CN114180367B

CN114180367B - Warehouse logistics unloading platform

Info

Publication number: CN114180367B
Application number: CN202210019510.8A
Authority: CN
Inventors: 柴进
Original assignee: Xingsheng Community Network Service Co ltd
Current assignee: Xingsheng Community Network Service Co ltd
Priority date: 2022-01-10
Filing date: 2022-01-10
Publication date: 2024-05-03
Anticipated expiration: 2042-01-10
Also published as: CN114180367A

Abstract

The invention discloses a warehouse logistics unloading platform which comprises a platform body, wherein an inner concave cavity is formed in the front of the platform body, and an unloading assembly is formed in the inner concave cavity; the discharging assembly takes a steel structure bracket as a supporting body, and a sliding seat with a panel is formed on the steel structure bracket; the inner side of the sliding seat is hinged and fixed, while the outer side frame is arranged on the steel structure bracket and can keep a stable inclined angle with the ground through the lifting seat; the sliding seat is provided with an extension plate body, the extension plate body can slide along the sliding seat and is fixed at a specific position, the outer edge of the extension plate body is provided with an outer protection frame, and the outer protection frame can overturn and can extend the plate body and the surface of the panel to reciprocate. The warehouse logistics unloading platform has the advantages of stable structure, good integrity and convenient operation, and can be suitable for most trucks in the market to carry out cargo loading and unloading operations.

Description

Warehouse logistics unloading platform

Technical Field

The invention relates to the technology in the storage field, in particular to a storage logistics unloading platform constructed by a steel structure.

Background

At present, various enterprises in China rapidly develop and logistics industry rapidly develop, more and more enterprises start to build storage by themselves, the logistics scale is continuously enlarged, a storage system is well developed as an important link of modern logistics industry, and the logistics storage system further develops towards integration.

For convenience in storage and transportation, a common warehouse is usually provided with a discharging platform at a position corresponding to a warehouse door, and the discharging platform is usually higher than the ground, so that a connecting bridge frame matched with a freight car warehouse is conveniently erected on the plane of the discharging platform. At present, the type of unloading platform is mainly built by cement, has a simple structure, cannot be adjusted in height at all when being suitable for freight cars with different heights, has poor adaptability, has no protective measures, has poor safety, and is easy to cause the condition that personnel and goods fall down in the unloading process; in addition, the platform needs to be provided with a connecting bridge frame independently to adapt to the lap joint requirement, so that the use is inconvenient.

Disclosure of Invention

The technical problem solved by the invention is to provide a warehouse logistics unloading platform which can be used for solving the defects in the background technology.

The technical problems solved by the invention are realized by adopting the following technical scheme:

The storage logistics unloading platform comprises a platform body, wherein the platform body is a brick mixing masonry body and is formed at the front part of a door of a warehouse, an inner concave cavity is formed in the front surface of the platform body, and an unloading assembly is formed in the inner concave cavity;

The unloading assembly comprises a steel structure bracket matched with the inner concave cavity as a supporting body, a sliding seat is formed on the steel structure bracket, and a panel which is flush with the platform body is fixedly connected to the upper surface of the sliding seat; the sliding seat is hinged on the inner side of the steel structure bracket or the platform body through a hinged support, and the outer side of the sliding seat is arranged on the steel structure bracket; meanwhile, lifting seats are arranged on two sides of the steel structure support, the lifting seats are propped against the sliding seat, and a stable inclined angle between the sliding seat and the ground as well as between the panel and the ground can be kept through the lifting of the lifting seats and the cooperation of the hinged support;

The sliding seat is provided with a first guide groove which is arranged oppositely, an extension plate body is arranged in the position of the first guide groove, two sides of the extension plate body are clamped in the first guide groove through a first sliding block, and the extension plate body can slide along the lead of the first guide groove through the first sliding block and fix the position of a specific position on the lead;

the outer edge of the extension plate body is provided with an outer protection frame, the outer protection frame is a turnover support, is assembled on the second sliding block through a hinge, can turn over through the hinge, and is fixed in position in a non-turnover state and in a turnover state, the extension plate body and the panel are provided with second guide grooves connected end to end, and the second sliding block is embedded in the second guide grooves and can reciprocate along the leads of the second guide grooves.

As a further limitation, the inner cavity is a rectangular inner cavity body, the width of the rectangular inner cavity body is 2.0-3.0 m, the depth is 1.5-3.5 m, and the height is 1.4-2.0 m.

As a further limitation, the steel structure support is a steel structure truss, the platform body is formed with an embedded assembly block at an assembly position corresponding to the steel structure truss, and the bottom of the steel structure truss is assembled and fixed with the embedded assembly block through an assembly bolt.

As a further limitation, the two side walls and the inner side wall of the rectangular inner concave cavity are provided with reinforcing ribs as side wall reinforcing structures.

As a further definition, the panel and the slide are connected and fixed by countersunk bolts.

By way of further definition, the elongated plate body and the face plate have a continuous transition surface therebetween.

As a further limitation, the outer protective frame is of a detachable structure, the hinge on the outer protective frame, which is assembled and connected with the second sliding block, is a detachable hinge, and the outer protective frame can be detached from the extension plate body by detaching the hinge.

As a further limitation, the stable inclined angle maintained between the slide and the panel and the ground is-5-15 ° to facilitate cargo handling.

As a further limitation, the extension plate body is fixed in position by a bolt when fixing a specific position on the lead of the first guide groove on the slide seat.

By way of further limitation, the extension plate body has a gasket formed on an outer lower surface thereof.

As a further limitation, the outer cage is turned and locked by a turning pin in a non-turned state and in a turned state when the position is switched.

The beneficial effects are that: the storage logistics unloading platform integrates the unloading platform, the connecting bridge and the feeding car, all the components of the storage logistics unloading platform can be manufactured in factories, have good interchangeability, are assembled on site, have good connection stability between all the formed components, and have good structural strength and bearing performance due to uniform stress; the warehouse logistics unloading platform has the advantages of good use performance, convenient use and operability, and good suitability for freight wagon freight houses, and can be used in freight wagon freight houses with different model sizes.

Drawings

FIG. 1 is a schematic diagram of a preferred embodiment of the present invention.

Fig. 2 is an enlarged schematic view of a detail of the slide of fig. 1.

Fig. 3 is an enlarged schematic view of a detail of the outer cage of fig. 1.

Fig. 4 is a top view showing the structure of the extension board body according to the preferred embodiment of the present invention.

Wherein: 1. warehouse space; 2. warehouse wall panels; 3. a bin gate; 4. a platform body; 5. a hinged support; 6. a panel; 7. a slide; 8. a first guide groove; 9. limiting end blocks; 10. a first slider; 11. extending the plate body; 12. an outer protective frame; 13. a hinge; 14. a gasket; 15. embedding the assembly blocks; 16. a buckling frame; 17. a steel structure bracket; 18. a lifting seat; 19. countersunk head bolts; 20. penetrating and installing a fixing bolt; 21. a pin pull ring; 22. a plug pin; 23. overturning the bolt hole; 24. an outer swivel; 25. an inner rotating shaft; 26. turning over the bolt; 27. a horizontal edge; 28. a vertical side; 29. a second guide groove; 30. and a second slider.

Detailed Description

The invention is further described with reference to the following detailed drawings in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the invention easy to understand.

It should be noted that, if a directional indication (such as up, down, left, right, front, and rear … …) is included in the embodiment of the present invention, the directional indication is merely used to explain a relative positional relationship, a movement condition, and the like between the components in a specific posture (shown in the drawings), and if the specific posture is changed, the directional indication is correspondingly changed.

In the following examples, it will be understood by those skilled in the art that all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this application belongs unless defined otherwise.

Referring to fig. 1 to 4, in the preferred embodiment of a warehouse logistics unloading platform, the warehouse logistics unloading platform is disposed at the outer side of a warehouse space 1 and is used for exchanging materials in the warehouse space 1 with a truck warehouse for external logistics.

The main body of the warehouse logistics unloading platform is a platform body 4, the platform body 4 is of a brick-concrete masonry body structure with a height, the brick-concrete masonry body is built on the outer side of a warehouse wallboard 2 and positioned in front of a bin gate 3, and an inner concave cavity corresponding to the bin gate 3 is formed in the platform body 4. In this embodiment, the inner cavity is a rectangular inner cavity body, the width of the rectangular inner cavity body is 2.5m, the depth is 3.5m, and the height is 1.8m, and the inner cavity corresponds to the size of a freight car warehouse commonly used in warehouse logistics, so that unloading efficiency is ensured under the condition of reducing the adjustment amount of the unloading assembly.

In other embodiments, the size and shape of the concave cavity can be adjusted according to the size of the freight car warehouse which is actually used; in addition, if the load to be unloaded is heavy (such as equipment, cement, etc.), it is also necessary to consider that the reinforcing ribs are formed on the side walls on both sides and on the side walls on the inner side of the cavity, so as to improve the physical properties of the whole platform body 4.

The unloading assembly is arranged in the concave cavity and is a prefabricated structural member, and the unloading assembly can be assembled on the warehouse site after being prefabricated according to actual demands in factories so as to reduce the empty time of the warehouse. The discharge assembly comprises a steel structural support 17 matching the size of the inner cavity, the steel structural support 17 being a support, in this embodiment a steel structural truss with better structural stability. In order to prevent the steel structure bracket 17 from shifting during use, in this embodiment, a fixed assembly component matched with the steel structure bracket 17 is further provided, the fixed assembly component comprises an embedded assembly block 15 and a buckling frame 16, the embedded assembly block 15 is preformed below the ground of the platform body 4 at the position of the inner concave cavity, the embedded assembly block 15 has a part higher than the ground, the buckling frame 16 has a lower surface matched with the part higher than the ground of the embedded assembly block 15, so that the buckling frame 16 can be directly buckled on the surface of the embedded assembly block 15, the bottom of the steel structure truss is fixed with the buckling frame 16 through an assembly bolt, and the buckling frame 16 and the embedded assembly block 15 are connected and assembled through the first through three assembly bolts.

The upper part of the steel structure bracket 17 is provided with a sliding seat 7, and the sliding seat 7 is a frame bracket structure with the size matched with that of the steel structure bracket 17; the slide 7 is hinged to the hinge support 5 on the inner side, the hinge support 5 is fixed to the inner side wall of the platform body 4, and in addition, first guide grooves 8 are formed on the frame structure of the slide 7 along the depth direction of the inner concave cavity, the first guide grooves 8 comprise two, and the two first guide grooves 8 are oppositely arranged. In addition, two sides of the inner concave cavity corresponding to the steel structure brackets 17 are respectively provided with a lifting seat 18, the lifting seat 18 is a hydraulic lifting seat, the top surface of the lifting seat 18 is fixedly connected with the frame body of the sliding seat 7 through a universal joint, and a stable included angle between the sliding seat 7 and the ground can be kept through lifting of the lifting seat 18 and the hinge support 5.

Referring to the pattern of fig. 2, a panel 6 is connected to the upper portion of the slide 7 by a plurality of countersunk bolts 19, the panel 6 is an integrally formed steel plate, the size of the panel 6 is identical to the plane projection size of the platform body 4 so as to cover the plane upper portion of the platform body 4, and a plurality of countersunk bolt holes are formed in the panel 6. The slide seat 7 is provided with two groups of first slide blocks 10 in the first guide groove 8, and the extension plate body 11 is fixed on the two groups of first slide blocks 10 through penetrating fixing bolts 20, so that the extension plate body 11 can slide along the lead of the first guide groove 8 under the action of the first slide blocks 10, namely, the extension plate body 11 can move left or right integrally on the basis of the model of fig. 1.

When the extension plate 11 moves leftwards, the whole extension plate 11 is hidden under the panel 6 until the extension plate 11 is completely hidden, after the extension plate 11 is completely hidden under the panel 6, a countersunk bolt hole on the surface of the panel 6 is overlapped with the corresponding holes on the sliding seat 7 and the first sliding block 10, at the moment, the extension plate 11 is completely hidden by inserting the bolts 22 into the countersunk bolt hole according to the pattern shown in fig. 2, and after the extension plate 11 is hidden, the vertical edge 28 on the outer protection frame 12 arranged at the end part of the extension plate 11 can be used as a guardrail to prevent materials or personnel from turning outwards and falling from the outer edge of the platform body 4; when the extension plate 11 moves to the right wholly, the extension plate 11 can be used as a connecting bridge for the lap joint platform body 4 and the freight house of a truck, the left end part of the extension plate 11 is also provided with a limiting end block 9, the bottom of the limiting end block 9 is provided with an arc surface, the tail end of the lead of the first guide groove 8 is provided with a dislocation step clamping groove matched with the arc surface at the bottom of the limiting end block 9, after the extension plate 11 is stretched to the corresponding position of the right end, the limiting end block 9 is clamped into the dislocation step clamping groove, at the moment, the extension plate 11 moves wholly upwards to form a butt joint splicing surface with the panel 6, and a continuous transition surface is arranged at the interface position of the extension plate 11 and the panel 6, at the moment, a countersunk pin hole on the surface of the panel 6 can be overlapped with corresponding holes on the sliding seat 7 and the first sliding block 10, and a bolt 22 can be inserted into the countersunk pin hole position to finish the fixing of the extension plate 11 in the extension length position in the same manner as described above. After the extension board 11 is completely pulled out, the extension board 11 and the panel 6 are formed with a second guide groove 29 connected end to end on the surface as shown in fig. 4, and the second guide groove 29 may be any guide groove structure visible in the market, such as a dovetail groove, an i-shaped groove, a T-shaped groove, etc., which can perform a guiding function, and in this embodiment, the second guide groove 29 is a dovetail groove.

In order to prevent the upper portion of the latch 22 from protruding out of the surface of the panel 6, in this embodiment, the latch 22 has a latch tab 21 similar to a pop-up structure, and the latch tab 21 is laid flat to be hidden under the plane of the countersunk latch hole after the latch 22 is inserted, and when the latch 22 needs to be pulled out, the latch tab 21 is pulled up and the latch 22 is pulled out.

In this embodiment, the outer side of the extension board 11 is provided with an outer protection frame 12, the width of the outer protection frame 12 is consistent with the width of the extension board 11, the outer protection frame 12 is an L-shaped right-angle bracket structure, the outer protection frame 12 is provided with a hinge 13 at a right-angle position, the hinge 13 includes an outer rotating sleeve 24 and an inner rotating shaft 25, the outer rotating sleeve 24 and the inner rotating shaft 25 can rotate relative to each other, the outer protection frame 12 is fixed with the inner rotating shaft 25, and the outer rotating sleeve 24 is fixed with the extension board 11 at the outer edge through a second sliding block 30 so that the outer protection frame 12 can rotate relative to the second sliding block 30. In addition, in this embodiment, two overturning bolt holes 23 are provided on the inner rotating shaft 25, the two overturning bolt holes 23 are staggered by 90 ° on the round surface of the inner rotating shaft 25 and are provided according to the pattern shown in fig. 3, and insertion holes matched with the overturning bolt holes 23 are provided on the outer rotating sleeve 24, so that the position of the outer protecting frame 12 after overturning can be fixed by matching the insertion holes on the outer rotating sleeve 24 with the corresponding overturning bolt holes 23 and then inserting the overturning bolts 26.

And a guide wheel is arranged at the lower part of the second slide block 30, is arranged on the dovetail groove surface of the second guide groove 29, and is matched with the second guide groove 29, so that the second slide block 30 can reciprocate along the lead of the second guide groove 29.

In the unused state of the embodiment, the extension plate 11 is converged in the slide 7, and the vertical edge 28 of the outer protection frame 12 is kept vertical and is attached to the outer edge of the platform body 4 to be used as a guardrail.

When a truck enters a loading and unloading area, the embodiment is in a use state, the lifting seat 18 is used for controlling and adjusting the included angle between the sliding seat 7 and the ground, so that the extension plate body 11 can be correspondingly arranged in a cargo compartment of the truck when being extended, then the extension plate body 11 is ejected by a motor traction or manual ejection mode, the extension plate body 11 is fixed by the bolt 22 after being ejected in place, so that the panel 6 and the extension plate body 11 form a connected plane, at the moment, the outer edge of the extension plate body 11 is arranged in the cargo compartment of the truck, the formed liner 14 on the lower surface of the outer side of the extension plate body is filled on the inner side surface of the cargo compartment of the truck, the fine-tuning lifting seat 18 enables the panel 6 and the extension plate body 11 to form a connected plane to be stable, then the overturning bolt 26 is loosened, the outer protecting frame 12 is overturned by 90 degrees on the basis of the state as shown in fig. 3, then the overturning bolt 26 is inserted, at the moment, the vertical edge 28 in the outer protecting frame 12 is parallel to the ground, the horizontal edge 27 in the outer protecting frame 12 is kept vertical, at the moment, the outer protecting frame 12 is arranged towards the cargo compartment of the outer side of the truck, the outer side of the truck is changed into a stable state, and the cargo compartment is transferred between the second guide groove and the guide groove 29 on the second guide rail 4, namely the truck can be smoothly moved on the cargo compartment 4.

If the turnover bolt 26 is not inserted after the turnover bolt 26 is loosened, the vertical edge 28 and the horizontal edge 27 in the outer protective frame 12 can form a bracket body with a V-shaped section, so that the bracket body can be used for fixing the position of the coiled material to prevent rolling, and then the coiled material can be stably transported between a freight compartment of a truck and the platform body 4 by moving the second sliding block 30 on the lead of the second guide groove 29.

In addition, in the present embodiment, the second slider 30 outside the hinge 13 is provided with an end face fastening bolt, and by loosening the end face fastening bolt, the second slider 30 can be removed, so that the outer sleeve 24 and the inner shaft 25 are separated, and the outer frame 12 is integrally removed, and at this time, the panel 6 and the extension plate 11 can be used as a plane plate to transfer a large material.

In this embodiment, in order to facilitate cargo handling, the adjustable range of the stable inclination angle between the flat plate body formed by the slide seat 7 and the panel 6 after flattening and the ground is controlled to be-5-15 °.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The storage logistics unloading platform is characterized by comprising a platform body, wherein the platform body is a brick-concrete masonry body and is formed at the front part of a door of a warehouse, an inner concave cavity is formed in the front surface of the platform body, and an unloading assembly is formed in the inner concave cavity;

the outer edge of the extension plate body is provided with an outer protection frame, the outer protection frame is a turnover support, is assembled on the second sliding block through a hinge, can be turned through the hinge, and is fixed in position in a non-turnover state and in a turnover state, and the outer protection frame is turned and locked through a turnover bolt when being switched in position in the non-turnover state and in the turnover state; the extension plate body and the panel are provided with second guide grooves which are connected end to end, and the second sliding block is embedded in the second guide grooves and can reciprocate along the leads of the second guide grooves;

the different position states of the outer protective frame have three application forms:

1. when the discharging platform is not in use, the extension plate body is converged in the sliding seat, and the vertical edge of the outer protecting frame is kept vertical and is attached to the outer edge of the platform body to use the outer protecting frame as a guardrail;

2. When the unloading platform is in a use state of unloading, the outer protective frame in an unused state is turned by 90 degrees clockwise, then a turning bolt is inserted, at the moment, the vertical edge in the outer protective frame is parallel to the ground, the horizontal edge in the outer protective frame is kept vertical, the outer protective frame is opened towards the goods warehouse side of a goods van, the outer protective frame becomes a track transfer vehicle in a flat plate state in the state, after loading is completed, the second sliding block moves on the lead of the second guide groove, and then the transfer of boxed goods between the goods warehouse of the goods van and the platform body can be carried out;

3. When the unloading platform is in a use state of unloading, the vertical side and the horizontal side in the outer protection frame can form a V-shaped support body through loosening the overturning bolt, so that the outer protection frame in the state is changed into a rail transfer vehicle with the V-shaped support body, the V-shaped support body can be used for placing tubular rod-shaped goods, after loading is completed, the tubular rod-shaped goods can be transferred between a freight car warehouse and the platform body through moving on the lead of the second guide groove through the second sliding block.

2. The warehouse logistics unloading platform of claim 1, wherein the inner cavity is a rectangular inner cavity body, the width of the rectangular inner cavity body is 2.0-3.0 m, the depth is 1.5-3.5 m, and the height is 1.4-2.0 m.

3. The warehouse logistics unloading platform of claim 1, wherein the steel structure support is a steel structure truss, the platform body is formed with embedded assembly blocks at assembly positions corresponding to the steel structure truss, and the bottoms of the steel structure trusses are assembled and fixed with the embedded assembly blocks through assembly bolts.

4. The warehouse logistics unloading platform of claim 1, wherein the two side walls and the inner side wall of the inner cavity are formed with reinforcing ribs as side wall reinforcing structures.

5. The warehouse logistics unloading platform of claim 1, wherein the panel is fixedly connected to the slide by countersunk bolts.

6. The warehouse logistics discharge platform of claim 1, wherein the elongated plate and the deck have a continuous transition surface therebetween.

7. The warehouse logistics unloading platform of claim 1, wherein the outer guard is a detachable structure, the hinge on the outer guard assembled and connected with the second slide block is a detachable hinge, and the outer guard can be detached from the extension board body by detaching the hinge.

8. The warehouse logistics unloading platform of claim 1, wherein the stable inclined angle maintained between the slide and the panel and the ground is-5-15 °.

9. The warehouse logistics unloading platform of claim 1, wherein the extension plate is fixed in position by a pin when the extension plate is fixed in a specific position on the lead of the first guide slot on the slide.