CN111958044A - Continuous sawing device for cast ingots - Google Patents

Abstract

The invention provides a continuous sawing device for cast ingots, which comprises an underframe, a workbench, a support, a lifting cylinder, a shell, a motor, a slide rail, a slide block, a sawing blade, a driven connecting rod and a driving connecting rod, wherein the workbench is connected inside the underframe in a sliding manner; the work bench is connected inside the bottom frame through a feeding mechanism in a sliding mode, and cast ingots are continuously sawed through the formed sawing mechanism until the sawing operation is completed in sequence.

Description

Continuous sawing device for cast ingots

Technical Field

One or more embodiments of the present specification relate to the field of ingot cutting equipment, and in particular, to a continuous sawing device for an ingot.

Background

The process of pouring molten steel into ingot mould through ladle and condensing into ingot, also called die casting, is the last procedure of steel making. The qualified molten steel produced by the steel-making furnace must be cast into steel ingots or casting blanks with certain section shapes and sizes, and then can be subjected to plastic processing to obtain steel products with various purposes. The ingot casting comprises a series of processes from tapping of a steel furnace (or finishing of external refining) to demoulding of the steel ingot and conveying to a soaking pit of a blooming mill, namely preparation before casting, demoulding, finishing of the steel ingot or hot conveying and the like.

The ingot casting need saw cut the operation after finishing processing, but traditional saw cut equipment can't saw cut the ingot casting in succession, and efficiency is lower, to sum up, the problem that the aforesaid appears is solved to the device of saw cutting in succession of an ingot casting that now provides in this application.

Disclosure of Invention

In view of the above, an object of one or more embodiments of the present disclosure is to provide a continuous sawing device for ingot to solve the problems of the background art.

Based on the above purpose, one or more embodiments of the present specification provide a continuous sawing device for ingot casting, which includes a device main body, a sawing mechanism and a feeding mechanism, wherein the device main body includes a bottom frame, a workbench, a support and a lifting cylinder, the workbench is slidably connected inside the bottom frame, the support is disposed at an intermediate position on the bottom frame, the cylinder is disposed at an inner top surface of the support, the sawing mechanism is fixedly connected with an output shaft of the lifting cylinder, the sawing mechanism includes a housing, a motor, a slide rail, a slide block, a sawing blade, a driven connecting rod and a driving connecting rod, the housing is fixedly connected with the output shaft of the lifting cylinder, the motor is located inside the housing, the slide rail is disposed at the top of the housing, the slide block is slidably connected inside the housing, the sawing blade is slidably connected inside the slide rail through a slide seat, and the slide seat is fixedly connected with, one end of the driven connecting rod is rotatably connected to the sliding block, one end of the driving connecting rod is rotatably connected with the other end of the driven connecting rod, and the other end of the driving connecting rod is fixedly arranged on the output end of the motor; the workbench is connected inside the bottom frame in a sliding mode through a feeding mechanism.

Preferably, four edges of the lower end face of the underframe are provided with shock absorption support legs.

Preferably, the length of the driving link is less than that of the driven link.

Preferably, the sawing mechanism further comprises a transmission plate and a pressurizing spring, the transmission plate is fixedly connected with the output end of the lifting cylinder, and the shell is tightly connected with the transmission plate through the pressurizing spring.

More preferably, the pressure boost spring is equipped with a plurality of, a plurality of pressure boost spring equidistance is arranged between driving plate and shell.

Preferably, feed mechanism includes transfer line, roller, bar groove, driving machine and slip table, slip table and workstation fixed connection, a plurality of bar grooves of having arranged of terminal surface equidistance under the slip table, the driving machine sets up inside the chassis, the fixed transfer line that is provided with on the output of driving machine, the one end rotation that the driving machine was kept away from to the transfer line is connected with the roller, the roller is located bar inslot portion.

More preferably, feed mechanism includes semicircle board and a plurality of half slot, a half slot has been seted up between per two bar grooves on the terminal surface under the slip table, the semicircle board sets up on the output of motor, the semicircle board is located arbitrary half slot inside.

Preferably, be equipped with stop gear on the chassis, stop gear includes spacing, through-hole and bolt, spacing is U type structure, a plurality of through-holes have been seted up in the run-through of spacing both sides, the bolt passes arbitrary through-hole and the detachable fixed connection of workstation.

More preferably, the limiting mechanisms are provided with a plurality of limiting mechanisms which are equidistantly arranged on the workbench.

From the above, it can be seen that the beneficial effects of the present invention are: according to the continuous sawing device, a sawing mechanism consisting of a shell, a motor, a sliding rail, a sliding block, a sawing blade, a driven connecting rod and a driving connecting rod is driven by a cylinder to perform continuous sawing on an ingot until the sawing operation is completed in sequence;

the friction force between the sawing blade and the ingot casting product is ensured through the transmission plate and the pressurizing spring in a pressurizing mode;

according to the continuous feeding device, the purpose of continuous feeding is achieved through the transmission rod, the rollers, the strip-shaped grooves, the driving machine and the sliding table, the position of an ingot is not required to be adjusted manually in a conveying mode, and the sawing efficiency is improved;

according to the invention, through the limiting frame, the through hole and the bolt, the cast ingot is limited by the design, manual positioning is not needed, and the sawing effect is ensured.

Drawings

In order to more clearly illustrate one or more embodiments or prior art solutions of the present specification, the drawings that are needed in the description of the embodiments or prior art will be briefly described below, and it is obvious that the drawings in the following description are only one or more embodiments of the present specification, and that other drawings may be obtained by those skilled in the art without inventive effort from these drawings.

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

FIG. 2 is a schematic view of the saw mechanism of the present invention;

FIG. 3 is a schematic structural view of a spacing mechanism according to the present invention;

FIG. 4 is a schematic structural view of a feeding mechanism of the present invention;

fig. 5 is a schematic structural view of the pressurizing spring of the present invention.

In the reference symbols: 1. a chassis; 2. a work table; 3. a lifting cylinder; 4. a sawing mechanism; 5. a support; 6. a feeding mechanism; 7. a limiting frame; 8. a drive plate; 9. a pressurizing spring; 10. a bolt; 11. a through hole; 41. an electric motor; 42. a driving connecting rod; 43. a driven connecting rod; 44. a slider; 45. a slide rail; 46. sawing a blade; 47. a connecting rod; 48. a housing; 61. a transmission rod; 62. a roller; 63. a strip-shaped groove; 64. a driver; 65. a semicircular groove; 66. and a sliding table.

Detailed Description

To make the objects, technical solutions and advantages of the present disclosure more apparent, the present disclosure is further described in detail below with reference to specific embodiments.

It is to be noted that unless otherwise defined, technical or scientific terms used in one or more embodiments of the present specification should have the ordinary meaning as understood by those of ordinary skill in the art to which this disclosure belongs. The use of "first," "second," and similar terms in one or more embodiments of the specification is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

Example one

Referring to fig. 1 and fig. 2, the present invention provides a technical solution: a continuous sawing device for cast ingots comprises a device body, a sawing mechanism 4 and a feeding mechanism 6, wherein the device body comprises a bottom frame 1, a workbench 2, a support 5 and a lifting cylinder 3, the workbench 2 is connected inside the bottom frame 1 in a sliding manner, the support 5 is arranged at the middle position on the bottom frame 1, the cylinder is arranged on the inner top surface of the support 5, the sawing mechanism 4 is fixedly connected with an output shaft of the lifting cylinder 3, the sawing mechanism 4 comprises a shell 48, a motor 41, a sliding rail 45, a sliding block 44, a sawing blade 46, a driven connecting rod 43 and a driving connecting rod 42, the shell 48 is fixedly connected with the output shaft of the lifting cylinder 3, the motor 41 is positioned inside the shell 48, the sliding rail 45 is arranged at the inner top of the shell 48, the sliding block 44 is connected inside the shell 48 in a sliding manner, the sawing blade 46 is connected inside the sliding rail 45 through a sliding seat, the sliding seat is fixedly connected with the sliding block 44, one end of the driven connecting rod 43 is rotatably connected to the sliding block 44, one end of the driving connecting rod 42 is rotatably connected with the other end of the driven connecting rod 43, and the other end of the driving connecting rod 42 is fixedly arranged at the output end of the motor 41; the workbench 2 is connected inside the underframe 1 in a sliding mode through the feeding mechanism 6, four edges of the lower end face of the underframe 1 are provided with shock absorption support legs, and the length of the driving connecting rod 42 is smaller than that of the driven connecting rod 43.

The working process is as follows: the ingot to be cut is placed on the workbench 2, the cylinder is operated, the output shaft of the cylinder drives the shell 48 to move downwards until the sawing blade 46 is contacted with the ingot, the motor 41 is operated, the output end of the motor 41 rotates to drive the driving connecting rod 42 to rotate, the driving connecting rod 42 and the driven connecting rod 43 form a connecting rod mechanism, the connecting rod mechanism drives the sliding seat to slide leftwards and rightwards in the sliding rail 45 in a reciprocating mode, the sliding seat drives the sawing blade 46 to move leftwards and rightwards, the ingot is subjected to sawing operation, the position of the shell 48 is adjusted through the cylinder in the sawing process, and therefore the sawing operation is completed.

Example two

As a preferable scheme of the first embodiment, please refer to fig. 5, the sawing mechanism 4 further includes a driving plate 8 and a pressurizing spring 9, the driving plate 8 is fixedly connected to the output end of the lifting cylinder 3, the housing 48 is tightly connected to the driving plate 8 through the pressurizing spring 9, the pressurizing springs 9 are provided in plurality, and the pressurizing springs 9 are equidistantly arranged between the driving plate 8 and the housing 48.

The working process is as follows: after the saw cutting blade 46 is contacted with the ingot, the output shaft of the cylinder continues to operate, the pressurizing spring 9 is driven to contract, and the pressurizing spring 9 pressurizes the saw cutting blade 46 due to the reset force of the pressurizing spring 9.

EXAMPLE III

As another preferable scheme of the first embodiment, referring to fig. 4, the feeding mechanism 6 includes a transmission rod 61, rollers 62, strip-shaped grooves 63, a driving machine 64, and a sliding table 66, the sliding table 66 is fixedly connected to the working table 2, a plurality of strip-shaped grooves 63 are equidistantly arranged on a lower end surface of the sliding table 66, the driving machine 64 is disposed inside the underframe 1, the transmission rod 61 is fixedly disposed on an output end of the driving machine 64, one end of the transmission rod 61, which is far away from the driving machine 64, is rotatably connected to the rollers 62, and the rollers 62 are located inside the strip-shaped grooves 63.

Feed mechanism 6 includes semicircle board and a plurality of semicircle grooves 65, a semicircle groove 65 has been seted up between per two bar grooves 63 on the terminal surface under the slip table 66, the semicircle board sets up on motor 41's output end, the semicircle board is located inside arbitrary semicircle groove 65.

The working process is as follows: after the primary sawing operation is completed, the driving machine 64 is operated, the output end of the driving machine 64 rotates to drive the transmission rod 61 to rotate, the transmission rod 61 drives the roller 62 to leave the inside of the strip-shaped groove 63, and enter the inside of the next strip-shaped groove 63 to drive the sliding table 66 to move, the sliding table 66 drives the workbench 2 to slide in the chassis 1, the chassis 1 slides to drive the ingot to slide, after the ingot slides to a proper position, the driving machine 64 stops to operate, the sawing operation continues, and continuous sawing is realized.

Example four

Referring to fig. 3, the chassis 1 is provided with a limiting mechanism, the limiting mechanism includes a limiting frame 7, through holes 11 and bolts 10, the limiting frame 7 is a U-shaped structure, two sides of the limiting frame 7 are provided with a plurality of through holes 11 in a penetrating manner, the bolts 10 pass through any through hole 11 and are detachably and fixedly connected with the workbench 2, the limiting mechanism is provided with a plurality of limiting mechanisms, and the plurality of limiting mechanisms are equidistantly arranged on the workbench 2.

The working process is as follows: the limiting frame 7 is fixed on the workbench 2 in a mode that the bolt 10 selectively penetrates through the through hole 11 and is fixed with the workbench 2, so that the limiting frame 7 is abutted against the cast ingot to generate force action and position the cast ingot.

It is intended that the one or more embodiments of the present specification embrace all such alternatives, modifications and variations as fall within the broad scope of the appended claims. Therefore, any omissions, modifications, substitutions, improvements, and the like that may be made without departing from the spirit and principles of one or more embodiments of the present disclosure are intended to be included within the scope of the present disclosure.

Claims (9)

1. A continuous sawing device for ingot casting, comprising a device body including:

a chassis (1);

the workbench (2), the workbench (2) is connected inside the underframe (1) in a sliding manner;

the bracket (5), the bracket (5) is arranged at the middle position on the underframe (1); and

the lifting cylinder (3) is arranged on the inner top surface of the bracket (5);

it is characterized by also comprising:

the sawing mechanism (4) is fixedly connected with an output shaft of the lifting cylinder (3);

the sawing mechanism (4) comprises:

the shell (48), the said shell (48) and output shaft of the lifting cylinder (3) are fixedly connected;

an electric motor (41), the electric motor (41) being located inside a housing (48);

the sliding rail (45) is arranged at the top in the shell (48);

a slider (44), the slider (44) being slidably connected inside the housing (48);

the sawing blade (46) is connected inside the sliding rail (45) in a sliding mode through a sliding seat, and the sliding seat is fixedly connected with the sliding block (44);

one end of the driven connecting rod (43) is rotatably connected to the sliding block (44); and

one end of the driving connecting rod (42) is rotatably connected with the other end of the driven connecting rod (43), and the other end of the driving connecting rod (42) is fixedly arranged on the output end of the motor (41);

still include feed mechanism (6), workstation (2) are inside through feed mechanism (6) sliding connection in chassis (1).

2. The continuous sawing device for ingot casting according to claim 1, characterized in that: four edges of the lower end face of the underframe (1) are provided with shock absorption support legs.

3. The continuous sawing device for ingot casting according to claim 1, characterized in that: the length of the driving connecting rod (42) is smaller than that of the driven connecting rod (43).

4. The continuous sawing device for ingot casting according to claim 1, characterized in that: saw cut mechanism (4) still include driving plate (8) and pressure boost spring (9), driving plate (8) and lift cylinder (3) output fixed connection, shell (48) are through pressure boost spring (9) and driving plate (8) zonulae occludens.

5. The continuous sawing device for ingot casting according to claim 4, characterized in that: the pressurizing springs (9) are provided with a plurality of pressurizing springs (9) which are arranged between the transmission plate (8) and the shell (48) at equal intervals.

6. The continuous sawing device for ingot casting according to claim 1, characterized in that: feed mechanism (6) are including transfer line (61), roller (62), bar groove (63), drive machine (64) and slip table (66), slip table (66) and workstation (2) fixed connection, a plurality of bar grooves (63) have been arranged to terminal surface equidistance under slip table (66), drive machine (64) set up inside chassis (1), fixed transfer line (61) that is provided with on the output of drive machine (64), the one end rotation that drive machine (64) were kept away from in transfer line (61) is connected with roller (62), roller (62) are located bar groove (63) inside.

7. The continuous sawing device for ingot casting according to claim 6, characterized in that: feed mechanism (6) include semicircle board and a plurality of semicircle groove (65), one semicircle groove (65) have been seted up between per two bar groove (63) on the terminal surface under slip table (66), the semicircle board sets up on the output of motor (41), the semicircle board is located inside arbitrary semicircle groove (65).

8. The continuous sawing device for ingot casting according to claim 1, characterized in that: be equipped with stop gear on chassis (1), stop gear includes spacing (7), through-hole (11) and bolt (10), spacing (7) are U type structure, a plurality of through-holes (11) have been run through to spacing (7) both sides, bolt (10) pass arbitrary through-hole (11) and the detachable fixed connection of workstation (2).

9. The continuous sawing device for ingot casting according to claim 8, characterized in that: the limiting mechanisms are provided with a plurality of limiting mechanisms which are equidistantly arranged on the workbench (2).

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