CN219602723U - Quick loading material rack - Google Patents

Abstract

The utility model discloses a quick loading material frame, which comprises the following components: the telescopic support comprises a plurality of right-angle connecting shaft pipes, a plurality of sleeved shaft pipes and a plurality of telescopic shaft rods, wherein the plurality of sleeved shaft pipes and the plurality of telescopic shaft rods are respectively and movably inserted on the right-angle connecting shaft pipes in a crossing manner, an expansion locking structure is arranged on the plurality of right-angle connecting shaft pipes, and an auxiliary support structure is arranged on the plurality of telescopic shaft pipes and the plurality of sleeved shaft pipes; the utility model relates to the technical field of loading material frames, and aims to realize quick expansion and disassembly of a whole device by expanding and contracting a telescopic shaft rod and a sleeved shaft tube through an auxiliary supporting structure, so that the whole device can be quickly disassembled, the finished product forming steel bars are prevented from being deformed and unusable in the transportation or loading process due to extrusion, the upper and lower combination can be freely performed, the delivery requirements of various products are met, the transportation process is stable and reliable, and the impact of the goods on a trailer carriage is reduced.

Description

Quick loading material rack

Technical Field

The utility model relates to the technical field of loading material frames, in particular to a rapid loading material frame.

Background

The existing steel bar deep processing component loading vehicles are packaged according to component types (namely, components with the same or similar shape are bundled and packaged together), and then are lifted and loaded into a trailer by using a crown block. The finished product backlog exists during hoisting, so that the subsequent unloading process is performed, and the mutual backlog between the unpacking process and the components is deformed, so that the finished product backlog cannot be used. Meanwhile, the loading and unloading vehicle has long time and great difficulty, and the proposal is generated for the deep research aiming at the problems.

Disclosure of Invention

In order to achieve the above purpose, the utility model is realized by the following technical scheme: fast loading work or material rest includes: the telescopic support comprises a plurality of right-angle connecting shaft pipes, a plurality of sleeved shaft pipes and a plurality of telescopic shaft rods, wherein the plurality of sleeved shaft pipes and the plurality of telescopic shaft rods are respectively and movably inserted on the right-angle connecting shaft pipes in a crossing manner, an expansion locking structure is arranged on the plurality of right-angle connecting shaft pipes, and an auxiliary support structure is arranged on the plurality of telescopic shaft pipes and the plurality of sleeved shaft pipes;

the auxiliary supporting structure comprises: the device comprises a plurality of sleeved angle shaft tubes, a plurality of circular ring magnet blocks, a plurality of telescopic magnet blocks, a plurality of rotary circular ring blocks, a plurality of convex telescopic blocks, a plurality of locking limiting shafts, a plurality of locking sleeved springs, a plurality of concave angle bearing blocks, a plurality of T-shaped angle threaded rods and a plurality of sleeved threaded pipes;

the utility model provides a set angle central siphon suit respectively in a plurality of telescopic shaft pole and the outside of a plurality of suit central siphon, a plurality of telescopic shaft pole and a plurality of set central siphon have been seted up respectively on the telescopic shaft pole, a plurality of set angle central siphon has been seted up respectively a pair of ring groove, a plurality of rotatory ring piece respectively through the bearing suit in a plurality of on the ring groove, a plurality of ring magnet piece respectively the suit in a plurality of on the rotatory ring piece, a plurality of have been seted up respectively to the inboard of suit angle central siphon a plurality of protruding type telescopic groove, a plurality of protruding type telescopic block respectively movable cartridge in a plurality of protruding type telescopic block is inboard, a plurality of telescopic magnet piece respectively install in a plurality of protruding type telescopic block is last, a plurality of locking limiting shaft respectively movable cartridge in a plurality of protruding type telescopic groove's inboard, and a plurality of locking limiting shaft respectively movable cartridge in a plurality of on the protruding type telescopic block, a plurality of locking spring respectively the suit in a plurality of locking sleeve is in a plurality of on the T-type telescopic shaft pipe is last a plurality of T-shaped angle sleeve respectively, a plurality of T-shaped bearing sleeve is installed in a plurality of T-shaped angle telescopic shaft respectively.

Preferably, the expansion locking structure comprises: the device comprises a plurality of right-angle supporting blocks, a plurality of convex limiting blocks, a plurality of T-shaped telescopic rods and a plurality of limiting sleeve springs;

the right angle supporting shoe is installed respectively in a plurality of right angle connection central siphon, a plurality of right angle connection central siphon and a plurality of set up concave type expansion groove respectively on the central siphon, a plurality of protruding type stopper is installed respectively in a plurality of set central siphon and a plurality of the outside of flexible axostylus axostyle, and a plurality of protruding type stopper activity cartridge respectively in a plurality of the inboard of concave type expansion groove, a plurality of protruding type expansion hole has been seted up respectively on the right angle supporting shoe, a plurality of set central siphon and a plurality of limit locking groove has been seted up respectively on the flexible axostylus axostyle, a plurality of movable cartridge respectively in a plurality of the inboard of protruding type expansion hole, a plurality of spacing suit spring is respectively in a plurality of on the T type expansion rod, and a plurality of spacing suit spring is connected respectively in a plurality of protruding type expansion hole's inboard, a plurality of T type expansion rod activity cartridge respectively in a plurality of limit locking groove's inboard.

Preferably, the inner sides of the right-angle connecting shaft tubes are respectively provided with a limiting ring, and the limiting rings are respectively sleeved on the telescopic shaft rods.

Preferably, linear bearings are arranged on the inner sides of the limiting rings.

Preferably, a plurality of the convex telescopic blocks are respectively provided with a ball groove, and the inner sides of the ball grooves are respectively provided with a movable ball.

Preferably, a plurality of the rotating ring blocks are provided with magnetic pole marks.

Advantageous effects

The utility model provides a quick loading material frame. Possess following beneficial effect, this quick loading work or material rest, carry out flexible shrink with flexible axostylus axostyle and suit central siphon through auxiliary support structure to reach and dismantle whole device quick expansion, whole device can dismantle fast, and protection finished product shaping reinforcing bar is not because the extrusion produces deformation and can't use in transportation or loading process, can freely make up from top to bottom, satisfies multiple product shipment demand, and transportation is reliable and stable, and reduces the goods and strike the trailer carriage.

Drawings

Fig. 1 is a schematic front view in cross section of a fast loading rack according to the present utility model.

Fig. 2 is a schematic top cross-sectional view of the fast loading rack of the present utility model.

Fig. 3 is a schematic side cross-sectional view of the fast loading rack of the present utility model.

Fig. 4 is a partial enlarged view of "a" in fig. 2.

In the figure: 1. the right angle is connected with the axle tube; 2. sleeving a shaft tube; 3. a telescopic shaft lever; 4. sleeving an angle shaft tube; 5. a circular ring magnet block; 6. a telescopic magnet block; 7. rotating the ring block; 8. a convex telescopic block; 9. locking the limiting shaft; 10. a locking sleeve spring; 11. a concave angle bearing block; 12. t-shaped angle threaded rod; 13. sleeving a threaded pipe; 14. a right angle support block; 15. a convex limiting block; 16. a T-shaped telescopic rod; 17. and a spring is sleeved at the limit.

Detailed Description

All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

All electric parts and the adaptive power supply are connected through wires by the person skilled in the art, and a proper controller and encoder should be selected according to actual conditions so as to meet control requirements, specific connection and control sequence, and the electric connection is completed by referring to the following working principles in the working sequence among the electric parts, and the detailed connection means are known in the art, and mainly introduce the working principles and processes as follows, and do not describe the electric control.

Examples

As shown in fig. 1-4, a plurality of sleeved shaft tubes 2 and a plurality of telescopic shaft rods 3 are respectively and movably inserted on the right-angle connecting shaft tube 1 in a crossing manner, an expansion locking structure is arranged on the right-angle connecting shaft tube 1, and auxiliary supporting structures are arranged on the telescopic shaft tubes 3 and the sleeved shaft tubes 2;

specifically, the auxiliary support structure comprises: the device comprises a plurality of sleeved angle shaft tubes 4, a plurality of annular magnet blocks 5, a plurality of telescopic magnet blocks 6, a plurality of rotary annular blocks 7, a plurality of convex telescopic blocks 8, a plurality of locking limiting shafts 9, a plurality of locking sleeved springs 10, a plurality of concave angle bearing blocks 11, a plurality of T-shaped angle threaded rods 12 and a plurality of sleeved threaded tubes 13;

specifically, a plurality of suit angle shaft tube 4 suit respectively in a plurality of the outside of flexible axostylus axostyle 3 and a plurality of suit shaft tube 2, a plurality of flexible axostylus axostyle 3 and a plurality of set has seted up spacing ball groove respectively on the axle tube 2 of suit, a plurality of a pair of ring groove has been seted up respectively on the angle of suit shaft tube 4, a plurality of rotatory ring piece 7 respectively through the bearing suit in a plurality of on the ring groove, a plurality of ring magnet piece 5 suit respectively in a plurality of on rotatory ring piece 7, a plurality of the flexible inslot of a plurality of protruding type expansion groove has been seted up respectively to the inboard of suit angle shaft tube 4, a plurality of protruding type expansion block 8 respectively movable cartridge in a plurality of protruding type expansion block 8, a plurality of locking spacing axle 9 respectively movable cartridge in a plurality of protruding type expansion groove's inboard, a plurality of locking spacing axle 9 respectively movable cartridge in a plurality of protruding type expansion groove's groove, a plurality of locking axle 11 respectively in a plurality of angle of protruding type expansion groove, a plurality of bearing 11 respectively in a plurality of angle of the sleeve piece 11 are installed in a plurality of protruding type expansion groove, a plurality of bearing 11 respectively in a plurality of angle of T-shaped expansion groove, a plurality of T-shaped expansion groove respectively, a plurality of the angle of 11.

It should be noted that, in the above description, the plurality of sleeved angle shaft tubes 4 are horizontally stretched and contracted along the plurality of sleeved shaft tubes 2 and the plurality of telescopic shaft rods 3 respectively, the plurality of sleeved angle shaft tubes 4 are used for driving the concave angle bearing blocks 11 thereon respectively, the plurality of concave angle bearing blocks 11 are used for driving the T-shaped angle threaded rods 12 thereon respectively, the sleeved threaded tubes 13 are sleeved on the pair of T-shaped angle threaded rods 12, so that the length between the pair of T-shaped angle threaded rods 12 and the sleeved threaded tubes 13 is adjusted according to different requirements, the positions of the pair of sleeved angle shaft tubes 4 are changed, through rotatory ring piece 7 on the rotatory suit angle central siphon 4, it is rotatory to drive the ring magnet piece 5 on it through rotatory ring piece 7, become semicircle magnet form on the ring magnet piece 5, thereby reach magnetism repulsion, rotatory semicircle of ring magnet piece 5, carry out magnetism absorption, thereby reach and will rotate half circle, thereby reach the inboard that inserts the flexible piece of a plurality of protruding type 2 or flexible axostylus axostyle 3 of suit central siphon, carry out the spacing to the flexible piece 8 of a plurality of protruding type respectively in vertical direction through the spacing axle 9 of a plurality of locking, carry out magnetism propelling movement to the flexible piece 8 of a plurality of protruding type through the flexible piece 8 of a plurality of locking suit spring 10, thereby reach spacing effect.

As shown in fig. 1-4, the extended lock structure includes: the device comprises a plurality of right-angle supporting blocks 14, a plurality of convex limiting blocks 15, a plurality of T-shaped telescopic rods 16 and a plurality of limiting sleeve springs 17;

specifically, a plurality of right angle supporting shoe 14 install respectively in a plurality of right angle connecting shaft tube 1 is last, a plurality of right angle connecting shaft tube 1 and a plurality of sleeve shaft tube 2 is last to have seted up concave type expansion groove respectively, a plurality of protruding type stopper 15 is installed respectively in a plurality of sleeve shaft tube 2 and a plurality of the outside of flexible axostylus axostyle 3, and a plurality of protruding type stopper 15 is movable cartridge respectively in a plurality of concave type expansion groove's inboard, a plurality of protruding type expansion hole has been seted up respectively on the right angle supporting shoe 14, a plurality of sleeve shaft tube 2 and a plurality of have been seted up respectively on flexible axostylus axostyle 3 a plurality of T type telescopic link 16 is movable cartridge respectively in a plurality of protruding type expansion hole's inboard, a plurality of spacing sleeve spring 17 is respectively sleeved in a plurality of T type telescopic link 16, and a plurality of spacing sleeve spring 17 is connected respectively in a plurality of protruding type expansion hole's inboard, a plurality of T type telescopic link 16 is movable cartridge respectively in a plurality of spacing locking groove.

In the above description, the telescopic pushing is performed along the T-shaped telescopic rods 16 through the plurality of limiting sleeve springs 17, the plurality of T-shaped telescopic rods 16 are movably inserted into the plurality of sleeve shaft tubes 2 and the inner sides of the plurality of telescopic shaft rods 3 respectively, and the convex limiting blocks 15 are pushed by the T-shaped telescopic rods 16, so that the pair of convex limiting blocks 15 are inserted into the inner sides of the concave angle bearing blocks 11, and the locking effect is achieved.

As an preferable scheme, the inner sides of the right-angle connecting shaft tubes 1 are respectively provided with a limiting ring, and the limiting rings are respectively sleeved on the telescopic shaft rods 3.

As an optimal scheme, further, the inner sides of the limiting rings are provided with linear bearings.

As a preferable scheme, a plurality of convex telescopic blocks 8 are respectively provided with a ball groove, and the inner sides of the ball grooves are respectively provided with a movable ball.

Preferably, a plurality of the rotating ring blocks 7 are provided with magnetic pole marks.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. Fast loading work or material rest includes: the telescopic support device is characterized in that the telescopic support device comprises a plurality of right-angle connecting shaft pipes, a plurality of sleeved shaft pipes and a plurality of telescopic shaft rods, and is characterized in that the sleeved shaft pipes and the telescopic shaft rods are respectively movably inserted on the right-angle connecting shaft pipes in a crossing mode, an expansion locking structure is arranged on the right-angle connecting shaft pipes, and auxiliary support structures are arranged on the telescopic shaft pipes and the sleeved shaft pipes;

the auxiliary supporting structure comprises: the device comprises a plurality of sleeved angle shaft tubes, a plurality of circular ring magnet blocks, a plurality of telescopic magnet blocks, a plurality of rotary circular ring blocks, a plurality of convex telescopic blocks, a plurality of locking limiting shafts, a plurality of locking sleeved springs, a plurality of concave angle bearing blocks, a plurality of T-shaped angle threaded rods and a plurality of sleeved threaded pipes;

the utility model provides a set angle central siphon suit respectively in a plurality of telescopic shaft pole and the outside of a plurality of suit central siphon, a plurality of telescopic shaft pole and a plurality of set central siphon have been seted up respectively on the telescopic shaft pole, a plurality of set angle central siphon has been seted up respectively a pair of ring groove, a plurality of rotatory ring piece respectively through the bearing suit in a plurality of on the ring groove, a plurality of ring magnet piece respectively the suit in a plurality of on the rotatory ring piece, a plurality of have been seted up respectively to the inboard of suit angle central siphon a plurality of protruding type telescopic groove, a plurality of protruding type telescopic block respectively movable cartridge in a plurality of protruding type telescopic block is inboard, a plurality of telescopic magnet piece respectively install in a plurality of protruding type telescopic block is last, a plurality of locking limiting shaft respectively movable cartridge in a plurality of protruding type telescopic groove's inboard, and a plurality of locking limiting shaft respectively movable cartridge in a plurality of on the protruding type telescopic block, a plurality of locking spring respectively the suit in a plurality of locking sleeve is in a plurality of on the T-type telescopic shaft pipe is last a plurality of T-shaped angle sleeve respectively, a plurality of T-shaped bearing sleeve is installed in a plurality of T-shaped angle telescopic shaft respectively.

2. The quick load rack of claim 1, wherein the expansion locking structure comprises: the device comprises a plurality of right-angle supporting blocks, a plurality of convex limiting blocks, a plurality of T-shaped telescopic rods and a plurality of limiting sleeve springs;

the right angle supporting shoe is installed respectively in a plurality of right angle connection central siphon, a plurality of right angle connection central siphon and a plurality of set up concave type expansion groove respectively on the central siphon, a plurality of protruding type stopper is installed respectively in a plurality of set central siphon and a plurality of the outside of flexible axostylus axostyle, and a plurality of protruding type stopper activity cartridge respectively in a plurality of the inboard of concave type expansion groove, a plurality of protruding type expansion hole has been seted up respectively on the right angle supporting shoe, a plurality of set central siphon and a plurality of limit locking groove has been seted up respectively on the flexible axostylus axostyle, a plurality of movable cartridge respectively in a plurality of the inboard of protruding type expansion hole, a plurality of spacing suit spring is respectively in a plurality of on the T type expansion rod, and a plurality of spacing suit spring is connected respectively in a plurality of protruding type expansion hole's inboard, a plurality of T type expansion rod activity cartridge respectively in a plurality of limit locking groove's inboard.

3. The quick loading material frame according to claim 2, wherein a plurality of limiting rings are respectively arranged on the inner sides of the right-angle connecting shaft tubes, and the limiting rings are respectively sleeved on the telescopic shaft rods.

4. A quick loading material frame according to claim 3, wherein a linear bearing is arranged on the inner side of a plurality of limiting rings.

5. The quick loading material frame according to claim 4, wherein a plurality of ball grooves are respectively formed in the convex telescopic blocks, and movable balls are respectively arranged on the inner sides of the ball grooves.

6. The quick loading magazine of claim 5, wherein a plurality of said rotating ring segments are provided with pole indicia thereon.