CN220497962U - Loading attachment of round steel peeler - Google Patents

Abstract

The utility model relates to a feeding device of a round steel peeling machine, which comprises a roller frame, wherein a plurality of feeding rollers are arranged on the roller frame, the feeding device also comprises two portal frames crossing from the upper part of the roller frame, a first cross beam is arranged between the two portal frames in a crossing manner, two ends of the first cross beam are respectively arranged on the two portal frames in a sliding manner, two ends of the first cross beam are respectively driven by two first driving mechanisms, two longitudinal beams capable of sliding vertically are arranged on the first cross beam in a sliding manner, the longitudinal beams are driven by a second driving mechanism, the lower ends of the two longitudinal beams are connected with the second cross beam, a plurality of hook plates are fixedly connected on the second cross beam, one side of the roller frame is provided with a material placing frame, a plurality of material placing plates are vertically arranged on the material placing frame, and the lower ends of the hook plates are bent towards the direction of the material placing frame to form an arc shape. The feeding device of the round steel peeling machine enables steel to be in a stable state in the feeding process, reduces the impact of the steel on the feeding roller in the feeding process, reduces the noise in the feeding process, and prolongs the service life of the feeding roller.

Description

Loading attachment of round steel peeler

Technical Field

The utility model relates to the technical field of steel pipe production, in particular to a feeding device of a round steel peeler.

Background

Round steel is a base material for producing a seamless steel pipe, and before the round steel is processed into the seamless steel pipe, an oxide layer and impurities on the surface of the round steel are required to be stripped, and the operation is generally completed by a stripper.

The peeling machine mainly comprises a feeding device, a peeling device and a discharging device, wherein the feeding device is used for conveying steel materials to the feeding device one by one, the main component of the peeling machine is a feeding roller, in the prior art, the steel materials are generally rolled onto the feeding roller through a turning plate, but because the steel materials have larger mass, the steel materials can cause larger impact on the feeding roller when rolling onto the feeding roller, larger noise is generated, and the service life of the feeding roller is shortened.

The present utility model has been made in view of the above problems.

Disclosure of Invention

The utility model provides a feeding device of a round steel peeling machine, which solves the problems existing in the use process of the prior art.

The technical scheme of the utility model is realized as follows:

the utility model provides a loading attachment of round steel peeler, includes the gyro wheel frame, be provided with a plurality of pay-off gyro wheels on the gyro wheel frame, still include two stride from the gyro wheel frame top and with the perpendicular portal frame of gyro wheel frame's length direction, two stride between the portal frame be equipped with a plurality of and gyro wheel frame length direction parallel first crossbeams, first crossbeam both ends slide respectively set up on two portal frames and first crossbeam both ends are driven by two first actuating mechanism respectively, slide on the first crossbeam and be provided with two vertically slidable longerons, the longeron is driven by the second actuating mechanism, two the longeron lower extreme is connected with the second crossbeam with gyro wheel frame length direction parallel, fixedly connected with a plurality of hook plates on the second crossbeam, gyro wheel frame one side is provided with puts the work or material rest, it is circular-arc to put the work or material rest to put on the work or material rest to erect, hook plate lower extreme is crooked to put the work or material rest direction and is curved.

Preferably, the first driving mechanism comprises a sliding frame and a first motor, a first linear sliding rail perpendicular to the length direction of the roller frame is fixedly connected to the upper end face of the portal frame, the sliding frame is fixedly connected to a sliding seat of the first linear sliding rail, the end portion of the first cross beam is fixedly connected to the sliding frame, a rack parallel to the first linear sliding rail is fixedly connected to the upper end face of the portal frame, and the first motor is arranged on the sliding frame, and an output shaft of the first motor downwards penetrates out of the sliding frame to be connected with a gear meshed with the rack.

Preferably, the second driving mechanism comprises a fixed seat, a screw rod and a second motor, wherein the longitudinal beam is a hollow beam body inside, a sliding groove is formed in the face, facing the first cross beam, of the longitudinal beam, a vertical second linear sliding rail is fixedly connected to the face, facing the first cross beam, of the longitudinal beam, a sliding seat of the second linear sliding rail is fixedly connected to the first cross beam, the fixed seat is fixedly connected to the first cross beam and penetrates through the sliding groove to extend into the interior of the longitudinal beam, the second motor is arranged at the upper end of the longitudinal beam, an output shaft of the second motor extends into the interior of the longitudinal beam, and the screw rod is fixedly connected to the output shaft of the second motor in a screwed connection with the fixed seat.

Preferably, the upper end face of the end part of the material placing plate facing the roller frame is inclined downwards to form an inclined surface, and the end part of the inclined surface extends upwards to form a material blocking part.

Preferably, a plurality of apron conveying mechanisms with conveying directions perpendicular to the length direction of the roller frames are arranged between a plurality of material placing plates on the material placing frame, a plurality of stirring blocks which are distributed at intervals are fixedly connected to the apron of the apron conveying mechanism, and the upper end faces of the stirring blocks are higher than the upper end faces of the material placing plates.

Preferably, a guide seat is arranged at the end part of the roller frame, and a guide hole aligned with the feeding direction of the feeding roller is formed in the guide seat.

Preferably, the guide hole is chamfered towards the port of the feeding roller to form a transition hole with a trapezoid cross section.

In summary, the beneficial effects of the utility model are as follows: the steel is driven to translate through the driving hook plate to realize translational feeding from the material placing plate to the material feeding roller, and is in a stable state in the feeding process, so that the impact of the steel to the material feeding roller in the feeding process is reduced, the noise in the feeding process is reduced, and the service life of the material feeding roller is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only some embodiments of the utility model, and that other drawings can be obtained according to these drawings without inventive faculty for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the bottom view of FIG. 1;

FIG. 3 is an enlarged schematic view of FIG. 2 at A;

FIG. 4 is a schematic cross-sectional view taken along the direction B-B in FIG. 1;

FIG. 5 is an enlarged schematic view of FIG. 4 at C;

fig. 6 is an enlarged schematic view at D in fig. 4.

In the figure: 1. a roller frame; 2. a portal frame; 3. a first cross beam; 4. a first driving mechanism; 41. a carriage; 42. a first motor; 43. a first linear slide rail; 44. a rack; 45. a gear; 5. a longitudinal beam; 51. a sliding groove; 6. a second driving mechanism; 61. a fixing seat; 62. a screw rod; 63. a second motor; 64. the second linear slide rail; 7. a second cross beam; 8. a hook plate; 9. a material placing frame; 10. a material placing plate; 101. an inclined surface; 102. a material blocking part; 11. a feeding roller; 12. a apron conveying mechanism; 13. a guide seat; 131. a guide hole; 132. a transition hole; 14. a notch; 15. and (5) steel.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to fig. 1 to 6 of the embodiments of the present utility model, and it is obvious that the described embodiments are only some embodiments of the present utility model, but not all embodiments. 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.

As shown in the figure, a loading attachment of round steel peeler, including gyro wheel frame 1, be provided with a plurality of feeding roller 11 on the gyro wheel frame 1, feeding roller 11 is driven by actuating mechanism and rolls in order to carry steel 15, and this actuating mechanism is prior art, does not do too much in here and repeating the description, still includes two from gyro wheel frame 1 top stride and with gyro wheel frame 1's length direction vertically portal frame 2, two stride between portal frame 2 be equipped with gyro wheel frame 1 length direction parallel first crossbeam 3, first crossbeam 3 both ends slide respectively set up on two portal frames 2 and first crossbeam 3 both ends are driven by two first actuating mechanism 4 respectively, slide on first crossbeam 3 and be provided with two vertically slidable longerons 5, longeron 5 is driven by second actuating mechanism 6, two longeron 5 lower extreme be connected with gyro wheel frame 1 length direction parallel second crossbeam 7, fixedly connected with a plurality of hook plates 8 on the second crossbeam 7, gyro wheel 1 one side is provided with a plurality of material placing frame 9, be equipped with material placing frame 9 and take the shape with hook plate 10 and place the hook plate and take the shape to put down in a plurality of arc with roller frame 1 length direction.

Specifically, the first driving mechanism 4 includes a sliding frame 41 and a first motor 42, a first linear sliding rail 43 perpendicular to the length direction of the roller frame 1 is fixedly connected to the upper end surface of the portal frame 2, the sliding frame 41 is fixedly connected to a sliding seat of the first linear sliding rail 43, the end portion of the first cross beam 3 is fixedly connected to the sliding frame 41, a rack 44 parallel to the first linear sliding rail 43 is fixedly connected to the upper end surface of the portal frame 2, the first motor 42 is arranged on the sliding frame 41, an output shaft of the first motor 42 penetrates out of the sliding frame 41 downwards and is connected with a gear 45 meshed with the rack 44, the first motor 42 drives the gear 45 to rotate, and the gear 45 enables the sliding frame 41 to slide on the first linear sliding rail 43 along the direction perpendicular to the length direction of the roller frame 1 through cooperation with the rack 44, so that the first cross beam 3 is driven to move along the direction perpendicular to the length direction of the roller frame 1.

Specifically, the second driving mechanism 6 includes a fixed seat 61, a screw rod 62 and a second motor 63, the longitudinal beam 5 is a hollow beam body inside, the surface of the longitudinal beam 5 facing the first cross beam 3 is provided with a sliding groove 51, the surface of the longitudinal beam 5 facing the first cross beam 3 is fixedly connected with a vertical second linear sliding rail 64, a sliding seat of the second linear sliding rail 64 is fixedly connected to the first cross beam 3, the fixed seat 61 is fixedly connected to the first cross beam 3 and penetrates through the sliding groove 51 to extend into the longitudinal beam 5, the second motor 63 is arranged at the upper end of the longitudinal beam 5, an output shaft of the screw rod 62 is fixedly connected to the output shaft of the second motor 63 and is in threaded connection with the fixed seat 61, the first motor 42 drives the screw rod 62 to rotate, and the screw rod 62 is matched with the fixed seat 61 to enable the second linear sliding rail 64 to slide on the first cross beam 3 along the vertical direction, so as to drive the longitudinal beam 5 to move on the first cross beam 3 along the vertical direction.

Specifically, the upper end surface of the end portion of the material placing plate 10 facing the roller frame 1 is inclined downward to form an inclined surface 101, and the end portion of the inclined surface 101 extends upward to form a material blocking portion 102.

In the above embodiment, the steel 15 is placed on the material placing plate 10 in parallel, the steel 15 closest to the roller frame 1 rolls on the cut inclined plane and is limited by the material blocking part 102 to be kept on the material placing plate 10, the first cross beam 3 is driven by the first driving mechanism 4 to move towards the roller frame 1, the longitudinal beam 5, the second cross beam 7 and the hook plate 8 are driven to move towards the roller frame 1, the hook plate 8 is positioned above the position between the roller frame 1 and the material placing frame 9, then the longitudinal beam 5 is driven by the second driving mechanism 6 to move downwards, the second cross beam 7 and the hook plate 8 are driven to move downwards, the hook plate 8 passes through the position between the roller frame 1 and the material placing frame 9 and the bent part of the hook plate 8 is lower than the lower end face of the steel 15 on the material placing plate 10, then the first cross beam 3 is driven by the first driving mechanism 4 to drive the hook plate 8 to move towards the material placing frame 9, the hook plate 8 passes through the position between two adjacent material placing plates 10, the vertical part of the hook plate 8 is attached to the steel 15, the bending part of the hook plate 8 is positioned below the steel 15 arranged on the inclined surface 101, then the longitudinal beam 5 is driven by the second driving mechanism 6 to drive the hook plate 8 to move upwards so that the bending part of the hook plate 8 hooks the steel 15 arranged on the inclined surface 101 and drive the steel 15 to move upwards until the lower end surface of the steel 15 is higher than the upper end surface of the feeding roller 11, then the first cross beam 3 is driven by the first driving mechanism 4 to drive the hook plate 8 to move towards the roller frame 1 so that the steel 15 on the hook plate 8 is positioned above the roller frame 1, then the longitudinal beam 5 is driven by the second driving mechanism 6 to drive the steel 15 on the hook plate 8 to move downwards so that the hook plate 8 passes between the adjacent feeding rollers 11 so that the steel 15 is arranged on the feeding roller 11, the hook plate 8 is driven by the longitudinal beam 5 to move downwards, so that the bending part of the hook plate 8 leaves the steel 15 arranged on the feeding roller 11, then the first cross beam 3 is driven by the first driving mechanism 4 to drive the hook plate 8 to move away from the roller frame 1, so that the hook plate 8 withdraws from between the adjacent feeding rollers 11 (in the embodiment, the roller frame 1 is provided with two supporting plates positioned at two sides of a plurality of feeding rollers 11, in order to enable the hook plate 8 to withdraw from between the adjacent feeding rollers 11, the supporting plates are provided with notches 14 for the hook plate 8 to pass through), so that the steel 15 loading operation is completed, in the steel 15 loading process, the steel 15 is driven to realize translational loading from the material placing plate 10 to the feeding roller 11 by driving the hook plate 8 to translate, and in the loading process, the steel 15 is in a stable state, thereby reducing the impact of the steel 15 on the feeding roller 11 in the loading process, reducing the noise in the loading process, and prolonging the service life of the feeding roller 11.

Preferably, a plurality of apron conveying mechanisms 12 (the apron conveying mechanisms 12 are common prior art and are not described in detail herein) with conveying directions perpendicular to the length direction of the roller frame 1 are arranged between a plurality of material placing plates 10 on the material placing frame 9, a plurality of stirring blocks which are distributed at intervals are fixedly connected to the apron of the apron conveying mechanisms 12, the upper end surfaces of the stirring blocks are higher than the upper end surfaces of the material placing plates 10, when the steel 15 is placed on the material placing plates 10, the steel 15 is positioned between two adjacent stirring blocks and limited by the stirring blocks, so that the steel 15 is in a stable state when placed on the material placing plates 10, rolling and impacting of the steel 15 are reduced, thereby reducing noise in the feeding process, and when the steel 15 positioned on the inclined plane 101 is placed on the material placing plates 8 to the feeding roller 11, the apron conveying mechanisms 12 drive the stirring blocks to move towards the roller frame 1, and drive the steel 15 placed on the material placing plates 10 to move towards one end of the roller frame 1, and enable the steel 15 closest to the steel 15 on the inclined plane 101 to be on the inclined plane 101, thereby reducing noise in the running process of the steel 15 when the steel 15 is placed on the inclined plane 101, and the impact noise is reduced, thereby reducing the running noise in the process of the material placing plate and the material placing process.

Preferably, the end of the roller frame 1 is provided with a guide seat 13, a guide hole 131 aligned with the feeding direction of the feeding roller 11 is formed in the guide seat 13, the steel 15 can roll on the feeding roller 11 and move towards the feeding mechanism of the peeling machine after being fed onto the feeding roller 11, before the steel 15 enters the feeding mechanism, the steel 15 firstly passes through the guide hole 131 in the guide seat 13, and the guide hole 131 is aligned with the feeding mechanism of the peeling machine, so that the guide hole 131 plays a guiding role when the steel 15 moves towards the feeding mechanism, and the steel 15 is ensured to be accurately conveyed into the feeding mechanism.

Preferably, the guide hole 131 is chamfered toward the port of the feeding roller 11 to form a transition hole 132 with a trapezoid cross section, and the transition hole 132 facilitates the steel 15 to penetrate into the guide hole 131 when moving along with the feeding roller 11.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (7)

1. The utility model provides a loading attachment of round steel peeler, includes gyro wheel frame (1), be provided with a plurality of pay-off gyro wheels (11), its characterized in that on gyro wheel frame (1): still include two portal frames (2) that stride from roller frame (1) top and with the length direction of roller frame (1), two stride between portal frames (2) be equipped with roller frame (1) length direction parallel first crossbeam (3), first crossbeam (3) both ends slide respectively set up on two portal frames (2) and first crossbeam (3) both ends receive two first actuating mechanism (4) drive respectively, slide on first crossbeam (3) and be provided with two vertically slidable longerons (5), longeron (5) are driven by second actuating mechanism (6), two longeron (5) lower extreme be connected with roller frame (1) length direction parallel second crossbeam (7), fixedly connected with a plurality of hook plates (8) on second crossbeam (7), roller frame (1) one side is provided with puts work or material rest (9), it is equipped with a plurality of and roller frame (1) length direction vertically to put work or material rest (10) on the material rest (9), hook plate (8) are curved to the lower extreme and are the arc to put work or material rest (9).

2. The feeding device of a round steel peeler according to claim 1, wherein: the first driving mechanism (4) comprises a sliding frame (41) and a first motor (42), a first linear sliding rail (43) perpendicular to the length direction of the roller frame (1) is fixedly connected to the upper end face of the portal frame (2), the sliding frame (41) is fixedly connected to a sliding seat of the first linear sliding rail (43), the end portion of the first cross beam (3) is fixedly connected to the sliding frame (41), a rack (44) parallel to the first linear sliding rail (43) is fixedly connected to the upper end face of the portal frame (2), and the first motor (42) is arranged on the sliding frame (41) and an output shaft of the first motor (42) downwards penetrates out of the sliding frame (41) to be connected with a gear (45) meshed with the rack (44).

3. The feeding device of a round steel peeler according to claim 2, wherein: the second driving mechanism (6) comprises a fixed seat (61), a screw rod (62) and a second motor (63), wherein the longitudinal beam (5) is a hollow beam body inside, a sliding groove (51) is formed in the surface of the longitudinal beam (5) facing the first transverse beam (3), a vertical second linear sliding rail (64) is fixedly connected to the surface of the longitudinal beam (5) facing the first transverse beam (3), a sliding seat of the second linear sliding rail (64) is fixedly connected to the first transverse beam (3), the fixed seat (61) is fixedly connected to the first transverse beam (3) and penetrates through the sliding groove (51) to extend into the longitudinal beam (5), the second motor (63) is arranged at the upper end of the longitudinal beam (5) and an output shaft extends into the longitudinal beam (5), and the screw rod (62) is fixedly connected to an output shaft of the second motor (63) and is in threaded connection with the fixed seat (61).

4. A loading attachment of a round steel peeler as claimed in claim 3, wherein: the material placing plate (10) is inclined downwards towards the upper end face of the end part of the roller frame (1) to form an inclined surface (101), and the end part of the inclined surface (101) extends upwards to form a material blocking part (102).

5. The loading attachment of a round steel peeler of claim 4, wherein: the automatic feeding device is characterized in that a plurality of apron conveying mechanisms (12) with conveying directions perpendicular to the length direction of the roller frames (1) are arranged between a plurality of material placing plates (10) on the material placing frame (9), a plurality of stirring blocks (121) which are distributed at intervals are fixedly connected to the apron of the apron conveying mechanisms (12), and the upper end faces of the stirring blocks (121) are higher than the upper end faces of the material placing plates (10).

6. The loading attachment of a round steel peeler of claim 5, wherein: the end part of the roller frame (1) is provided with a guide seat (13), and a guide hole (131) aligned with the feeding direction of the feeding roller (11) is formed in the guide seat (13).

7. The loading attachment of a round steel peeler of claim 6, wherein: the guide hole (131) is chamfered towards the port of the feeding roller (11) to form a transition hole (132) with a trapezoid cross section.