CN214394861U - High-efficient processing bridge cutting machine - Google Patents

Abstract

The utility model discloses a high-efficient processing bridge cutting machine, wherein, including two boundary beams, can set up the crossbeam on two boundary beams along longitudinal movement ground, can set up the removal seat on the crossbeam and set up the cutting aircraft nose on removing the seat along vertical direction removal ground along lateral shifting, remove and still be equipped with marking machine on the seat, marking machine includes the shell body, establish the play paper mechanism in the shell body, vertical slide rail, can follow the vacuum suction disc of vertical slide rail removal, first horizontal drive mechanism, second horizontal drive mechanism and opening and closing door, play paper mechanism is equipped with the exit slot, the shell body bottom is equipped with beats the mark window, the vacuum suction disc is just to beating the mark window setting and first horizontal drive mechanism drive vacuum suction disc is done and is close to and keeps away from the reciprocating motion of exit slot, the opening and closing door matches and beats the mark window setting. The present case can be immediately through the marking machine after accomplishing the cutting and for the automatic label of pasting of the panel of cutting, need not follow-up artifical subsides and establish, has promoted labeling efficiency greatly.

Description

High-efficient processing bridge cutting machine

Technical Field

The utility model relates to a panel processing technology field, concretely relates to high-efficient processing bridge cutting machine.

Background

The bridge cutting machine is a device for cutting plates such as stone materials, and the structure of the bridge cutting machine is known, for example, a workbench and a bridge cutting machine disclosed in chinese utility model patent CN201910616454.4, the workbench comprises a base, a rotating seat and a pedestal which are arranged in sequence from top to bottom, and the rotating seat is rotatably connected to the base; the rotary seat is provided with a first rotary mechanism and a second rotary mechanism, and the first rotary mechanism and the second rotary mechanism respectively drive the pedestal to rotate. The bridge cutting machine comprises the workbench, and further comprises two side beams, a cross beam erected on the two side beams in a longitudinally movable manner, a movable seat arranged on the cross beam in a transversely movable manner, and a cutting machine head arranged on the movable seat in a vertically movable manner. During processing, the plate is placed on the workbench, then the workbench is rotated, and the cutting machine head is used for cutting the plate in the rotating process of the workbench. However, after the cutting, the cut plate needs to be coded, so that subsequent total and use are facilitated, the existing coding is mainly performed through manual labeling, time is consumed, and the processing efficiency is affected.

In view of the above, the applicant has made an intensive study to solve the above problems and has made the present invention.

Disclosure of Invention

The utility model discloses a main aim at provides a high-efficient processing bridge cutter can be carried out the automation after the cutting is accomplished and beat the sign indicating number to panel to promote machining efficiency.

In order to achieve the above purpose, the solution of the present invention is:

provides a high-efficiency processing bridge cutting machine, which comprises two boundary beams, a cross beam erected on the two boundary beams and capable of moving along the longitudinal direction, a moving seat arranged on the cross beam and capable of moving along the transverse direction, and a cutting machine head arranged on the moving seat and capable of moving along the vertical direction, wherein, the moving seat is also provided with a marking machine which comprises an outer shell, a paper outlet mechanism arranged in the outer shell and a vertical sliding rail, a vacuum suction plate which can move along a vertical slide rail, a first horizontal driving mechanism, a second horizontal driving mechanism and an opening and closing door, the paper outlet mechanism is provided with a paper outlet, the bottom of the shell body is provided with a marking window, the vacuum suction plate is arranged right at the marking window, the first horizontal driving mechanism drives the vacuum suction plate to reciprocate close to and far away from the paper outlet, the opening and closing door is matched with the marking window and is arranged, and the second horizontal driving mechanism drives the opening and closing door to move horizontally.

Furthermore, the vacuum suction device further comprises a lifting frame, the first horizontal driving mechanism is an air cylinder, a sliding seat which is arranged on the vertical sliding rail in a sliding mode is arranged on a cylinder body of the air cylinder, a piston rod of the air cylinder is connected with the lifting frame, and the vacuum suction plate is arranged on the lifting frame.

Further, still including buffer spring and guide bar, the crane is including the bottom plate, the bottom plate is equipped with first guiding hole, the guide bar upper end passes first guiding hole and the lower extreme connects the vacuum suction board, and buffer spring cover is established on the guide bar and both ends support respectively and push against bottom plate and vacuum suction board.

Further, still be equipped with guide holder and guide post, the guide holder establishes the bottom surface and is equipped with the second guiding hole in the shell body, open the door and include horizontal board portion and vertical board portion, second guiding hole and the other end are passed to guide post one end and are connected with the vertical board portion of opening the door, second horizontal drive mechanism is the cylinder, and the interior bottom surface at the shell body is fixed to the cylinder body of cylinder, and the piston rod of cylinder is connected with the vertical board portion of opening the door.

Further, the upper end of the top support is connected with the horizontal plate part, and the top support is provided with a top support plate.

Further, still be equipped with panel adsorption apparatus and construct, panel adsorption apparatus constructs including adsorption plate and lift cylinder, be equipped with the support frame on removing the seat, the cylinder body of lift cylinder is established on the support frame and the piston rod is connected with the adsorption plate.

Furthermore, a plurality of grooves and air suction holes are formed in the bottom surface of the adsorption plate, and sealing rings are embedded in the grooves.

Further, still including establishing the swivel work head between two crossbeams, the swivel work head includes the base, and the driving gear of establishing on the base is established on the revolving stage and with driving gear meshing's ring gear and establish the brake gear who is used for braking the ring gear on the base.

Further, still including the supporting seat, the supporting seat transversely extends the setting and the inner wall of two boundary beams is connected respectively at the both ends of supporting seat, the base is established on the supporting seat.

Further, still including the upset cylinder, the base is connected with the supporting seat upset, the cylinder body and the supporting seat of upset cylinder are connected and the piston rod and the base of upset cylinder are connected.

After the structure of the oil adding device is adopted, the utility model relates to a pair of high-efficient processing bridging machine, compared with the prior art, beneficial effect lies in, the present case sets up marking machine on removing the seat, marking machine can remove along with removing the seat, and remove seat itself and just be provided with the cutting aircraft nose, from this, the present case can be immediately after accomplishing the cutting through marking machine for the automatic label of pasting of the good panel of cutting, it establishes to need not follow-up artifical subsides, labeling efficiency has been promoted greatly, thereby whole machining efficiency has been promoted, automatic labeling is difficult for makeing mistakes moreover, it is more accurate to count up.

Drawings

Fig. 1 is one of the overall structural diagrams of the present disclosure.

Fig. 2 is a second schematic view of the overall structure of the present invention.

Fig. 3 is a schematic partial structural diagram of the marking machine of the present disclosure.

Fig. 4 is a second schematic view of a part of the marking machine.

Fig. 5 is a schematic side view of the present disclosure.

Fig. 6 is a partial structural schematic diagram of the present disclosure.

Fig. 7 is a schematic structural view of the adsorption plate of the present disclosure.

In the figure:

boundary beam-1, beam-2, moving seat-3, cutting head-4, marking machine-5, outer shell-6, paper outlet mechanism-7, vertical slide rail-8, vacuum suction plate-9, first horizontal driving mechanism-10, second horizontal driving mechanism-11, opening and closing door-12, paper outlet-13, marking window-14, lifting frame-15, bottom plate-16, first guide hole-17, sliding seat-18, buffer spring-19, guide rod-20, guide seat-21, guide column-22, visual identification device-23, vertical plate-24, abutting frame-25, abutting plate-26, suction plate-27, lifting cylinder-28, groove-29, suction hole-30, the device comprises a rotary worktable-31, a base-32, a rotary table-33, a driving gear-34, a gear ring-35, a brake gear-36, a supporting seat-37 and a turnover cylinder-38.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

As shown in fig. 1-7, the present application provides an efficient processing bridge cutting machine, wherein, the efficient processing bridge cutting machine includes two boundary beams 1, a cross beam 2 erected on the two boundary beams 1 along a longitudinal movement, a moving seat 3 arranged on the cross beam 2 along a lateral movement, and a cutting head 4 arranged on the moving seat 3 along a vertical movement, a blade for cutting a plate is arranged on the cutting head 4, and the cutting head 4 is moved in the vertical direction through a ball screw structure. The beam 2 and the movable seat 3 are driven by the matching structure of the bevel gears and the tooth rows.

The movable seat 3 is further provided with a marking machine 5, the marking machine 5 comprises an outer shell 6, a paper outlet mechanism 7 arranged in the outer shell 6, a vertical slide rail 8, a vacuum suction plate 9 capable of moving along the vertical slide rail 8, a first horizontal driving mechanism 10, a second horizontal driving mechanism 11 and an opening and closing door 12. The interior of the paper discharging mechanism 7 is provided with a label paper roll, the paper discharging mechanism 7 is provided with a paper outlet 13, the bottom of the outer shell 6 is provided with a marking window 14, the vacuum suction plate 9 is just arranged on the marking window 14, the first horizontal driving mechanism 10 drives the vacuum suction plate 9 to do reciprocating motion close to and far away from the paper outlet 13, and the opening and closing door 12 is matched with the marking window 14 and drives the opening and closing door 12 to move horizontally through the second horizontal driving mechanism 11.

Thus, before cutting, the paper output mechanism 7 is provided with label paper, the marking window 14 is tightly closed by the opening and closing door 12, at the moment, the vacuum suction plate 9 and the paper output port 13 are at the same horizontal height, after the moving seat 3 drives the cutting head 4 to complete plate cutting, the first horizontal driving mechanism 10 drives the vacuum suction plate 9 to move towards the paper output port 13, then the label paper is output from the paper output port 13 and is adsorbed by the vacuum suction plate 9, after adsorption, the vacuum suction plate 9 returns to the position right above the marking window 14, then the second horizontal driving mechanism 11 drives the opening and closing door 12 to horizontally move to open the marking window 14, then the vacuum suction plate 9 descends, and after air release, the label is pressed on the plate, so that operation is completed. Compared with the prior art, marking machine 5 of present case can remove along with removing seat 3, can pass through marking machine 5 immediately after accomplishing the cutting and give the automatic label of pasting of good panel of cutting, need not follow-up artifical the subsides and establish, has promoted labeling efficiency greatly to promote whole machining efficiency, automatic subsides mark is difficult for makeing mistakes moreover, and statistics is more accurate.

As a specific embodiment for driving the vacuum suction plate 9 to move, the vacuum suction plate further comprises a lifting frame 15, the first horizontal driving mechanism 10 is a horizontally arranged air cylinder, a sliding seat 18 which is arranged on the vertical sliding rail 8 in a sliding manner is arranged on a cylinder body of the air cylinder, and the sliding seat 18 can be driven by driving sources such as a hydraulic cylinder or an air cylinder to stably move on the vertical sliding rail 8, so that the lifting frame 15 is driven to vertically move. The piston rod of the cylinder is connected with the lifting frame 15, and the vacuum suction plate 9 is arranged on the lifting frame 15. The piston rod drives the lifting frame 15 to do horizontal reciprocating movement in a telescopic mode, and therefore the horizontal movement of the lifting frame 15 and the vertical movement of the cutting machine head 4 are achieved.

More preferably, the lifting frame 15 further comprises a buffer spring 19 and a guide rod 20, the base plate 16 is arranged on the lifting frame 15, the first guide hole 17 is formed in the base plate 16, the upper end of the guide rod 20 penetrates through the first guide hole 17, the lower end of the guide rod 20 is connected with the vacuum suction plate 9, the buffer spring 19 is sleeved on the guide rod 20, and two ends of the buffer spring respectively abut against the base plate 16 and the vacuum suction plate 9. Therefore, when the vacuum suction plate 9 is pressed on the plate, the buffer spring 19 can absorb the impact force, and under the buffer action, the vacuum suction plate 9 does not rigidly collide with the plate, so that the vacuum suction plate 9 is prevented from being damaged due to collision.

In order to stably move the opening and closing door 12, preferably, the present case is further provided with a guide seat 21 and a guide post 22, the guide seat 21 is arranged on the inner bottom surface of the outer shell 6 and is provided with a second guide hole, the opening and closing door 12 comprises a horizontal plate portion and a vertical plate portion 24, one end of the guide post 22 passes through the second guide hole and the other end of the guide post is connected with the vertical plate portion 24 of the opening and closing door 12, the second horizontal driving mechanism 11 is an air cylinder, the cylinder body of the air cylinder is fixed on the inner bottom surface of the outer shell 6, and the piston rod of the air cylinder is connected with the vertical plate portion 24 of the opening and closing door 12. Therefore, the opening and closing door 12 is driven to horizontally reciprocate by the extension and contraction of the piston rod, and the marking window 14 is automatically opened and closed.

The cutting machine head 4 can shake up and down in the cutting process, and the plate is easy to shift due to long-term shaking, so that preferably, the scheme is further provided with an abutting frame 25, the upper end of the abutting frame 25 is connected with the horizontal plate part, and the abutting frame 25 is provided with an abutting plate 26. In the cutting process, the abutting plate 26 abuts against the plate, the plate shakes most at the cutting position, and the distance between the marking machine 5 and the cutting head 4 is small, so that the shaking amplitude of the plate can be reduced under the abutting of the abutting plate 26, and the plate is prevented from deviating from the original position by too long distance.

The movable seat 3 further has a function of moving the plate, and preferably, the movable seat is further provided with a plate adsorption mechanism, the plate adsorption mechanism comprises an adsorption plate 27 and a lifting cylinder 28, a support frame is arranged on the movable seat 3, a cylinder body of the lifting cylinder 28 is arranged on the support frame, and a piston rod of the lifting cylinder is connected with the adsorption plate 27. When cutting is carried out, the lifting cylinder 28 drives the adsorption plate 27 to be at the highest position, and the cutting machine head 4 descends to carry out plate cutting; when the plate material is moved, the cutter head 4 is raised to separate from the plate material, and the lift cylinder 28 drives the suction plate 27 to lower the suction plate 27, thereby moving the plate material after the plate material is sucked.

More preferably, the bottom surface of the adsorption plate 27 is provided with a plurality of grooves 29 and air suction holes 30, the grooves 29 are arranged around the air holes, and sealing rings are embedded in the grooves 29. After the adsorption plate 27 is tightly attached to the plate, the air suction holes 30 begin to suck air, and the sealing ring is extruded by the adsorption plate 27 and the plate, so that air leakage is effectively prevented, and the adsorption effect is greatly optimized.

The cutting head 4 of the present invention cannot rotate 360 degrees, and preferably, the present invention further includes a rotary table 31 disposed between the two cross beams 2, where the rotary table 31 includes a base 32, a rotary table 33, a driving gear 34 disposed on the base 32, a gear ring 35 disposed on the rotary table 33 and engaged with the driving gear 34, and a braking gear 36 disposed on the base 32 and used for braking the gear ring 35. When the rotating platform 33 needs to be driven to rotate, the driving gear 34 rotates to drive the gear ring 35 to rotate, so that the rotating platform 33 is driven to rotate relative to the base 32, and at the moment, the braking gear 36 rotates along with the gear ring 35; when positioning is required, the gear ring 35 is fixed through the fixed brake gear 36, and the gear ring 35 is prevented from rotating during cutting.

Preferably, the present case still includes supporting seat 37, supporting seat 37 transversely extends the setting and the inner wall of two boundary beams 1 is connected respectively at the both ends of supporting seat 37, and supporting seat 37 and boundary beam 1 link as an organic whole, and the relative position of supporting seat 37 and boundary beam 1 can not change, base 32 is established on supporting seat 37, so can guarantee that rotary worktable 31 remains fixed all the time, can not deviate from the position in the cutting process yet, and stable state can reach good cutting effect.

Preferably, the turnover device further comprises a turnover cylinder 38, the base 32 is connected with the supporting seat 37 in a turnover mode, a cylinder body of the turnover cylinder 38 is connected with the supporting seat 37, and a piston rod of the turnover cylinder 38 is connected with the base 32. The piston rod extends and retracts to turn the base 32 relative to the support base 37.

Preferably, in the present invention, the visual recognition device 23 is assumed above the rotary table 31, before the cutting process, the cutting path of the plate to be cut is planned and recorded in the controller, and when the plate to be cut is to be cut, the visual recognition device 23 recognizes the plate to be cut placed on the rotary table 31, so that the controller can control the cutting head 4 to cut according to the corresponding planned path.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (10)

1. A high-efficiency processing bridge cutting machine comprises two boundary beams, a cross beam erected on the two boundary beams and capable of moving along the longitudinal direction, a moving seat arranged on the cross beam and capable of moving along the transverse direction, and a cutting machine head arranged on the moving seat and capable of moving along the vertical direction, it is characterized in that the moving seat is also provided with a marking machine, the marking machine comprises an outer shell, a paper outlet mechanism arranged in the outer shell and a vertical sliding rail, a vacuum suction plate which can move along a vertical slide rail, a first horizontal driving mechanism, a second horizontal driving mechanism and an opening and closing door, the paper outlet mechanism is provided with a paper outlet, the bottom of the shell body is provided with a marking window, the vacuum suction plate is arranged right at the marking window, the first horizontal driving mechanism drives the vacuum suction plate to reciprocate close to and far away from the paper outlet, the opening and closing door is matched with the marking window and is arranged, and the second horizontal driving mechanism drives the opening and closing door to move horizontally.

2. The efficient processing bridge cutting machine according to claim 1, further comprising a lifting frame, wherein the first horizontal driving mechanism is a cylinder, a sliding seat slidably arranged on the vertical sliding rail is arranged on a cylinder body of the cylinder, a piston rod of the cylinder is connected with the lifting frame, and the vacuum suction plate is arranged on the lifting frame.

3. The efficient processing bridge cutting machine according to claim 2, further comprising a buffer spring and a guide rod, wherein the lifting frame comprises a bottom plate, the bottom plate is provided with a first guide hole, the upper end of the guide rod penetrates through the first guide hole, the lower end of the guide rod is connected with a vacuum suction plate, the buffer spring is sleeved on the guide rod, and two ends of the buffer spring respectively abut against the bottom plate and the vacuum suction plate.

4. The efficient processing bridge cutting machine according to claim 1, further comprising a guide seat and a guide post, wherein the guide seat is arranged on the inner bottom surface of the outer shell and provided with a second guide hole, the opening and closing door comprises a horizontal plate portion and a vertical plate portion, one end of the guide post penetrates through the second guide hole, the other end of the guide post is connected with the vertical plate portion of the opening and closing door, the second horizontal driving mechanism is a cylinder, a cylinder body of the cylinder is fixed on the inner bottom surface of the outer shell, and a piston rod of the cylinder is connected with the vertical plate portion of the opening and closing door.

5. The efficient bridge cutting machine as claimed in claim 4, further comprising a top support, wherein the top of the top support is connected to the horizontal plate, and the top support is provided with a top support plate.

6. The efficient bridge cutting machine as claimed in claim 5, further comprising a plate adsorbing mechanism, wherein the plate adsorbing mechanism comprises an adsorbing plate and a lifting cylinder, the moving base is provided with a supporting frame, a cylinder body of the lifting cylinder is arranged on the supporting frame, and a piston rod of the lifting cylinder is connected to the adsorbing plate.

7. The bridge cutting machine for high efficiency machining according to claim 6, wherein the bottom of the absorption plate is provided with a plurality of grooves and air suction holes, and the grooves are embedded with sealing rings.

8. The bridge cutting machine as claimed in claim 1, further comprising a rotary table disposed between the two beams, the rotary table including a base, a rotary table, a driving gear disposed on the base, a ring gear disposed on the rotary table and engaged with the driving gear, and a braking gear disposed on the base and braking the ring gear.

9. The efficient bridge cutting machine as claimed in claim 8, further comprising a support base, wherein the support base is laterally extended and connected to the inner walls of the two side beams at two ends of the support base, and the base is disposed on the support base.

10. The efficient bridge cutting machine as claimed in claim 9, further comprising a turning cylinder, wherein the base is connected with the supporting base in a turning manner, a cylinder body of the turning cylinder is connected with the supporting base, and a piston rod of the turning cylinder is connected with the base.

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