CN214088599U - Feeding and conveying device of solid smelting furnace - Google Patents

Abstract

The application relates to a feeding and conveying device of a solid smelting furnace, which comprises a bracket, wherein a first conveying mechanism, a lifting mechanism and a second conveying mechanism are sequentially arranged on the bracket along the conveying direction of a steel pipe; the lifting mechanism comprises a lifting frame, wherein a vertical lifting slide rail is arranged on the lifting frame, a lifting table is connected to the lifting slide rail in a sliding mode, a lifting driving mechanism for driving the lifting table to slide along the lifting slide rail is arranged on the lifting frame, a feeding component is arranged above the lifting table, and a plurality of partition plates are arranged on the lifting table. This application has the effect that reduces the steel pipe and blocks up, guarantees to carry the function normality.

Description

Feeding and conveying device of solid smelting furnace

Technical Field

The application relates to the field of steel pipe processing equipment, in particular to a feeding and conveying device of a solid smelting furnace.

Background

After the stainless steel pipe is initially formed, due to the fact that the temperature and the cooling speed of each section of cold rolling are different, the organization structure of the stainless steel pipe is inconsistent, lattice defects and organization components of the stainless steel pipe are inconsistent, hardening needs to be eliminated, continuous cold machining is facilitated, the corrosion resistance of the stainless steel is recovered to the optimal state, and generally a large amount of stainless steel pipes are fed into a solid melting furnace together for solid melting treatment.

At present, a feeding and conveying device is generally used for dropping a stainless steel pipe on the ground through a lifting device and placing the stainless steel pipe on a roller, and the stainless steel pipe is conveyed into a solid melting furnace through the rotation of the roller for solid melting treatment.

In view of the above-mentioned related art, the inventors found that when the steel pipes are placed on the roller during the hoisting process, the steel pipes are likely to be stacked in a crossing manner, so that the steel pipes cannot be normally transported.

SUMMERY OF THE UTILITY MODEL

In order to ensure the normality of steel pipe transportation, the application provides a feeding and conveying device of a solid smelting furnace.

The application provides a feeding conveyor of solid smelting pot adopts following technical scheme:

a feeding and conveying device of a solid smelting furnace comprises a support, wherein a first conveying mechanism, a lifting mechanism and a second conveying mechanism are sequentially arranged on the support along the conveying direction of a steel pipe;

the lifting mechanism comprises a lifting frame, wherein a vertical lifting slide rail is arranged on the lifting frame, a lifting table is connected to the lifting slide rail in a sliding mode, a lifting driving mechanism for driving the lifting table to slide along the lifting slide rail is arranged on the lifting frame, a feeding component is arranged above the lifting table, and a plurality of partition plates are arranged on the lifting table.

By adopting the technical scheme, after the steel pipe is fed onto the lifting table once through the first conveying mechanism and is separated by the partition plate, the lifting driving mechanism drives the lifting table to move upwards along the lifting slide rail, then the steel pipe is fed into the second conveying mechanism through the feeding assembly and is fed into the solid melting furnace through the second conveying mechanism; so that the steel pipes are separated from each other and are not contacted with each other during transportation, thereby ensuring the normality of the conveying function.

Optionally, the first conveying mechanism comprises a first feeding frame, a plurality of first conveying rollers are arranged on the first feeding frame, a first driving assembly used for driving the first conveying rollers to rotate is arranged on the support, and two limiting plates are arranged above the first conveying rollers.

Through adopting above-mentioned technical scheme, place single steel pipe on the first conveying roller between two limiting plates, then drive first conveying roller through first drive assembly and rotate to reach the effect of carrying the steel pipe.

Optionally, the distance between the two limiting plates gradually decreases along a direction approaching the lifting mechanism.

Through adopting above-mentioned technical scheme for the steel pipe receives the convergence restriction effect of limiting plate at transportation process, makes the steel pipe set up along direction of delivery, thereby reduces the steel pipe and appears crisscross phenomenon.

Optionally, the feeding assembly comprises a pushing rail arranged above the lifting table, a pushing plate is arranged on the pushing rail, and a pushing driving piece for driving the pushing plate to slide along the pushing rail is arranged on the lifting frame.

By adopting the technical scheme, the material pushing driving mechanism drives the material pushing plate to move along the material pushing rail, so that the steel pipe placed on the lifting table is pushed away from the lifting table, and the effect of conveying the steel pipe to the second conveying mechanism is achieved.

Optionally, the lifting mechanism further includes a traverse rail disposed on the ground, the lifting frame is slidably disposed on the traverse rail, and a traverse driving mechanism for driving the lifting frame to slide along the traverse rail is disposed on the lifting frame.

Through adopting above-mentioned technical scheme, drive the whole sideslip rail that moves along of lifting frame through sideslip actuating mechanism to two different division boards correspond with the limiting plate, thereby make each steel pipe kept apart and transported forward, thereby reduce the possibility of alternately blockking up between the steel pipe.

Optionally, the pushing driving part comprises a pushing motor arranged on the lifting frame, an output shaft of the pushing motor is connected with a pushing screw rod, and the pushing plate is in transmission connection with the pushing screw rod.

Through adopting above-mentioned technical scheme, drive through pushing away the material motor and push away the material lead screw and rotate to drive the scraping wings and remove along pushing away the material rail, thereby reach the effect of propelling movement steel pipe.

Optionally, the material pushing plate is provided with an avoiding groove for the partition plate to slide.

By adopting the technical scheme, the material pushing plate can be ensured to be in contact with the steel pipe, so that the normality of material pushing is ensured.

Optionally, the second conveying mechanism includes a second feeding frame, a plurality of second conveying rollers are arranged on the second feeding frame, a plurality of material separating plates are arranged above the second conveying rollers, the material separating plates and the partition plates are arranged in a one-to-one correspondence manner, and a second driving assembly for driving the second conveying rollers to rotate is arranged on the second feeding frame.

Through adopting above-mentioned technical scheme, every steel pipe sends into to the second conveying roller between two flitches through the pay-off subassembly on, then drives the rotation of second conveying roller through second drive assembly to reach the effect of carrying the steel pipe.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the conveying process of the steel pipes is completed through the first conveying mechanism, the lifting mechanism and the second conveying mechanism, and the steel pipes are isolated and conveyed in the conveying process, so that the conveying normality is guaranteed.

Drawings

Fig. 1 is a schematic structural diagram of an overall feeding and conveying device of a solid-state furnace according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a lifting mechanism of a feeding and conveying device of a solid-state furnace according to an embodiment of the present application.

Description of reference numerals: 1. a first conveying mechanism; 11. a first feeding frame; 12. a first conveying roller; 131. a first motor; 132. a first pulley; 14. a limiting plate; 2. a lifting mechanism; 21. traversing the rail; 22. a lifting frame; 23. a traverse driving mechanism; 24. a lifting table; 25. lifting the sliding rail; 26. a lift drive mechanism; 27. a partition plate; 28. a feeding assembly; 281. pushing the material rail; 282. a material pushing plate; 283. a material pushing driving member; 2831. a material pushing motor; 2832. pushing a material screw rod; 284. an avoidance groove; 3. a second conveying mechanism; 31. a second feeding frame; 32. a second conveying roller; 33. a second drive assembly; 331. a second motor; 332. a second pulley; 34. a material separating plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses feeding conveyor of solid smelting pot. Referring to fig. 1, the feeding and conveying device of the solid melting furnace includes a first conveying mechanism 1, a lifting mechanism 2, and a second conveying mechanism 3, which are sequentially arranged along the conveying direction of the steel pipe.

Referring to fig. 1, the first conveying mechanism 1 includes a first feeding frame 11, a plurality of first conveying rollers 12 are rotatably arranged on the first feeding frame 11, and the plurality of first conveying rollers 12 are arranged at equal intervals along the direction close to the lifting mechanism 2. The first feeding frame 11 is provided with a first driving assembly for driving the first conveying rollers 12 to rotate simultaneously, the first driving assembly comprises a first motor 131 fixed on the first feeding frame 11 and a belt pulley arranged on a rotating shaft of the first conveying rollers 12, an output shaft of the first motor 131 is connected with the belt pulley through belt transmission, and the belt pulleys on the two adjacent first conveying rollers 12 are connected through belt transmission. One of the first conveying rollers 12 is driven to rotate by the first motor 131, so as to drive the first conveying rollers 12 to rotate synchronously. A pair of vertical limiting plates 14 are arranged on the top surfaces of the first conveying rollers 12, and the relative distance between the two limiting plates 14 is gradually reduced along the direction close to the lifting mechanism 2. The steel pipe is prevented between the two limiting plates 14, then the first conveying rollers 12 drive the steel pipe to move towards the lifting mechanism 2 in a rotating mode, and the steel pipe is conveyed forwards from the vertical direction into the lifting mechanism 2 under the limiting effect of the limiting plates 14 in the forward conveying process.

Referring to fig. 1 and 2, the lifting mechanism 2 includes a traverse rail 21 fixed on the ground, and the traverse rail 21 is disposed perpendicular to the steel pipe conveying direction. The transverse moving rail 21 is provided with a lifting frame 22 in a sliding way, and the ground is provided with a transverse moving driving mechanism 23 for driving the lifting frame 22 to transversely move the transverse moving rail 21. The transverse moving driving mechanism 23 is a stepping motor fixed on the ground, and an output shaft of the motor is connected with the lifting frame 22 through a ball screw mechanism, so that the stepping motor rotates to drive the transverse moving frame to slide along the transverse moving rail 21. The lifting frame 22 is fixed with a vertical lifting slide rail 25, the lifting slide rail 25 is provided with a lifting table 24 in a sliding manner, the lifting frame 22 is provided with a lifting driving mechanism 26 for driving the lifting table 24 to slide along the lifting slide rail 25, the lifting driving mechanism is a vertical upward hydraulic telescopic cylinder fixed on the lifting frame 22, a telescopic rod of the hydraulic telescopic cylinder is fixedly connected with the lifting table 24, and the hydraulic telescopic cylinder drives the lifting table 24 to move along the lifting slide rail 25.

Referring to fig. 1 and 2, a plurality of partition plates 27 are fixed on the top surface of the lifting table 24 at equal intervals, and the partition plates 27 are arranged along the steel pipe conveying direction. The distance between two adjacent partition plates 27 is greater than the minimum distance between two limit plates 14 to facilitate the feeding of the steel pipes into the two partition plates 27. A feeding assembly 28 for pushing the steel pipes on the lifting table 24 into the second conveying mechanism 3 is arranged on the lifting frame 22 above the lifting table 24. The feeding assembly 28 includes a pushing rail 281 fixed at the bottom of the lifting frame 22, and the pushing rail 281 is disposed along the steel pipe conveying direction. The pushing rail 281 is provided with a pushing plate 282, the lifting frame 22 is provided with a pushing driving member 283 for driving the pushing plate 282 to move along the pushing rail 281, the pushing driving member 283 comprises a pushing motor 2831 fixed on the lifting frame 22, the lifting frame 22 is rotatably provided with a pushing screw 2832, an output end of the pushing motor 2831 is connected with the pushing screw 2832, and the pushing plate 282 is in transmission connection with the pushing screw 2832. The pusher motor 2831 drives the pusher screw 2832 to rotate, so as to drive the pusher plate 282 to move along the pusher rail 281. The ejector plate 282 is provided with an escape groove 284 for the partition plate 27 to move, so that the ejector plate 282 can be inserted into the partition plate 27, the ejector plate 282 can be ensured to be in contact with the steel pipe, and the normality of ejection is ensured.

Referring to fig. 1, the second conveying mechanism 3 includes a second feeding frame 31, a plurality of second conveying rollers 32 are rotatably disposed on the second feeding frame 31, the plurality of second conveying rollers 32 are disposed at equal intervals along the conveying direction of the steel pipes, and the distance between the upper top surfaces of the second conveying rollers 32 and the ground is greater than the distance between the upper top surfaces of the first conveying rollers 12 and the ground. The second feeding frame 31 is provided with a second driving assembly 33 for driving the plurality of second conveying rollers 32 to rotate simultaneously, the second driving assembly 33 comprises a second motor 331 fixed on the second feeding frame 31 and a second belt pulley 332 arranged on a rotating shaft of the second conveying rollers 32, an output shaft of the second motor 331 is connected with the second belt pulley 332 through belt transmission, and the second belt pulleys 332 on two adjacent second conveying rollers 32 are connected through belt transmission. One of the second conveying rollers 32 is driven to rotate by the second motor 331, so as to drive the plurality of second conveying rollers 32 to rotate synchronously. A supporting beam fixed on the second feeding frame 31 is arranged above the second conveying roller 32, a plurality of material separating plates 34 are fixed on the supporting beam, and the distance between every two adjacent material separating plates 34 is the same as the distance between every two adjacent separating plates 27, so that the material separating plates 34 and the separating plates 27 are arranged in a one-to-one correspondence manner. So that the steel pipes on the lifting table 24 are pushed by the material pushing plate 282 into the space between the two material separating plates 34, and then conveyed to the solid melting furnace by the second conveying rollers 32.

The implementation principle of the feeding and conveying device of the solid melting furnace in the embodiment of the application is as follows: firstly, the steel pipe is placed on the first conveying roller 12, the first driving assembly drives the steel pipe to move forwards, the steel pipe is limited by the limiting plate 14 while moving forwards and then enters between the two partition plates 27 on the lifting table 24, then the transverse driving mechanism 23 drives the lifting table 24 to move transversely so that the other two partition plates 27 are aligned with the limiting plate 14, and then the steel pipe is conveyed to the lifting table 24. When the partition plate 27 on the lifting table 24 is filled up, the lifting table 24 is moved upward by the lifting drive mechanism 26 so that the lifting table 24 is flush with the upper surface of the second conveying roller 32. Then, the transverse pushing plate is driven by the transverse driving mechanism 23, the steel pipe on the transverse pushing plate is pushed onto the second conveying roller 32, and then the second conveying driving assembly drives the second conveying roller 32 to rotate, so that the steel pipe on the second conveying roller 32 is conveyed into the solid melting furnace. Therefore, in the process of conveying the steel pipes, the steel pipes are separated and conveyed without cross blockage, and the normality of the conveying function is ensured.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A feed delivery apparatus for a solid-state furnace, characterized by: the steel pipe conveying device comprises a support, wherein a first conveying mechanism (1), a lifting mechanism (2) and a second conveying mechanism (3) are sequentially arranged on the support along the steel pipe conveying direction;

lifting mechanism (2) are including lifting frame (22), be provided with vertical lifting slide rail (25) on lifting frame (22), sliding connection has lifting platform (24) on lifting slide rail (25), be provided with drive lifting platform (24) on lifting frame (22) along the gliding lifting actuating mechanism (26) of lifting slide rail (25), lifting platform (24) top is provided with pay-off subassembly (28), be provided with a plurality of division boards (27) on lifting platform (24).

2. The feed delivery apparatus for a solid-state furnace of claim 1, wherein: first conveying mechanism (1) includes first pay-off frame (11), be provided with a plurality of first conveying roller (12) on first pay-off frame (11), be provided with on the support and be used for driving first conveying roller (12) pivoted first drive assembly, it is a plurality of first conveying roller (12) top is provided with two limiting plates (14).

3. The feed delivery apparatus for a solid-state furnace as set forth in claim 2, wherein: the distance between the two limiting plates (14) is gradually reduced along the direction close to the lifting mechanism (2).

4. The feed delivery apparatus for a solid-state furnace of claim 1, wherein: the feeding assembly (28) comprises a material pushing rail (281) arranged above the lifting platform (24), a material pushing plate (282) is arranged on the material pushing rail (281), and a material pushing driving piece (283) for driving the material pushing plate (282) to slide along the material pushing rail (281) is arranged on the lifting frame (22).

5. The feed delivery apparatus for a solid-state furnace as set forth in claim 4, wherein: the lifting mechanism (2) further comprises a transverse moving rail (21) arranged on the ground, the lifting frame (22) is arranged on the transverse pushing rail in a sliding mode, and a transverse moving driving mechanism (23) for driving the lifting frame (22) to slide along the transverse moving rail (21) is arranged on the lifting frame (22).

6. The feed delivery apparatus for a solid-state furnace as set forth in claim 5, wherein: the material pushing driving piece (283) comprises a material pushing motor (2831) arranged on the lifting frame (22), an output shaft of the material pushing motor (2831) is connected with a material pushing screw rod (2832), and the material pushing plate (282) is in transmission connection with the material pushing screw rod (2832).

7. The feed delivery apparatus for a solid-state furnace as set forth in claim 6, wherein: the material pushing plate (282) is provided with an avoiding groove (284) for the partition plate (27) to slide.

8. The feed delivery apparatus for a solid-state furnace of claim 1, wherein: the second conveying mechanism (3) comprises a second feeding frame (31), a plurality of second conveying rollers (32) are arranged on the second feeding frame (31), a plurality of material separating plates (34) are arranged above the second conveying rollers (32), the material separating plates (34) and the separating plates (27) are arranged in a one-to-one correspondence mode, and second driving assemblies (33) for driving the second conveying rollers (32) to rotate are arranged on the second feeding frame (31).

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