CN222224783U - Stud wear-resisting plate packing structure - Google Patents

Abstract

The utility model relates to the technical field of bolt wear-resistant plate packaging, and discloses a bolt wear-resistant plate packaging structure, including an external packaging frame and a packaging structure arranged in the packaging frame. Multiple layers of bolt wear-resistant plate structures are stacked in sequence in the external packaging frame, and the upper and lower bolt wear-resistant plate structures are placed upside down to form a packaging layer. The packaging layers are stacked in sequence to form a packaging structure. The packaging frame includes a bottom packaging bracket bottom frame and a top clamping channel steel. The bottom packaging bracket frame and the clamping channel steel are connected by side screws, and the top of the screw is tightened by a locking nut. The device packaging scheme is simple, and the overall packaging frame is very solid and strong, which can realize small package packaging and facilitate on-site unloading and transportation. The bolt wear-resistant plate structure is packed upside down on the upper and lower sides, and the bolt head is covered with a customized plastic sleeve, which can prevent the components from moving during the bumpy transportation process, resulting in loose packages and bolt damage, and also protect the component surface from being damaged by the bolts.

Description

Stud wear-resisting plate packing structure

Technical Field

The utility model relates to the field of peg wear-resisting plate packing, in particular to a peg wear-resisting plate packing structure.

Background

With the rapid development of the economy in China, a plurality of export services are expanded for domestic steel structure enterprises, overseas projects are increased continuously, packaging and transportation of steel structure products form an indispensable ring in perfect delivery of projects, and design of packaging brackets is particularly important because of various uncertain factors and challenges in the overseas shipping process. Taking a mine wear-resisting plate project of Chilean as an example, the hopper structural design adopts the lining wear-resisting plate design, and the wear-resisting plate is covered with bolts, because the structural form is special, if the bolts fall off carelessly due to collision, the structure can lose the design and use functions, and meanwhile, the bolt wear-resisting plate structure is special, and abnormal structure is difficult to stack directly.

The patent application of bulletin number CN201614087U discloses a packaging structure of copper-clad plate, and packaging structure includes a plurality of copper-clad plate that are packed, is equipped with the backing plate below the copper-clad plate that is packed, is equipped with the apron above the copper-clad plate that is packed, and the surface parcel of copper-clad plate that is packed has plastic shrink winding film dampproof course, has a plurality of plastic steel packing belts in the copper-clad plate outward appearance that is packed.

This prior art is only suitable for flat plate packing and is not suitable for the packing of wear plates covered with studs.

For this reason, a new technical solution is needed to solve the above technical problems.

Disclosure of utility model

The utility model aims to provide a stud wear-resisting plate packing structure, which has a simple packing scheme, can ensure that studs are stable, and meanwhile, the whole packing frame is also firm and firm, small-package type packing is convenient, and is convenient for site unloading and transportation and convenient for factories and site use.

The technical scheme adopted by the utility model is as follows:

The utility model provides a peg antifriction plate packaging structure, includes outside packing frame and locates the packing structure in the packing frame, pile up multilayer peg antifriction plate structure in proper order in the outside packing frame, two upper and lower peg antifriction plate structures back-off are placed, constitute and beat the covering, and the packing layer stacks gradually and constitutes the packing structure, and the packing frame includes the packing bracket bottom frame of bottom, the compression channel steel at top, and packing bracket bottom frame passes through the side screw connection with the compression channel steel, and the screw rod top is screwed up through lock nut.

Through adopting above-mentioned structure, packaging scheme is succinct, and whole packing frame is very firm, and the realization packet formula is packed, makes things convenient for on-the-spot unloading and transportation.

Preferably, one surface of the peg wear-resistant plate structure is provided with pegs, one surface of each peg of the peg wear-resistant plate structure is oppositely arranged, and before each peg is arranged, a plastic sleeve is arranged at the head part of each peg.

By adopting the structure, the phenomenon that the components are moved in the process of jolting in transportation to cause the breakage of the unpacking and the pegs is avoided, and the surface of the components is also protected from being damaged by the pegs.

Preferably, in the cladding layer, two layers of bolt wear-resisting plate structures are transversely staggered.

Through adopting above-mentioned structure, make the peg staggered arrangement, can ensure that the peg is firm.

Preferably, the edges of the connected pin wear-resistant plate structures are arranged in a staggered manner between the stacked packing layers.

Through adopting above-mentioned structure, make the structure compacter be convenient for packing operation.

Preferably, a rubber sheet is arranged between the connected peg wear-resisting plate structures, a rubber sheet is arranged between the top peg wear-resisting plate and the compression channel steel, and a rubber sheet is arranged between the bottom peg wear-resisting plate and the bottom frame of the packing bracket.

Through adopting above-mentioned structure, avoid skidding between the structure, convenient transportation.

Preferably, the two sides of the bottom frame of the packing bracket extend upwards to be provided with screws, the screws penetrate through the end parts of the compression channel steel above, the screws are fixed through locking nuts, and the outside of the packing frame formed by the bottom frame of the packing bracket and the compression channel steel is bound by a binding belt cross.

Through adopting above-mentioned structure, whole packing frame is stable firm, satisfies project overseas shipment packing requirement, and convenient building site and workshop loading and unloading car, the practicality is higher.

Preferably, the bottom of the bottom frame of the baling carriage is provided with a bottom carriage.

Through adopting above-mentioned structure, the bracket bottom designs into unsettled state, makes things convenient for fork truck to transport.

Compared with the prior art, the utility model has the following beneficial effects:

1. The device has a simple packaging scheme, the whole packaging frame is firm, the small-package type packaging is realized, and the on-site unloading and transferring are convenient.

2. According to the utility model, the pin wear-resisting plate structure is packaged in an up-down reverse buckling manner, and the pin head sleeve is provided with the plastic sleeve, so that the phenomena of unpacking and pin damage caused by the movement of the components in the process of transporting jolt can be avoided, and the surface of the components is protected from being damaged by the pins.

3. The packing structure of the device disclosed by the utility model uses rubber, and is bound by the binding belt on the external packing frame, so that the whole packing frame is stable and firm, meets the requirements of overseas shipment and packing of projects, is convenient for a construction site and a workshop loading and unloading vehicle, and has higher practicability.

Drawings

FIG. 1 is a front view of the structure of the present utility model;

FIG. 2 is a left side view of the structure of the present utility model;

FIG. 3 is a top view of the structure of the present utility model;

Fig. 4 is a schematic view of the structure of the stud wear plate of the present utility model.

The packing bracket comprises a packing bracket bottom frame, a screw rod, a pin wear-resisting plate structure, a pressing channel steel, a locking nut, a binding belt, a customized plastic sleeve, a rubber skin, a pin, a bottom bracket and a bolt.

Detailed Description

As shown in figures 1-4 of the drawings,

The utility model provides a peg antifriction plate packaging structure, includes outside packing frame and locates the packing structure in the packing frame, stacks gradually multilayer peg antifriction plate structure 3 in the outside packing frame, and two upper and lower peg antifriction plate structures 3 back-off are placed, constitute and beat the covering, and the packing layer stacks gradually and constitutes the packing structure, and the packing frame includes packing bracket bottom frame 1 of bottom, the compression channel steel 4 at top, packing bracket bottom frame 1 is connected through side screw rod 2 with compression channel steel 4, and screw rod 2 top is screwed up through lock nut 5. The device has simple packaging scheme, the whole packaging frame is firm, the small bag type packaging is realized, and the on-site unloading and transferring are convenient.

One surface of the peg wear-resistant plate structure 3 is provided with pegs 9, one surface of the pegs 9 of the peg wear-resistant plate structure 3 is oppositely arranged, and before each peg 9 is arranged, the head part of the peg 9 is sleeved with a set plastic sleeve 7. The pin wear-resisting plate structure 3 is packaged in an up-down back-off way, and the plastic sleeve is sleeved at the head of the pin 9, so that the phenomenon that the pin is broken due to the fact that the component and the component are moved in the process of jolting during transportation can be avoided, and the surface of the component is protected from being broken by the pin.

In the cladding layer, two layers of bolt wear-resisting plate structures 3 are transversely staggered. The edges of the connected stud wear-resisting plate structures 3 are arranged in a staggered manner between the stacked packing layers. A rubber sheet 8 is arranged between the connected peg wear-resistant plate structures 3, a rubber sheet 8 is arranged between the top peg wear-resistant plate 3 and the compression channel steel 4, and a rubber sheet 8 is arranged between the bottom peg wear-resistant plate 3 and the bottom frame 1 of the packing bracket. The two sides of the bottom frame 1 of the packing bracket extend upwards to be provided with screw rods 2, the screw rods 2 penetrate through the end parts of the compression channel steel 4 above, the screw rods are fixed through locking nuts 5, and the outside of the packing frame formed by the bottom frame 1 of the packing bracket and the compression channel steel 4 is bound by a binding belt 6 in a cross shape. The bottom of the packing tray bottom frame 1 is provided with a bottom tray 10. The rubber sheet 8 is used to the packing structure of device, and with the ligature area 6 "cross" ligature on outside packing frame, whole packing frame is stable firm, satisfies project overseas shipment packing requirement, makes things convenient for building site and workshop loading and unloading car, and the practicality is higher.

When the device is used, firstly, the bottom frame 1 of the packing bracket is processed, the heads of each peg are wrapped by the plastic sleeve 7, the two peg wear plates 3 are in a group, the two peg wear plates are packed in a reverse way, the packing is started, the components and the bottom frame 1 of the packing bracket are separated by the rubber leather 8, the first layer is provided with the first group of wear plate 3 structures, the first layer of rubber leather 8 is padded, the second layer of wear plate structures 3 are stacked in sequence, the general packing is four layers, the rubber leather 8 is padded at the position of the compression channel steel 4 on the four layers, then the screw rod 2 is locked by the nut 5, after the locking is firm, the components are bound in a cross shape by the binding belt 6, and the whole component packing is completed, so that the shipment can be carried out.

The above examples are only illustrative of the preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model, and various modifications and improvements made by those skilled in the art to the technical solution of the present utility model should be included in the scope of protection defined by the claims of the present utility model without departing from the spirit of the design of the present utility model.

Claims (7)

1. The utility model provides a peg antifriction plate packing structure, includes outside packing frame and locates the packing structure in the packing frame, wherein pile up multilayer peg antifriction plate structure in proper order in the outside packing frame, upper and lower two peg antifriction plate structures back-off are placed, constitute and beat the covering, and the packing layer piles up in proper order and constitutes packing structure, and the packing frame includes the packing bracket bottom frame of bottom, the compression channel steel at top, and packing bracket bottom frame passes through the side screw connection with compression channel steel, and the screw rod top is screwed up through lock nut.

2. The structure of claim 1, wherein one side of the structure is a peg, and one side of the structure is opposite to the other side, and the head sleeve of each peg is provided with a plastic sleeve before each peg is placed.

3. The structure for packing the peg wear-resistant plates according to claim 1, wherein two layers of peg wear-resistant plates in the packing layer are transversely staggered.

4. The peg wear plate packing structure of claim 1, wherein: the edges of the connected pin wear-resisting plate structures are arranged in a staggered manner between the stacked packing layers.

5. The structure for packing the peg wear plates according to claim 4, wherein rubber is arranged between the connected peg wear plate structures, rubber is arranged between the top peg wear plate and the compression channel steel, and rubber is arranged between the bottom peg wear plate and the bottom frame of the packing bracket.

6. The structure for packing the peg wear-resistant plates is characterized in that screws are arranged on two sides of a bottom frame of the packing bracket in an upward extending mode, penetrate through the end portions of the compression channel steel above, are fixed through locking nuts, and are bound with a binding belt in a cross mode outside the packing frame formed by the bottom frame of the packing bracket and the compression channel steel.

7. The structure for packing the wear plates of the pegs of claim 1, wherein the bottom of the bottom frame of the packing tray is provided with a bottom tray.