CN211331721U - Numerical control flame cutting workbench - Google Patents

Abstract

The utility model discloses a numerical control flame cutting workstation relates to flame cutting's technical field, when aiming at solving the slag of artifical clearance numerical control flame cutting machine bench adhesion, clearance inefficiency problem. It includes the workstation frame, locate the landing leg of workstation frame below and locate horizontal steel sheet and vertical steel sheet in the workstation frame, be equipped with the scarfing cinder device on the workstation, the scarfing cinder device is including sliding the slip table of locating on vertical frame, locate the bull stick between the slip table, drive bull stick pivoted hits the motor, connect the drive arrangement who hits the ball and drive slip table on the bull stick and slide along vertical frame, the bull stick is higher than horizontal steel sheet, the radius of rotation who hits the ball is greater than the longitudinal distance between bull stick and the horizontal steel sheet. The utility model discloses have the slag on the automatic clear numerical control flame cutting workstation, ensure the beneficial effect of numerical control flame cutting workstation to the accurate positioning of steel sheet.

Description

Numerical control flame cutting workbench

Technical Field

The utility model belongs to the technical field of the technique of flame cutting and specifically relates to a numerical control flame cutting workstation is related to.

Background

The numerical control flame cutting machine adopts high-temperature flame generated after oxygen-acetylene mixed gas sprayed from a cutting gun port is ignited, and the cutting gun is controlled by a computer to move on a steel plate according to the contour of a set blanking plane figure so as to finish the high-temperature fusing blanking of a required steel plate blank. Slag generated by flame cutting of the steel plate through high-temperature fusing can fall on the workbench, so that the workbench is uneven, and the steel plate is difficult to stably place. At present, the method for removing the high-temperature slag on the workbench usually adopts a manual striking mode to break the slag adhered on the workbench and clean the slag, and the manual slag removal is low in efficiency and high in labor intensity.

For example, utility model that bulletin number is CN205414661U discloses a numerical control flame cutting machine workstation, including workstation and fortune material mechanism, the workstation includes slide rail, slider, crossbeam and mesa, two the slide rail sets up two with parallel mode each other, two the slider is located two with mobilizable mode respectively on the slide rail, two are located respectively at the crossbeam both ends on the slider, the slide rail with the crossbeam sets up with mutually perpendicular's mode respectively, two is located to the mesa between the slide rail, the mesa includes vertically and horizontally staggered's horizontal steel sheet and vertical steel sheet.

In the working process of the numerical control flame cutting machine workbench, the slag is mainly adhered to the transverse steel plates and the longitudinal steel plates, if the workbench needs to be cleaned, the transverse steel plates and the longitudinal steel plates need to be cleaned one by one, and the efficiency is slower.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a numerical control flame cutting workstation, it has the slag on the automatic clear numerical control flame cutting workstation, ensures the beneficial effect of numerical control flame cutting workstation to the accurate positioning of steel sheet.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

a numerical control flame cutting workbench comprises a workbench frame, support legs arranged below the workbench frame, and a transverse steel plate and a longitudinal steel plate which are arranged in the workbench frame, the workbench frame comprises two vertical frames and two transverse frames which are vertical to each other and connected end to end, two ends of the transverse steel plate are connected to the longitudinal frame, two ends of the longitudinal steel plate are connected to the transverse frame, the working table is provided with a slag removing device, the slag removing device comprises sliding tables arranged on the longitudinal frames in a sliding manner, rotating rods arranged between the sliding tables, a beating motor for driving the rotating rods to rotate, beating balls connected on the rotating rods and a driving device for driving the sliding tables to slide along the longitudinal frames, the rotating rod is higher than the transverse steel plate, and the rotating radius of the hitting ball is larger than the longitudinal distance between the rotating rod and the transverse steel plate.

Through adopting above-mentioned technical scheme, the panel that needs the flame cut is placed and is cut on the workstation, when needs clear up the slag on the horizontal steel sheet, at first drive slip table removes through drive arrangement, make the bull stick be located one of them horizontal steel sheet directly over, then start and hit the beating motor, hit the continuous forward and reverse rotation of beating motor, it constantly controls the rotation and hits the horizontal steel sheet of its below to drive the ball of beating connected on the bull stick through the bull stick, thereby beat the slag on the steel sheet and peel off, the slag is clear away efficiently, numerical control flame workstation can keep lasting accurate positioning to panel.

The present invention may be further configured in a preferred embodiment as: a connecting rod is arranged between the hitting ball and the rotating rod, and the diameter of the connecting rod is smaller than that of the hitting ball.

Through adopting above-mentioned technical scheme, the connecting rod makes the distance grow between batting ball and the bull stick, and turning radius grow, and the batting ball is bigger to the dynamics of beating of horizontal steel sheet, and is better to the effect of peeling off of slag.

The present invention may be further configured in a preferred embodiment as: the connecting rod is rotatably connected to the rotating rod, and a limiting mechanism for limiting the rotating angle of the connecting rod is arranged between the connecting rod and the rotating rod.

Through adopting above-mentioned technical scheme, the bull stick can drive the connecting rod and hit the ball and rotate together through stop gear's spacing, simultaneously, hits to hit to beat the ball and can also cushion along the bull stick antiport after receiving the striking, avoids the connecting rod to receive to damage the rupture after the striking for a long time.

The present invention may be further configured in a preferred embodiment as: the rotating rod is provided with a rotating groove, a sleeve is arranged at one end, close to the rotating rod, of the connecting rod, the sleeve is sleeved in the rotating groove, the limiting mechanism comprises two limiting plates perpendicular to the rotating groove, and the connecting rod is arranged between the limiting plates.

Through adopting above-mentioned technical scheme, the connecting rod can be at the spacing inslot internal rotation relatively the bull stick, and simultaneously, the turned angle of limiting plate restriction connecting rod again has guaranteed that the connecting rod can enough rotate along with the bull stick together, can rotate relatively the bull stick again.

The present invention may be further configured in a preferred embodiment as: and elastic pieces are arranged between the two limiting plates and the connecting rod.

Through adopting above-mentioned technical scheme, the elastic component forms the buffering to the connecting rod at the connecting rod to the in-process that the limiting plate is close to for the slew velocity of connecting rod slows down gradually, has avoided taking place the rigidity striking between connecting rod and the limiting plate, prevents that the connecting rod from taking place to damage or rupture.

The present invention may be further configured in a preferred embodiment as: the elastic part is a spring, two ends of the spring are respectively connected to the connecting rod and the limiting plate, guide protrusions are arranged on two sides, close to the limiting plate, of the connecting rod, and the spring is sleeved on the guide protrusions.

Through adopting above-mentioned technical scheme, when the connecting rod is close to one of them limiting plate, one of them spring has the pulling force to the connecting rod, and another spring has a top thrust to the connecting rod for the connecting rod can slow down relative bull stick pivoted speed rapidly, in order to conveniently carry out next reverse action.

The present invention may be further configured in a preferred embodiment as: be equipped with two balls of hitting on same connecting rod, hit the ball and weld respectively in the connecting rod is close to the side of limiting plate.

Through adopting above-mentioned technical scheme, under the condition of not lengthening the axle center distance of hitting the ball and the pivot of bull stick, every is hit the height that hits the outstanding connecting rod of ball higher, prevents to hit before hitting the ball and contacting horizontal steel sheet, and the connecting rod is the condition emergence of contacting horizontal steel sheet at first, has guaranteed to hit the effect of hitting of horizontal steel sheet.

The present invention may be further configured in a preferred embodiment as: drive arrangement is including locating spout on the vertical frame, rotate connect in the screw rod and the drive at spout both ends the screw rod pivoted servo motor, the slip table slide set up in the spout and with threaded connection between the screw rod.

Through adopting above-mentioned technical scheme, servo motor's rotation drives the slip table and stops the certain time after the distance that a steel sheet was removed along the spout and hit, and degree of automation is higher, reaches the effect of the full-automatic slag of clearing up on the numerical control flame workstation.

To sum up, the utility model discloses a following at least one useful technological effect:

1. by arranging the sliding table, the rotating rod and the striking balls, when slag on the transverse steel plate needs to be cleaned, the striking motor is started, the striking motor continuously rotates forwards and backwards, and the striking balls connected to the rotating rod are driven by the rotating rod to continuously rotate left and right to strike the transverse steel plate below the striking motor, so that the slag on the steel plate is struck and stripped, the slag removing efficiency is high, and the numerical control flame working table can keep continuous and accurate positioning on the plate;

2. rotate between being connected through connecting rod and the bull stick to set up stop gear, the bull stick can drive the connecting rod and hit the ball through stop gear's spacing and rotate together, simultaneously, hit and hit the ball and can also cushion along the bull stick antiport after receiving the striking, avoid the connecting rod to receive to damage the rupture after the striking for a long time.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a schematic sectional view of the plane B-B in fig. 2.

In the figure, 1, a workbench frame; 11. a transverse frame; 12. a longitudinal frame; 2. a support leg; 3. a transverse steel plate; 4. a longitudinal steel plate; 5. a slag removal device; 51. a sliding table; 52. a rotating rod; 521. a rotating groove; 53. a striking motor; 54. a drive device; 541. a chute; 542. a servo motor; 543. a screw; 55. a connecting rod; 551. a sleeve; 56. hitting a ball; 6. a limiting mechanism; 61. a limiting plate; 7. a spring; 8. and a guide projection.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, for the utility model discloses a numerical control flame cutting workbench, which comprises a workbench frame 1, a support leg 2 arranged below the workbench frame 1, and a transverse steel plate 3 and a longitudinal steel plate 4 arranged in the workbench frame 1, wherein the workbench frame 1 comprises two longitudinal frames 12 and two transverse frames 11 which are perpendicular to each other and connected end to end, two ends of the transverse steel plate 3 are connected to the longitudinal frames 12, two ends of the longitudinal steel plate 4 are connected to the transverse frames 11, a slag cleaning device 5 is arranged on the workbench, the slag cleaning device 5 comprises a sliding table 51 arranged on the longitudinal frame 12 in a sliding manner, a rotating rod 52 arranged between the sliding tables 51, a beating motor 53 for driving the rotating rod 52 to rotate, a beating ball 56 connected to the rotating rod 52 and a driving device 54 for driving the sliding table 51 to slide along the longitudinal frames 12, the rotating rod 52 is higher than the transverse steel plate 3, a connecting rod 55 is arranged between the beating ball 56 and the rotating rod 52, the diameter of connecting rod 55 is less than the diameter of hitting ball 56, hits the radius of rotation that hits ball 56 and is greater than the longitudinal distance between bull stick 52 and the horizontal steel sheet 3, the utility model discloses connecting rod 55 in this embodiment is provided with a plurality ofly on bull stick 52 spaced.

The driving device 54 includes a sliding groove 541 disposed on the longitudinal frame 12, a screw 543 rotatably connected to two ends of the sliding groove 541, and a servo motor 542 driving the screw 543 to rotate, wherein the sliding platform 51 is slidably disposed in the sliding groove 541 and is in threaded connection with the screw 543. The rotation of servo motor 542 drives slip table 51 to stay the certain time and hit after the distance that removes a steel sheet along spout 541, and degree of automation is higher, reaches the effect of full-automatic clearance slag on the numerical control flame workstation.

The plate needing flame cutting is placed on the workbench to be cut, when slag on the transverse steel plate 3 needs to be cleaned, the sliding table 51 is driven to move through the driving device 54, the rotating rod 52 is located right above one transverse steel plate 3, the striking motor 53 is started, the striking motor 53 continuously rotates forwards and backwards, the striking ball 56 connected to the rotating rod 52 is driven by the rotating rod 52 to rotate left and right continuously to strike the transverse steel plate 3 below the rotating rod, and therefore the slag on the steel plate is struck and stripped, the slag removing efficiency is high, and the numerical control flame workbench can keep continuous accurate positioning of the plate.

Referring to fig. 2 and 3, after being stained with the slag on the horizontal steel sheet 3, the thickness of horizontal steel sheet 3 can change, and simultaneously, the thickness of different positions is also different on the same steel sheet, and it is less to result in hitting to hit ball 56 and hit the effect of hitting to hit ball 56 and hit to hit the difference of hitting the position of horizontal steel sheet 3 in-process dynamics, or the dynamics is great and make connecting rod 55 take place to break, the utility model discloses connecting rod 55 in this embodiment rotates and connects on bull stick 52, simultaneously, is equipped with the. The rotary connection structure of the connecting rod 55 is: a rotating groove 521 is coaxially formed in the rotating rod 52, a sleeve 551 is arranged at one end of the connecting rod 55 close to the rotating rod 52, and the sleeve 551 is sleeved in the rotating groove 521; the limiting mechanism 6 includes two limiting plates 61 perpendicular to the rotating groove 521, and the connecting rod 55 is disposed between the limiting plates 61.

The hitting ball 56 is tightly attached to the limiting plate 61 along with the rotation of the rotating rod 52 and approaches to the lateral steel plate 3 on one side, when the hitting ball 56 rotates to be located below the horizontal plane where the axis of the rotating rod 52 is located, the hitting ball 56 rapidly leaves the limiting plate 61 under the action of gravity and approaches to the lateral steel plate 3, and after hitting the lateral steel plate 3, the hitting ball reversely rotates under the action of the elastic force of the lateral steel plate 3, so that buffering is achieved, and damage caused by rigid collision with the lateral steel plate 3 is avoided. Connecting rod 55 can rotate in the spacing groove relative bull stick 52, and simultaneously, limiting plate 61 restricts the turned angle of connecting rod 55 again, has guaranteed that connecting rod 55 can enough rotate along with bull stick 52 together, can rotate relative bull stick 52 again.

Referring to fig. 2 and 3, in order to further prevent the striking ball 56 and the connecting rod 55 from being damaged by the impact of the transverse steel plate 3 and then striking the limiting plate 61 with a large force, an elastic member is respectively disposed between the two limiting plates 61 and the connecting rod 55 in this embodiment, the elastic member is a spring 7, two ends of the spring 7 are respectively connected to the connecting rod 55 and the limiting plates 61, two sides of the connecting rod 55 close to the limiting plates 61 are provided with guiding protrusions 8, and the guiding protrusions 8 are sleeved with the spring 7. When the connecting rod 55 is close to one of them limiting plate 61, one of them spring 7 has a pulling force to connecting rod 55, and another spring 7 has a top thrust to connecting rod 55, two spring 7 combined action for the slew velocity of connecting rod 55 slows down gradually, alleviates the dynamics that connecting rod 55 strikeed limiting plate 61, thereby conveniently carries out next reverse action.

Referring to fig. 2 and 3, in order to make the height of each striking ball 56 projecting from the connecting rod 55 higher without increasing the distance between the center of the striking ball 56 and the center of the rotary shaft 52 and to prevent the connecting rod 55 from first coming into contact with the horizontal steel plate 3 before the striking ball 56 comes into contact with the horizontal steel plate 3, two striking balls 56 are provided on the same connecting rod 55, and the striking balls 56 are welded to the sides of the connecting rod 55 close to the stopper plate 61. Two hitting balls 56 hit the limiting plate 61 and the transverse steel plate 3 from two sides respectively, hitting force is guaranteed, and hitting effect is better.

The utility model discloses the implementation principle in this embodiment does: when in use, the sliding table 51 is driven by the servo motor 542 to move a distance of the transverse steel plate 3 along the sliding groove 541, then, the striking motor 53 is started, and after the striking motor 53 drives the rotating rod 52 and the connecting rod 55 and the striking ball 56 connected to the rotating rod 52 to rotate for a certain angle, one of them hits and beats ball 56 and hit and take place the bounce behind one side of horizontal steel sheet 3, afterwards, hit and beat motor 53 and reverse once more, drive bull stick 52 and connect connecting rod 55 on bull stick 52 and hit ball 56 and rotate to the opposite side, hit ball 56 striking at the opposite side of horizontal steel sheet 3 until another, repeat above-mentioned action, accomplish the clearance to a horizontal steel sheet 3, afterwards, servo motor 542 drives the distance that slip table 51 continues to move a horizontal steel sheet 3, carry out the clearance to next horizontal steel sheet 3, until all horizontal steel sheets 3 all clear up the completion, thereby accomplish the clearance of numerical control flame cutting workstation.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (8)

1. The utility model provides a numerical control flame cutting workstation, includes workstation frame (1), locates landing leg (2) of workstation frame (1) below with locate horizontal steel sheet (3) and vertical steel sheet (4) in workstation frame (1), workstation frame (1) is including mutually perpendicular and two vertical frames (12) and two horizontal frames (11) of end to end, horizontal steel sheet (3) both ends connect in on vertical frame (12), vertical steel sheet (4) both ends connect in on horizontal frame (11), its characterized in that: be equipped with slag removal device (5) on the workstation, slag removal device (5) are located including sliding slip table (51) on longitudinal frame (12), locate bull stick (52), drive between slip table (51) bull stick (52) pivoted hit motor (53), connect in hit on bull stick (52) and hit ball (56) and drive slide table (51) along drive arrangement (54) that longitudinal frame (12) slided, bull stick (52) are higher than horizontal steel sheet (3), the radius of rotation of hitting ball (56) is greater than bull stick (52) with longitudinal distance between horizontal steel sheet (3).

2. The digitally controlled flame cutting table of claim 1, wherein: a connecting rod (55) is arranged between the hitting ball (56) and the rotating rod (52), and the diameter of the connecting rod (55) is smaller than that of the hitting ball (56).

3. The digitally controlled flame cutting station of claim 2, wherein: the connecting rod (55) is rotatably connected to the rotating rod (52), and a limiting mechanism (6) for limiting the rotating angle of the connecting rod (55) is arranged between the connecting rod (55) and the rotating rod (52).

4. A numerically controlled flame cutting table as in claim 3, wherein: the rotating rod (52) is provided with a rotating groove (521), one end, close to the rotating rod (52), of the connecting rod (55) is provided with a sleeve (551), the sleeve (551) is sleeved in the rotating groove (521), the limiting mechanism (6) comprises two limiting plates (61) perpendicular to the rotating groove (521), and the connecting rod (55) is arranged between the limiting plates (61).

5. The digitally controlled flame cutting table of claim 4, wherein: an elastic piece is arranged between the two limiting plates (61) and the connecting rod (55).

6. The digitally controlled flame cutting table of claim 5, wherein: the elastic component is spring (7), spring (7) both ends connect respectively in connecting rod (55) with on the limiting plate (61), the both sides that connecting rod (55) are close to limiting plate (61) are equipped with direction arch (8), spring (7) cover is located on the direction arch (8).

7. The digitally controlled flame cutting table of claim 4, wherein: be equipped with two balls (56) of batting on same connecting rod (55), batting ball (56) weld respectively connecting rod (55) are close to the side of limiting plate (61).

8. The digitally controlled flame cutting table of claim 1, wherein: the driving device (54) comprises a sliding groove (541) arranged on the longitudinal frame (12), a screw (543) rotatably connected to two ends of the sliding groove (541) and a servo motor (542) driving the screw (543) to rotate, and the sliding table (51) is slidably arranged in the sliding groove (541) and is in threaded connection with the screw (543).

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