CN214734160U

CN214734160U - Novel lifting platform

Info

Publication number: CN214734160U
Application number: CN202120566111.4U
Authority: CN
Inventors: 余强
Original assignee: Anshan Luyi Energy Saving Technology Co ltd
Current assignee: Anshan Luyi Energy Saving Technology Co ltd
Priority date: 2021-03-19
Filing date: 2021-03-19
Publication date: 2021-11-16
Anticipated expiration: 2031-03-19

Abstract

The utility model discloses a novel elevating platform, place case, anticollision sponge layer, lift hydraulic stem, support connection pad, damping spring, spring support stand, shock attenuation backup pad and steel part conveyor including supporting base, steel part conveyor is including supporting riser, driving motor, rotating transmission shaft, rotatory drive wheel, drive belt, rotation from driving wheel, rotatory driven shaft, driven shaft seat, rotation roller and steel part conveyer belt. The utility model belongs to the technical field of the elevating platform, specifically indicate a novel elevating platform, effectual solved when pushing away steel formula heating furnace end tapping because the difference in height causes the problem of collision damage when the steel billet rolls from the slope, thereby realized can realize going up and down and the purpose that the shock attenuation prevented steel collision damage to steel when pushing away steel formula heating furnace end tapping, be a very practical novel elevating platform.

Description

Novel lifting platform

Technical Field

The utility model belongs to the technical field of the elevating platform, specifically indicate a novel elevating platform.

Background

The existing steel pushing type heating furnace end steel tapping mode is that a blank slides to the upper surface of a steel tapping roller way from the slope in a furnace, the steel tapping mode is rough, iron oxide scales are seriously splashed in the gliding process of a steel billet, the steel billet rolls down from the slope, a certain height difference exists in the internal standard height of the furnace, equipment such as a slope section, a discharge roller way and a collision head are frequently damaged, the maintenance workload is large, the working environment is severe, and therefore a novel lifting platform is urgently needed to solve the problem.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a novel elevating platform, effectual solved when pushing away steel formula heating furnace end tapping because the discrepancy in height causes the problem of collision damage when the steel billet rolls from the slope, thereby realized can realizing going up and down and the purpose that the shock attenuation prevented steel collision damage to the steel when pushing away steel formula heating furnace end tapping, thereby be a very practical novel elevating platform.

The utility model adopts the following technical scheme: the utility model relates to a novel lifting platform, which comprises a supporting base, a steel piece placing box, an anti-collision sponge layer, a lifting hydraulic rod, a supporting connecting disc, a damping spring, a spring supporting upright post, a damping supporting plate and a steel piece conveying device, wherein the steel piece placing box is arranged on the supporting base, the anti-collision sponge layer is arranged in the steel piece placing box, the lifting hydraulic rod is arranged on the supporting base, the supporting connecting disc is arranged on the lifting hydraulic rod, the damping spring is arranged on the supporting connecting disc, the spring supporting upright post is arranged on the supporting connecting disc, the damping supporting plate is arranged on the damping spring, the steel piece conveying device is arranged on the damping supporting plate, the steel piece conveying device comprises a supporting vertical plate, a driving motor, a rotating transmission shaft, a rotating transmission wheel, a transmission belt, a rotating driven wheel, a rotating driven shaft, a driven shaft seat, a rotating roller shaft and a steel piece conveying belt, the supporting vertical plate is arranged on the damping supporting plate, the driving motor is arranged on the supporting vertical plate, the rotating transmission shaft is arranged on the driving motor, the rotating transmission wheel is arranged on the rotating transmission shaft, the transmission belt is arranged on the rotating transmission wheel, the rotating driven wheel is arranged on the transmission belt, the rotating driven shaft is arranged on the rotating driven wheel, the driven shaft support is arranged on the rotating driven shaft, the rotating roller shaft is arranged on the rotating driven shaft, the steel piece conveying belt is arranged on the rotating roller shaft, the steel piece placing box is used for supporting the anti-collision sponge layer, the anti-collision sponge layer is used for damping steel pieces, the lifting hydraulic rod is used for telescopically driving the supporting connecting plate to move, the supporting connecting plate is used for supporting the damping spring and the spring supporting vertical column, the damping spring is used for telescopically driving the damping supporting plate to move, and the spring supporting vertical column is used for supporting the damping spring, the effect of shock attenuation backup pad is support steel spare conveyor, the effect of supporting the riser is support driving motor, the effect of rotatory transmission shaft is to rotate and drive the rotation of rotatory drive wheel, the effect of rotatory drive wheel is to rotate and drive the drive belt, the effect of drive belt is to drive rotatory from the driving wheel and rotates, the effect of rotatory from the driving wheel is to rotate and drive rotatory driven shaft and rotate, the effect of rotatory driven shaft is to rotate and drive the rotation roller axle, the effect of rotation roller axle is to rotate and drive steel spare conveyer belt, the effect of steel spare conveyer belt is to rotate and transports the steel spare.

Furthermore, the lifting hydraulic rod is arranged between the supporting base and the supporting connecting disc, the supporting connecting disc is arranged between the lifting hydraulic rod and the damping spring, the damping spring is arranged between the supporting connecting disc and the damping supporting plate, the damping supporting plate is arranged between the damping spring and the supporting vertical plate, the driving motor is arranged between the supporting vertical plate and the rotating transmission shaft, and the rotating transmission shaft is arranged between the driving motor and the rotating transmission wheel.

Further, the lift hydraulic stem is perpendicular setting with the support base, it is perpendicular setting with the lift hydraulic stem to support the connection pad, damping spring is perpendicular setting with supporting the connection pad, the spring support post is perpendicular setting with damping spring, the damping support board is perpendicular setting with damping spring, it is perpendicular setting with the damping support board to support the riser, driving motor is perpendicular setting with supporting the riser, rotatory transmission shaft is perpendicular setting with the rotation drive wheel, rotatory from the driving wheel is perpendicular setting with rotatory driven shaft, it is perpendicular setting with rotatory driven shaft to rotate the roller axle.

Further, the support base is the rectangle setting, the box is placed to the steel part and is the cuboid setting, the support connection pad is circular setting, the shock attenuation backup pad is the rectangle setting, the support riser is the rectangle setting, the driven shaft support is the rectangle setting.

Furthermore, the lifting hydraulic rods are provided with four groups, the supporting connection discs are provided with four groups, the damping springs are provided with four groups, the spring supporting columns are provided with eight groups, the damping supporting plates are provided with two groups, the supporting vertical plates are provided with two groups, the rotating driven shafts are provided with two groups, the driven shaft supports are provided with four groups, and the rotating roller shafts are provided with two groups.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the utility model provides a novel elevating platform, effectual solved when pushing away steel formula heating furnace end tapping at present because the discrepancy in height causes the problem of collision damage when the steel billet rolls from the slope, thereby realized can realize going up and down and the purpose that the shock attenuation prevented steel collision damage to the steel when pushing away steel formula heating furnace end tapping, be a very practical novel elevating platform.

Drawings

Fig. 1 is a schematic structural diagram of the novel lifting platform of the present invention.

Wherein, 1, support the base, 2, the case is placed to the steel part, 3, the crashproof sponge layer, 4, the lift hydraulic stem, 5, support the connection pad, 6, damping spring, 7, spring support post, 8, the shock attenuation backup pad, 9, steel part conveyor, 10, support the riser, 11, driving motor, 12, rotatory transmission shaft, 13, the rotatory drive wheel, 14, the drive belt, 15, rotatory follow driving wheel, 16, rotatory driven shaft, 17, the driven shaft support, 18, the live-rollers axle, 19, the steel part conveyer belt.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in figure 1, the utility model relates to a novel elevating platform, including supporting base 1, steel part and placing case 2, crashproof sponge layer 3, lift hydraulic stem 4, support connection pad 5, damping spring 6, spring support post 7, damping support plate 8 and steel part conveyor 9, steel part is placed case 2 and is located on supporting base 1, crashproof sponge layer 3 is located in steel part places case 2, lift hydraulic stem 4 is located on supporting base 1, support connection pad 5 is located on lift hydraulic stem 4, damping spring 6 is located on support connection pad 5, spring support post 7 is located on support connection pad 5, damping support plate 8 is located on damping spring 6, steel part conveyor 9 is located on damping support plate 8, steel part conveyor 9 is including supporting riser 10, driving motor 11, rotatory transmission shaft 12, The rotary driving device comprises a rotary driving wheel 13, a driving belt 14, a rotary driven wheel 15, a rotary driven shaft 16, a driven shaft support 17, a rotary roller 18 and a steel part conveying belt 19, wherein the supporting vertical plate 10 is arranged on the damping supporting plate 8, the driving motor 11 is arranged on the supporting vertical plate 10, the rotary driving shaft 12 is arranged on the driving motor 11, the rotary driving wheel 13 is arranged on the rotary driving shaft 12, the driving belt 14 is arranged on the rotary driving wheel 13, the rotary driven wheel 15 is arranged on the driving belt 14, the rotary driven shaft 16 is arranged on the rotary driven wheel 15, the driven shaft support 17 is arranged on the rotary driven shaft 16, the rotary roller 18 is arranged on the rotary driven shaft 16, and the steel part conveying belt 19 is arranged on the rotary roller 18.

The lifting hydraulic rod 4 is arranged between the supporting base 1 and the supporting connecting disc 5, the supporting connecting disc 5 is arranged between the lifting hydraulic rod 4 and the damping spring 6, the damping spring 6 is arranged between the supporting connecting disc 5 and the damping supporting plate 8, the damping supporting plate 8 is arranged between the damping spring 6 and the supporting vertical plate 10, the driving motor 11 is arranged between the supporting vertical plate 10 and the rotating transmission shaft 12, and the rotating transmission shaft 12 is arranged between the driving motor 11 and the rotating transmission wheel 13.

The lifting hydraulic rod 4 is perpendicular to the supporting base 1, the supporting connection disc 5 is perpendicular to the lifting hydraulic rod 4, the damping spring 6 is perpendicular to the supporting connection disc 5, the spring supporting upright 7 is perpendicular to the damping spring 6, the damping support plate 8 is perpendicular to the damping spring 6, the supporting upright plate 10 is perpendicular to the damping support plate 8, the driving motor 11 is perpendicular to the supporting upright plate 10, the rotating transmission shaft 12 is perpendicular to the rotating transmission wheel 13, the rotating driven wheel 15 is perpendicular to the rotating driven shaft 16, and the rotating roller shaft 18 is perpendicular to the rotating driven shaft 16.

Support base 1 and be the rectangle setting, steel part placing box 2 is the cuboid setting, support connection pad 5 is circular setting, shock attenuation backup pad 8 is the rectangle setting, support riser 10 is the rectangle setting, driven shaft support 17 is the rectangle setting.

The lifting hydraulic rods 4 are four groups, the supporting connecting discs 5 are four groups, the damping springs 6 are four groups, the spring supporting columns 7 are eight groups, the damping supporting plates 8 are two groups, the supporting vertical plates 10 are two groups, the rotating driven shafts 16 are two groups, the driven shaft supports 17 are four groups, and the rotating roller shafts 18 are two groups.

When the steel piece conveying device is used, a steel piece falls on a steel piece conveying belt 19 when steel is discharged from the heating furnace end, then the lifting hydraulic rod 4 is started to be shortened, the supporting connecting disc 5 moves downwards to drive the damping spring 6, the spring supporting upright post 7 and the damping supporting plate 8 to move downwards, the lifting hydraulic rod 4 is stopped when the steel piece is lowered to a height convenient for conveying the steel piece, then the driving motor 11 is started, the rotary transmission shaft 12 rotates to drive the rotary transmission wheel 13 to rotate, the rotary transmission wheel 13 rotates to drive the transmission belt 14, the transmission belt 14 drives the rotary driven wheel 15 to rotate, the rotary driven wheel 15 rotates to drive the rotary driven shaft 16 to rotate, the rotary driven shaft 16 rotates to drive the rotary roller shaft 18 to rotate, the rotary roller shaft 18 rotates to drive the steel piece conveying belt 19, meanwhile, the damping spring 6 is compressed to drive the damping supporting plate 8 to move, so that damping can be realized, then the steel piece is conveyed through the steel piece conveying belt 19 to fall into a steel piece placing box 2, the anti-collision sponge layer 3 can prevent collision damage, and the whole using process of the whole novel lifting platform is realized.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims

1. A novel lifting platform is characterized in that: the steel part conveying device comprises a supporting base, a steel part placing box, an anti-collision sponge layer, a lifting hydraulic rod, a supporting connecting disc, a damping spring, a spring supporting upright post, a damping supporting plate and a steel part conveying device, wherein the steel part placing box is arranged on the supporting base, the anti-collision sponge layer is arranged in the steel part placing box, the lifting hydraulic rod is arranged on the supporting base, the supporting connecting disc is arranged on the lifting hydraulic rod, the damping spring is arranged on the supporting connecting disc, the spring supporting upright post is arranged on the supporting connecting disc, the damping supporting plate is arranged on the damping spring, the steel part conveying device is arranged on the damping supporting plate, the steel part conveying device comprises a supporting vertical plate, a driving motor, a rotating transmission shaft, a rotating transmission wheel, a transmission belt, a rotating driven wheel, a rotating driven shaft, a driven shaft seat, a rotating roller shaft and a steel part conveying belt, and the supporting vertical plate is arranged on the damping supporting plate, the driving motor is arranged on the supporting vertical plate, the rotating transmission shaft is arranged on the driving motor, the rotating transmission wheel is arranged on the rotating transmission shaft, the transmission belt is arranged on the rotating transmission wheel, the rotating driven wheel is arranged on the transmission belt, the rotating driven shaft is arranged on the rotating driven wheel, the driven shaft support is arranged on the rotating driven shaft, the rotating roller shaft is arranged on the rotating driven shaft, and the steel piece conveying belt is arranged on the rotating roller shaft.

2. The novel lifting platform as claimed in claim 1, characterized in that: the lifting hydraulic rod is arranged between the supporting base and the supporting connecting disc, the supporting connecting disc is arranged between the lifting hydraulic rod and the damping spring, the damping spring is arranged between the supporting connecting disc and the damping supporting plate, the damping supporting plate is arranged between the damping spring and the supporting vertical plate, the driving motor is arranged between the supporting vertical plate and the rotating transmission shaft, and the rotating transmission shaft is arranged between the driving motor and the rotating transmission wheel.

3. The novel lifting platform as claimed in claim 2, characterized in that: the lifting hydraulic rod is perpendicular to the supporting base, the supporting connection disc is perpendicular to the lifting hydraulic rod, the damping spring is perpendicular to the supporting connection disc, the spring support stand is perpendicular to the damping spring, the damping support plate is perpendicular to the damping spring, the supporting vertical plate is perpendicular to the damping support plate, the driving motor is perpendicular to the supporting vertical plate, the rotating transmission shaft is perpendicular to the rotating transmission wheel, the rotating transmission wheel is perpendicular to the rotating driven shaft, and the rotating roller shaft is perpendicular to the rotating driven shaft.

4. A novel lift platform as claimed in claim 3, wherein: the support base is the rectangle setting, the steel part is placed the case and is the cuboid setting, the support connection pad is circular setting, the shock attenuation backup pad is the rectangle setting, the support riser is the rectangle setting, the driven shaft support is the rectangle setting.

5. The novel lift table of claim 4, wherein: the lifting hydraulic rods are provided with four groups, the supporting connection discs are provided with four groups, the damping springs are provided with four groups, the spring supporting columns are provided with eight groups, the damping supporting plates are provided with two groups, the supporting vertical plates are provided with two groups, the rotating driven shafts are provided with two groups, the driven shaft supports are provided with four groups, and the rotating roller shafts are provided with two groups.