CN110696853A - Roll-over movable coiled material conveying device - Google Patents

Abstract

The invention discloses a turnover movable coiled material conveying device, and relates to the technical field of vehicle manufacturing; the device comprises two bearing frames, a mounting beam and a supporting mechanism, wherein the two bearing frames are respectively provided with a supporting surface; the mounting beam is arranged at the bottom of the bearing frame, the two bearing frames are symmetrically arranged on the mounting beam, the two bearing frames are respectively and rotatably connected with the mounting beam through hinges, and the supporting mechanisms are arranged at two sides of the mounting beam and connected with the two bearing frames and used for supporting the bearing frames to turn over along the upper part of the mounting beam; so that the supporting surface of the bearing frame is inclined in the overturning state, and the upper plane of the mounting beam and the supporting surfaces of the two bearing frames form a V-shaped groove for bearing the coiled materials; through implementing this technical scheme, can effectively solve the technical problem that current coiled material conveyer can't satisfy the goods loading transportation demand of height, can realize the demand of coiled material transportation stability, and can satisfy the loading transportation demand of coiled material and other height goods simultaneously under the prerequisite that does not change the device structure, the practicality is good.

Description

Roll-over movable coiled material conveying device

Technical Field

The invention relates to the technical field of vehicle manufacturing, in particular to a turnover movable coiled material conveying device.

Background

At present, coiled material transportation mainly adopts open wagon or flat wagon transportation, and the coiled material reinforcing mode can be divided into two types of concave grass support pads and steel seat frame reinforcing. In addition, a small number of special transport vehicles for coiled materials exist, in order to ensure the transport safety, materials such as concave grass support pads, galvanized iron wires or wire rods, steel guard plates and the like are loaded and reinforced by adopting straws when the coiled materials are loaded, and the coiled material reinforcing and bearing devices are all of a fixed structure; for example, chinese patent publication No. CN106585372A discloses a bidirectional driving hydraulic driven frame vehicle, which can be used for transporting steel coils or steel pipes, and includes a frame, a suspension system connected below the frame, an axle connected to the suspension system, and a power system connected to the axle, wherein a plurality of frames are disposed above the frame for loading and unloading the coils.

However, in the process of implementing the present invention, the present inventors found that the coil transporting apparatus described above has at least the following technical problems: because the coiled material reinforcing and bearing device is of a fixed structure, the distance from the top of the coiled material reinforcing and bearing device to the rail surface is high, and particularly the position of the structure of a bogie, a suspension system, a power system and the like is arranged at the bottom of the frame, the coiled material reinforcing and bearing device cannot be arranged in the frame, so that the height of the coiled material reinforcing and bearing device is larger than the upper plane of the bottom plate surface or the side wall of the vehicle body, the coiled material reinforcing and bearing device cannot be suitable for transportation of high and large goods such as containers.

Disclosure of Invention

In order to solve the technical problem that the existing coiled material conveying device cannot meet the loading and conveying requirements of high and large goods, the invention aims to provide the turnover movable coiled material conveying device which can effectively meet the conveying requirements of coiled materials and can meet the loading and conveying requirements of the coiled materials and other high and large goods on the premise of not changing the structure of the device.

The technical scheme adopted by the invention is as follows:

a roll material conveyer capable of turning over and moving comprises

The two bearing frames are respectively provided with a supporting surface;

the mounting beam is arranged at the bottom of the bearing frame and used for fixing the bearing frame on the frame, the two bearing frames are symmetrically arranged on the mounting beam and are respectively and rotatably connected with the mounting beam through hinges, so that the two bearing frames and the mounting beam are in a folded state, and the height of the two bearing frames is not higher than a set height;

the supporting mechanisms are arranged on two sides of the mounting beam, connected with the two bearing frames and used for supporting the bearing frames to turn over along the upper part of the mounting beam; so that the supporting surface of the bearing frame is inclined in the overturning state, and the upper plane of the mounting beam and the supporting surfaces of the two bearing frames form a V-shaped groove structure for bearing coiled materials.

Optionally, a cross beam, a longitudinal beam and a connecting beam are arranged on the opposite side of the bearing frame along the supporting surface, the cross beam and the longitudinal beam form a rectangular frame beam, and the connecting beam is a channel beam and is connected between the cross beam and the longitudinal beam. The rectangular frame beam structure strength formed by the cross beams and the longitudinal beams is enhanced, and the bearing capacity of the bearing frame is improved so as to achieve better support stability.

Optionally, the hinge is a hinge and is arranged on one side of the bearing frame close to the mounting beam, a hinge seat is arranged on the mounting beam, and the hinge on the bearing frame is hinged to the hinge seat on the mounting beam through a round pin. The bearing frame can be movably overturned along the mounting beam, and can be overturned upwards through the supporting mechanism to form a V-shaped groove structure for bearing coiled materials, so that the coiled materials are positioned and fixed in the radial direction, and the coiled materials are prevented from rolling in the radial direction in the transportation process; the supporting frame can also rotate downwards and is folded with the mounting beam, the height of the bearing frame is designed not to exceed a set height, the supporting frame can meet the loading requirements of coiled materials and tall and big goods, and the supporting frame has better practicability.

Optionally, the supporting mechanism includes a supporting beam and an air spring arranged on the supporting beam, a first spring mounting seat is arranged on the supporting beam, a second spring mounting seat is arranged on the bearing frame, one end of the air spring is connected with the first spring mounting seat through a round pin, and the other end of the air spring is connected with the second spring mounting seat through a round pin so as to support the bearing frame. Utilize the air spring as supplementary lifting device, this ingenious structural design need not additionally to increase the labour or use mechanized equipment to promote to bear the frame, and can bear the coiled material of different weight, can be convenient for the coiled material loading and unloading operation, improves coiled material handling efficiency and effectively reduces the labour.

Optionally, each bearing frame is correspondingly provided with two gas springs, and the two gas springs are uniformly arranged in the length direction of the bearing frame at equal intervals. Thereby forming stable auxiliary support for two ends of the bearing frame and having better reliability.

Optionally, the supporting mechanism further comprises a supporting rod, a first support is arranged on the supporting beam, a second support is arranged on the bearing frame, one end of the supporting rod is hinged to the first support through a round pin, and the other end of the supporting rod is connected with the second support through a bolt assembly. Therefore, after the bearing frame is lifted to a set position by the gas spring, the support rod is locked on the bearing frame by the bolt assembly, so that the coiled material can be stably and radially supported, and the coiled material positioning device can be suitable for radially positioning coiled materials with different diameters; and adopt the bolt to constitute between carrier and the bracing piece and carry out locking or unblock, can effectively practice thrift operating time for the locking mode of nut fastening, and then can effectively improve coiled material and load operating efficiency.

Optionally, the bolt is constituteed including bolt, stopping round pin and chain link, the one end of bolt is passed second support and bracing piece tip and is connected with the stopping round pin rotation, and the other end of bolt is provided with the mounting hole, bears and is provided with the link on the frame, the one end of chain link is inserted in the mounting hole and with bolt fixed connection, the other end of chain link penetrate the link in and rather than fixed connection. Therefore, the bolt assembly can be effectively prevented from being lost after being pulled out when the bearing frame falls and is folded.

Optionally, rubber plates are laid on the supporting surfaces of the two bearing frames, and the rubber plates are connected with the bearing frames through bonding or fasteners. So utilize the rubber slab contact coiled material, can effectively increase the frictional force of coiled material and contact surface to play the effect of flexible buffering, prevent that the panel surface from receiving wearing and tearing, have better practicality.

Optionally, the device further comprises a transverse stopping mechanism, wherein the transverse stopping mechanism is located on the mounting beam in the V-shaped groove, so that the coiled material is axially positioned when the coiled material is horizontally placed in the V-shaped groove. So combine V type groove structural design can form radial and axial bidirectional fixation to the coiled material of packing into, need not the manual work after loading and additionally set up coiled material fixed knot structure and can effectively guarantee the security in its stationary stability and the transportation, and the coiled material loading and unloading of being convenient for and then can effectively improve its handling efficiency.

Optionally, the transverse stopping mechanism comprises a fixing seat, a rotating shaft arranged on the fixing seat, a plurality of stopping blocks and a plurality of torsion springs, the stopping blocks are matched with the torsion springs and installed on the rotating shaft, and a limiting shaft used for limiting the rotation angle of the stopping blocks is arranged on one side of the fixing seat. When the coiled material is loaded, the stop blocks below the coiled material overcome the torsion spring and rotate downwards under the action of the heavy pressure of the coiled material, the stop blocks outside the two axial ends of the coiled material position the axial direction of the coiled material, and then the coiled material is transversely reinforced, and particularly when the conveying device passes through a curve bend, the coiled material can be effectively prevented from transversely moving.

Optionally, can follow the length direction certain distance range arrangement in V type groove on the installation roof beam and set up two horizontal backstop mechanisms, be used for carrying out spacing fixed to coiled material axial both ends respectively to the adaptation is consolidated the horizontal location to the coiled material of different length dimensions, has reliable practicality.

As described above, the present invention has at least the following advantageous effects:

1. the conveying device is designed to be foldable and turnover, when the coiled material needs to be conveyed, the two bearing frames can be turned upwards through the supporting mechanism to form a V-shaped groove structure for supporting the coiled material, so that the coiled material is positioned and fixed in the radial direction, and the stability of the coiled material in the conveying process is ensured; when other high and large cargos need to be carried, the bearing frame can be rotated to be folded with the mounting beam, and the height of the bearing frame is ensured to be designed to be not higher than a set height, so that the loading requirements of coiled materials and the high and large cargos can be met; the structure of the frame does not need to be changed and the utilization degree of the whole transportation device can be improved.

2. According to the invention, the cross beam and the longitudinal beam form a rectangular frame beam, and a connecting beam for enhancing the structural strength of the rectangular frame beam is connected between the cross beam and the longitudinal beam, so that the bearing capacity of the bearing frame is improved to achieve better support stability; and the rubber plate is laid on the supporting surface of the bearing frame, so that the friction force between the coiled material and the contact surface can be effectively increased, the flexible buffer effect is achieved, the surface of the plate is prevented from being abraded, and the rubber plate bearing frame has better practicability.

3. The support mechanism utilizes the air spring as the auxiliary lifting device, the ingenious structural design does not need to additionally increase a power device or use mechanical equipment to lift the bearing frame, the lifting force during manual turnover of the support frame can be reduced, the loading and unloading operation of coiled materials can be facilitated, the loading and unloading efficiency of the coiled materials is improved, and the labor force is effectively reduced; and two springs can be equidistantly arranged along the length direction of the bearing frame, so that stable auxiliary supports are formed at two ends of the bearing frame, and the bearing frame has better reliability.

4. The support mechanism further comprises a support rod, the bearing frame and the support rod are locked or unlocked through a bolt, stable radial support can be formed for transversely placed coiled materials, coiled material installation can be conveniently completed through the structural design of the air spring, the support mechanism can be suitable for radially positioning the coiled materials with different diameters, operation time can be effectively saved compared with a locking mode of nut fastening, and further coiled material loading operation efficiency can be effectively improved.

5. According to the invention, the transverse stopping mechanism is further arranged on the mounting beam, and by combining the design of the supporting mechanism, the coiled material loaded in the V-shaped groove can be fixed in a radial and axial two-way mode, the coiled material fixing structure does not need to be additionally arranged manually after loading, the fixing stability of the coiled material fixing structure can be effectively ensured, the reinforcing material is saved, the reinforcing time of the coiled material is shortened, two transverse stopping mechanisms can be designed along the length direction of the V-shaped groove according to the length requirement of the coiled material, the transverse positioning and reinforcing of the coiled material with different length sizes can be adapted, and particularly when the conveying device passes through a curved bend, the coiled material can be effectively prevented from transversely moving, so that the whole conveying device is ensured.

Drawings

The invention will be described by way of specific embodiments and with reference to the accompanying drawings, in which

FIG. 1 is a schematic structural view of an embodiment 1 of the reversible mobile coil transporter of the present invention;

FIG. 2 is a schematic view of the loading ledge of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the folder of FIG. 1 of the present invention;

FIG. 4 is a schematic view of the support beam of FIG. 1 according to the present invention;

FIG. 5 is a schematic view of the latch of FIG. 1 according to the present invention;

FIG. 6 is a schematic view of the reversible mobile coil transporter embodiment 2 of the present invention in an inverted position;

FIG. 7 is a schematic view of the lateral stop mechanism of FIG. 6;

FIG. 8 is a schematic view of the invertible mobile coil transporter 2 of the present invention in a collapsed state.

Description of reference numerals: 1-a bearing frame; 1.1-a support surface; 1.2-beam; 1.3-longitudinal beam; 1.4-connecting the beams; 1.5-folding; 1.6-a second spring mount; 1.7-a second support; 1.8-suspension loop; 1.9-pull ring; 2, mounting a beam; 2.1-support seat composition; 2.1.1-seat board; 2.1.2-U-shaped bottom plate; 2.1.3-cardboard; 2.1.4-folding seat; 2.1.5-baffle; 3-a support mechanism; 3.1-supporting beam; 3.1.1-a first spring mount; 3.1.2 — a first support; 3.2-gas spring; 3.3-support bar; 3.4-bolt assembly; 3.4.1-bolt; 3.4.2-retaining pin; 3.4.3-chain link; 4-a transverse stop mechanism; 4.1-fixed seat; 4.2-rotation axis; 4.3-stop block; 4.4-torsion spring; 4.5-a limit shaft; 4.6-rib plate; 5-a rubber plate; 6-a frame; 6.1-side wall.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations of features and/or steps that are mutually exclusive.

Any feature disclosed in this specification may be replaced by alternative features serving equivalent or similar purposes, unless expressly stated otherwise. That is, unless expressly stated otherwise, each feature is only an example of a generic series of equivalent or similar features.

Example 1

The embodiment is basically as shown in fig. 1 and fig. 2: the embodiment provides a roll coil conveying device capable of overturning, which comprises two bearing frames 1, a mounting beam 2 and supporting mechanisms 3 arranged on two sides of the bearing frames 1, wherein the two bearing frames 1 are respectively provided with a supporting surface 1.1; the rubber plates 5 are laid on the supporting surfaces 1.1 of the two bearing frames 1, and the rubber plates 5 can be connected with the bearing frames 1 through bonding or fasteners, so that the rubber plates 5 are utilized to contact the coiled material, the friction force between the coiled material and the contact surfaces can be effectively increased, the flexible buffer effect is realized, and the surface of the plate is prevented from being abraded; the mounting beam 2 is arranged at the bottom of the bearing frame 1 and used for fixing the bearing frame 1 on the frame 6, the two bearing frames 1 are symmetrically arranged on the mounting beam 2 along the length direction of the frame 6, and the two bearing frames 1 are respectively rotatably connected with the mounting beam 2 through hinges, so that the two bearing frames 1 and the mounting beam 2 are in a folded state, and the height of the two bearing frames 1 is not higher than a set height, for example, the set height in the embodiment is the bearing surface of the container locking device to adapt to loading and transportation of coiled materials and containers; the supporting mechanisms 3 are arranged on two sides of the mounting beam 2, connected with the two bearing frames 1 and used for supporting the bearing frames 1 to turn over along the upper part of the mounting beam 2; so that the support surfaces 1.1 of the loading ledges 1 are inclined in the flipped state and the upper plane of the mounting beam 2 and the support surfaces 1.1 of the two loading ledges 1 form a V-groove structure for carrying the coil.

In the embodiment, the hinge is a hinge 1.5 and is arranged on one side of the bearing frame 1 close to the mounting beam 2, and the mounting beam 2 is provided with a support seat assembly 2.1; as shown in fig. 3, the supporting seat assembly 2.1 includes a seat plate 2.1.1 fixed on the mounting beam 2, a U-shaped bottom plate 2.1.2, a snap-gauge 2.1.3 and a hinge seat 2.1.4, the U-shaped bottom plate 2.1.2 is fixed at the lower end of the seat plate 2.1.1, the snap-gauge 2.1.3 is embedded in the groove of the U-shaped bottom plate 2.1.2, the hinge 1.5 on the bearing frame 1 is hinged with the hinge seat 2.1.4 on the mounting beam 2 through a round pin, and the baffle 2.1.5 is used for limiting the rotation position of the movable bearing frame 1. The bearing frame 1 can be movably turned over along the mounting beam 2, and can be turned over upwards through the supporting mechanism 3 to form a V-shaped groove structure for bearing coiled materials, so that the coiled materials are positioned and fixed in the radial direction, and the plates are prevented from rolling in the radial direction in the transportation process; the downward rotation and the installation beam 2 can be folded, the height of the bearing frame 1 is designed to be not more than the set height of the side wall 6.1 of the frame 6, the loading requirements of coiled materials and high and large goods can be met, and the practicability is better.

In order to form a stable support for the coil, the loading frame 1 provided in this embodiment is provided with a cross beam 1.2, a longitudinal beam 1.3 and a connecting beam 1.4 along a side opposite to the supporting surface 1.1, the cross beam 1.2 and the longitudinal beam 1.3 form a rectangular frame beam, and the connecting beam 1.4 is a channel beam and is connected between the cross beam 1.2 and the longitudinal beam 1.3. The rectangular frame beam structure formed by the cross beams 1.2 and the longitudinal beams 1.3 is used for enhancing the structural strength, and further the bearing capacity of the bearing frame 1 is improved to achieve better supporting stability.

The supporting mechanism 3 provided by this embodiment includes a supporting beam 3.1 and an air spring 3.2 disposed on the supporting beam 3.1, please refer to fig. 1 and 4, the supporting beam 3.1 is provided with a first spring mounting seat 3.1.1, the bearing frame 1 is provided with a second spring mounting seat 1.6, one end of the air spring 3.2 is connected with the first spring mounting seat 3.1.1 through a round pin, and the other end is connected with the second spring mounting seat 1.6 through a round pin, so as to support the bearing frame 1, the air spring 3.2 is used as an auxiliary lifting device, the ingenious structural design does not need to additionally increase labor force or use mechanical equipment to lift the bearing frame 1, the lifting force when the supporting frame is manually turned over is reduced, the coil loading and unloading operation can be facilitated, the coil loading and unloading efficiency is improved, and the labor force is effectively; in order to form stable auxiliary support for the left end and the right end of the bearing frame 1, each bearing frame 1 is correspondingly provided with two air springs 3.2, and the two air springs 3.2 are uniformly arranged at equal intervals along the length direction of the bearing frame 1.

In order to enable the gas spring 3.2 to lift the bearing frame 1 to a set position and then lock the bearing frame 1 at the set position, the support mechanism 3 in the embodiment further comprises a support rod 3.3, the support rod 3.1 is provided with a first support 3.1.2, the bearing frame 1 is provided with a second support 1.7, one end of the support rod 3.3 is hinged with the first support 3.1.2 through a round pin, and the other end of the support rod is connected with the second support 1.7 through a bolt assembly 3.4, so that the support rod 3.3 is locked on the bearing frame 1 through the bolt assembly 3.4 after the bearing frame 1 is lifted to the set position by the gas spring 3.2, stable radial support can be formed on coiled materials, and the coiled materials with different diameters can be radially positioned; various locking modes, such as a fixing mode of threaded connection, are available for the supporting rod 3.3 to lock the bearing frame 1, but in the embodiment, the bolt 3.4 is preferably adopted between the bearing frame 1 and the supporting rod 3.3 to lock or unlock, so that the operation time can be effectively saved compared with a locking mode of nut fastening, and the operation efficiency of coil loading can be effectively improved.

Specifically, as shown in fig. 5, the plug pin assembly 3.4 provided in this embodiment includes a plug pin 3.4.1, a retaining pin 3.4.2 and a chain ring 3.4.3, one end of the plug pin 3.4.1 passes through the second support 1.7 and is rotatably connected to the end of the support rod 3.3 and the retaining pin 3.4.2, and the retaining pin 3.4.2 prevents the plug pin 3.4.1 from coming out of the mounting hole of the second support 1.7, so as to facilitate fixing the support rod 3.3 on the bearing frame 1; the backstop pin 3.4.2 can rotate around the bolt 3.4.1, so that unlocking is convenient for lowering the support rod 3.3; in the embodiment, the supporting rod 3.3 is laid down and just placed on the clamping plate 2.1.3 of the supporting seat assembly 2.1, so that the supporting rod 3.3 is supported by the clamping plate 2.1.3, and the supporting rod 3.3 is stably laid when the bearing frame 1 is folded and laid down to bear high and large goods; the end of the bolt 3.4.1, which is far away from the backstop pin 3.4.2, is provided with a mounting hole, the bearing frame 1 is provided with a hanging ring 1.8, one end of the chain ring 3.4.3 is inserted into the mounting hole and is fixedly connected with the bolt 3.4.1, and the other end of the chain ring 3.4.3 penetrates into the hanging ring 1.8 and is fixedly connected with the hanging ring, so that the bolt assembly 3.4 can be effectively prevented from being lost after being pulled out when the bearing frame 1 is in a falling and folding state, and the bolt assembly has better practicability; in addition, the upper end of the bearing frame 1 is also provided with a pull ring 1.9, which is convenient for manual operation.

The specific implementation manner of this embodiment is: when the coiled material is hoisted into the operation, under the auxiliary lifting action of the gas spring 3.2, the two bearing frames 1 are overturned to the set positions, then the support rod 3.3 is lifted up and inserted into the mounting hole of the second support 1.7 by using the bolt assembly 3.4, and the support locking of the two bearing frames 1 is completed; when high and large goods such as a container are hung, the bolt assembly 3.4 is pulled out from the support rod 3.3, the support rod 3.3 is supported on the clamping plate 2.1.3 of the support rod 3.3 placed in the support seat assembly 2.1 under the action of gravity, the air spring 3.2 is in a compression state under the action of gravity of the container, the two bearing frames 1 rotate downwards and are folded with the mounting beam 2, and the height of the folded bearing frame 1 is not higher than the set height of the side wall 6.1 of the frame 6, for example, the height of the folded bearing frame 1 is not higher than the bearing surface of the container locking device, so that loading and transportation of the container can be effectively realized.

In summary, the transportation device provided in this embodiment is designed to be foldable and turnover, and when a coiled material needs to be carried, the two bearing frames 1 can be turned upwards by the supporting mechanism 3 to form a V-shaped groove structure for supporting the coiled material, so as to radially position and fix the coiled material, thereby ensuring the stability of the coiled material during transportation; when other high and large cargos need to be carried, the bearing frame 1 can be rotated to be folded with the mounting beam 2, and the height of the bearing frame 1 is guaranteed not to exceed the set height of the side wall 6.1 of the frame 6, so that the loading requirements of coiled materials and the high and large cargos can be met; the structure of the vehicle frame 6 does not need to be changed and the utilization degree of the whole transportation device can be improved.

Example 2

Example 2 is substantially the same as example 1 except that: as shown in fig. 6 to 8, the transportation device provided in this embodiment further includes a transverse stopping mechanism 4, and the transverse stopping mechanism 4 is located on the mounting beam 2 in the V-shaped groove; for adapting to the transverse positioning reinforcement of coiled materials with different length sizes, two transverse stop mechanisms 4 are arranged on the mounting beam 2 at a certain distance along the length direction of the V-shaped groove and are respectively used for limiting and fixing the two axial ends of the coiled materials, so that the coiled materials are positioned transversely and axially when being placed in the V-shaped groove. So combine V type groove structural design can form radial and axial bidirectional fixation to the coiled material of packing into, need not the manual work after loading and additionally set up coiled material fixed knot structure and can effectively guarantee the security in its stationary stability and the transportation, and the coiled material loading and unloading of being convenient for and then can effectively improve its handling efficiency.

Referring to fig. 7, the transverse stopping mechanism 4 provided in this embodiment includes a fixing base 4.1, a rotating shaft 4.2 disposed on the fixing base 4.1, a plurality of stopping blocks 4.3 and a plurality of torsion springs 4.4, the fixing base 4.1 is fixedly mounted above the mounting beam 2, the fixing base 4.1 includes an L-shaped bottom plate and support plates disposed at two ends of the bottom plate, the rotating shaft is mounted between the two support plates, the stopping blocks 4.3 and the torsion springs 4.4 are mounted on the rotating shaft 4.2 in a matching manner, a distance between the two stopping blocks located in the middle of the two transverse stopping mechanisms 4 is a minimum coil width, the distance between any two stop blocks on the two sides of the transverse stopping mechanism is matched with the axial length of coiled materials with different specifications, each transverse stopping mechanism 4 is provided with eight stop blocks and a torsion spring 4.4 assembly, one side of a fixed seat 4.1 is provided with a limiting shaft 4.5 for limiting the rotation angle of the stop blocks 4.3, and the limiting shaft 4.5 is arranged in parallel with a rotation shaft; when the coiled material is loaded, the stop block 4.3 below the coiled material overcomes the torsion spring 4.4 and rotates downwards under the heavy pressure of the coiled material; a rib plate 4.6 is arranged at the lower end of the fixed seat and used for improving the stress stability of the fixed seat; the stop blocks outside the two axial ends of the coiled material axially position the coiled material so as to transversely reinforce the coiled material, and particularly, when the conveying device passes through a curve bend, the coiled material can be effectively prevented from transversely moving.

The specific implementation manner of this embodiment is: when the coiled material is hung in the operation, under the action of the auxiliary lifting force of the gas spring 3.2, the two bearing frames 1 are turned upwards to fixed positions to form a V-shaped groove structure for bearing the coiled material with the upper plane of the mounting beam 2, the support rods 3.3 corresponding to the two bearing frames 1 are lifted, the support rods 3.3 are locked on the bearing frames 1 by utilizing the bolt assembly 3.4, the support locking of the two bearing frames 1 is completed, and the coiled material placed transversely can be stably supported in the radial direction; furthermore, the gravity of the coiled material overcomes the elasticity of a torsion spring 4.4 in the stop block to enable the coiled material to rotate downwards around the rotating shaft, the stop blocks positioned on the outer sides of two ends of the coiled material are not pressed down, the axial limiting and reinforcing of the coiled material can be realized, the coiled material loaded in the V-shaped groove can be radially and axially fixed in a two-way mode, and the coiled material fixing structure does not need to be additionally arranged manually after the coiled material is loaded, and the fixing stability of the coiled material can be effectively guaranteed.

In summary, in this embodiment, by combining the structural design of the supporting mechanism 3 and the transverse stopping mechanism 4, the stable radial support and the axial limiting fixation can be formed on the transversely placed coiled materials, and the device can be adapted to perform radial positioning on the coiled materials with different diameters; the transverse positioning and reinforcing device is adaptable to transversely positioning and reinforcing coiled materials with different length sizes, and particularly can effectively prevent the coiled materials from transversely moving when the conveying device passes through a curve bend, so that the whole conveying device is guaranteed to have better safety and reliability, the practicability is good, and the transverse positioning and reinforcing device is suitable for popularization and application of coiled material conveying vehicles.

The invention is not limited to the foregoing embodiments. The invention extends to any novel feature or any novel combination of features disclosed in this specification and any novel method or process steps or any novel combination of features disclosed.

Claims (10)

1. The utility model provides a roll material conveyer can overturn activity which characterized in that: comprises that

The two bearing frames are respectively provided with a supporting surface;

the mounting beam is arranged at the bottom of the bearing frame and used for fixing the bearing frame on the frame, the two bearing frames are symmetrically arranged on the mounting beam, and the two bearing frames are respectively and rotatably connected with the mounting beam through hinges so as to enable the two bearing frames and the mounting beam to be in a folded state;

the supporting mechanisms are arranged on two sides of the mounting beam, connected with the two bearing frames and used for supporting the bearing frames to turn over along the upper part of the mounting beam; so that the supporting surface of the bearing frame is inclined in the overturning state, and the upper plane of the mounting beam and the supporting surfaces of the two bearing frames form a V-shaped groove structure for bearing coiled materials.

2. The reversible mobile coil transporter of claim 1, wherein: the bearing frame is provided with a cross beam, a longitudinal beam and a connecting beam along one side opposite to the supporting surface, the cross beam and the longitudinal beam form a rectangular frame beam, and the connecting beam is a groove-shaped beam and is connected between the cross beam and the longitudinal beam.

3. The invertible mobile roll transport device of claim 2, wherein: the articulated elements are folded and arranged on one side of the bearing frame close to the mounting beam, a folding seat is arranged on the mounting beam, and a fold on the bearing frame is hinged with the folding seat on the mounting beam through a round pin.

4. The invertible mobile roll transport device of claim 2, wherein: the supporting mechanism comprises a supporting beam and an air spring arranged on the supporting beam, a first spring mounting seat is arranged on the supporting beam, a second spring mounting seat is arranged on the bearing frame, one end of the air spring is connected with the first spring mounting seat through a round pin, and the other end of the air spring is connected with the second spring mounting seat through a round pin so as to support the bearing frame.

5. The invertible mobile roll transport device of claim 4, wherein: each bearing frame is correspondingly provided with two air springs, and the two air springs are uniformly arranged along the length direction of the bearing frame at equal intervals.

6. The invertible mobile roll transport device of claim 4, wherein: the supporting mechanism further comprises a supporting rod, a first support is arranged on the supporting beam, a second support is arranged on the bearing frame, one end of the supporting rod is hinged to the first support through a round pin, and the other end of the supporting rod is connected with the second support through a bolt.

7. The invertible mobile roll transport device of claim 6, wherein: the bolt is constituteed including bolt, stopping round pin and chain link, the one end of bolt is passed second support and bracing piece tip and is connected with the stopping round pin rotation, and the other end of bolt is provided with the mounting hole, bears and is provided with the link on the frame, the one end of chain link is inserted in the mounting hole and with bolt fixed connection, the other end of chain link penetrate the link in and rather than fixed connection.

8. The reversible mobile coil transporter of claim 1, wherein: and rubber plates are paved on the supporting surfaces of the two bearing frames and are connected with the bearing frames through bonding or fasteners.

9. A reversible mobile coil transporter as claimed in any one of claims 1 to 8, wherein: the transverse stopping mechanism is positioned on the mounting beam in the V-shaped groove, so that the coiled material can be axially positioned when being horizontally placed in the V-shaped groove.

10. The invertible mobile roll transport device of claim 9, wherein: the transverse stopping mechanism comprises a fixing seat, a rotating shaft arranged on the fixing seat, a plurality of stopping blocks and a plurality of torsion springs, wherein the stopping blocks are matched with the torsion springs and installed on the rotating shaft, and one side of the fixing seat is provided with a limiting shaft used for limiting the rotation angle of the stopping blocks.

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