.