CN212857996U - Numerical control plate shearing machine for aluminum veneers - Google Patents

Abstract

The utility model discloses an aluminum veneer numerical control plate shearing machine, which comprises a base, wherein a conveyor belt for conveying plates and a plate shearing mechanism for shearing the plates conveyed by the conveyor belt are arranged on the base; the middle position of the top of the conveyor belt guides the conveyor belt through a plurality of rotatably arranged driving rollers to form a mounting groove which is sunken towards the inner side of the conveyor belt; the plate shearing mechanism comprises a lower shearing knife which is fixedly arranged in the mounting groove and is in sliding contact with or not in contact with the conveying belt and an upper shearing knife which is fixedly arranged above the conveying belt and driven by a telescopic device, the lower shearing knife and the upper shearing knife are arranged in a matched mode, and the top cutting end of the lower shearing knife is flush with the top of the conveying belt; compared with the prior art, the utility model, to shearing the sword down, shearing sword and conveyer belt on and carry out rational arrangement and improve the shearing efficiency of panel.

Description

Numerical control plate shearing machine for aluminum veneers

Technical Field

The utility model relates to a panel processing equipment technical field, concretely relates to aluminium veneer numerical control plate shearing machine.

Background

The aluminum veneer is a building decoration material formed by processing a plate through the working procedures of cutting, folding, welding, polishing and the like to form an aluminum veneer blank, performing chromizing treatment through chromizing equipment and performing fluorocarbon spraying treatment through fluorocarbon spraying equipment.

At present, a numerical control plate shearing machine is adopted to shear a plate to form a plate block with a required size, and then processes such as edge folding and the like are carried out; the manual mode is adopted to carry out feeding and discharging on the numerical control plate shearing machine, and the shearing efficiency of the plate is reduced.

SUMMERY OF THE UTILITY MODEL

Not enough to exist among the prior art, the utility model aims to provide an aluminium veneer numerical control plate shearing machine to solve prior art, adopted artificial mode to come to carry out the business turn over material to numerical control plate shearing machine, reduced the problem of the shearing efficiency of panel.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the numerical control plate shearing machine for the aluminum veneer comprises a base, wherein a conveying belt for conveying plates and a plate shearing mechanism for shearing the plates conveyed by the conveying belt are arranged on the base;

the middle position of the top of the conveyor belt guides the conveyor belt through a plurality of rotatably arranged driving rollers to form a mounting groove which is sunken towards the inner side of the conveyor belt; the plate shearing mechanism comprises a lower shearing knife which is fixedly arranged in the mounting groove and is in sliding contact with or not in contact with the conveying belt and an upper shearing knife which is fixedly arranged above the conveying belt and driven by a telescopic device, the lower shearing knife and the upper shearing knife are arranged in a matched mode, and the top cutting end of the lower shearing knife is flush with the top of the conveying belt.

Compared with the prior art, the utility model discloses following beneficial effect has:

the numerical control aluminum veneer plate shearing machine adopts a conveyer belt to be matched with a plate shearing mechanism, and performs the working procedures of feeding and discharging for the plate shearing mechanism; the middle position of the top of the conveyor belt is provided with an installation groove through the arrangement of the transmission rollers and the conveyor belt, the installation groove provides an installation position for the lower shearing knife, and the cutting end of the top of the lower shearing knife is flush with the top of the conveyor belt so that the feeding work of the conveyor belt cannot be influenced by the lower shearing knife; when the conveying belt moves the plate from the feeding end to the proper position of the discharging end of the plate, the conveying belt stops running, the middle part of the plate is contacted with the top cutting end of the lower shearing knife, and the upper shearing knife driven by the telescopic device moves towards the direction of the lower shearing knife, so that the plate is sheared; the telescopic device driven upper shearing knife moves towards the direction far away from the lower shearing knife after shearing is completed, the conveying belt is restarted, the cut plate block moves towards the discharge end of the conveying belt, the to-be-cut section of the plate continues to move towards the discharge end of the conveying belt to perform shearing work, and the working efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

fig. 3 is a cross-sectional view of the support plate of fig. 2 taken along line B-B.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments:

reference numerals in the drawings of the specification include: base 1, conveyer belt 2, driving roller 3, mounting groove 4, lower shearing sword 5, expansion bend 6, go up shearing sword 7, support frame 8, backup pad 81, spacing spout 9, mounting bracket 10, decide long plate 11, promote cylinder 12, first pressure control switch 13, gag lever post 14, locking pole 15, stabilizing frame 16, movable rod 17, flexible briquetting 18, reset spring 19, driving block 20, drive block 21, panel 22.

As shown in fig. 1, an embodiment of the present invention provides an aluminum single plate numerical control plate shearing machine, which includes a base 1, wherein a conveyor belt 2 for conveying a plate 22 and a plate shearing mechanism for shearing the plate 22 conveyed by the conveyor belt 2 are disposed on the base 1; the middle position of the top of the conveyor belt 2 guides the conveyor belt 2 through a plurality of rotatably arranged driving rollers 3 to form a mounting groove 4 which is sunken towards the inner side of the conveyor belt 2; the plate shearing mechanism comprises a lower shearing knife 5 fixedly arranged in the mounting groove 4 and in sliding contact with or not in contact with the conveying belt 2 and an upper shearing knife 7 fixedly arranged above the conveying belt 2 and driven by a telescopic device 6, wherein the lower shearing knife 5 is matched with the upper shearing knife 7, and the top cutting end of the lower shearing knife 5 is flush with the top of the conveying belt 2.

When the conveyor belt 2 moves the plate 22 from the feeding end to the proper position of the discharging end of the plate, the conveyor belt 2 stops running, the middle part of the plate 22 is contacted with the top cutting end of the lower shearing knife 5, and the upper shearing knife 7 driven by the telescopic device 6 moves towards the lower shearing knife 5, so that the plate 22 is sheared; after the shearing is finished, the upper shearing knife 7 driven by the expansion piece 6 moves towards the direction far away from the lower shearing knife 5, the conveyor belt 2 is started again to move the cut plate 22 to the discharge end of the conveyor belt, and the section to be cut of the plate 22 continues to move towards the discharge end of the conveyor belt 2 to carry out shearing work; the upper shearing knife 7 is installed reasonably through the installation groove 4, so that the conveying belt 2 can continuously feed and discharge materials for the plate shearing mechanism, and the working efficiency is improved.

As shown in fig. 1, according to another embodiment of the present invention, the numerical control plate shearing machine for aluminum single plates further comprises optimizing the number and arrangement of the transmission rollers 3, the number of the transmission rollers 3 is four, the transmission rollers include two upper transmission rollers 3 arranged at horizontal intervals and two lower transmission rollers 3 arranged at horizontal intervals, the two upper transmission rollers 3 are located above the two lower transmission rollers 3, the transmission belt 2 is wound on one of the upper transmission rollers 3 and then sequentially wound on the two lower transmission rollers 3 and the other upper transmission roller 3, the inner side wall of the transmission belt 2 is in sliding contact with the two upper transmission rollers 3, and the outer side wall of the transmission belt 2 is in sliding contact with the two lower transmission rollers 3; through the arrangement mode of the four driving rollers 3 and the matching mode of the four driving rollers and the conveying belt 2, an installation groove 4 for installing a lower shearing knife 5 is formed in the middle position of the top of the conveying belt 2, so that the conveying belt 2 can continuously feed and discharge materials for the plate shearing mechanism in the shearing work process of continuously carrying out the plate 22.

As shown in fig. 2, according to another embodiment of the present invention, the numerical control plate shearing machine for aluminum single plates, in order to conveniently and quickly adjust the length of the sheared plate 22, further comprises a support frame 8 penetrating the inner side and the outer side of the conveyor belt 2 to fix the lower shearing blade 5 to the base 1, the support frame 8 comprises a support plate 81 disposed at the inner side of the conveyor belt 2 along the conveying direction thereof, a position-limiting chute 9 is disposed at the top of the support plate 81 near the discharging side of the conveyor belt 2, the position-limiting chute 9 is disposed along the conveying direction of the conveyor belt 2, a mounting frame 10 disposed at both sides of the conveying direction of the conveyor belt 2 is slidably engaged in the position-limiting chute 9, a fixed length plate 11 disposed above the conveyor belt 2 is disposed on the mounting frame 10, and the fixed length plate 11 is moved up and down above the conveyor belt 2; a sliding channel is provided for the mounting frame 10 through the limiting sliding chute 9, so that the distance between the fixed length plate 11 and the lower shearing knife 5 can be conveniently adjusted, and the length of the sheared plate 22 can be adjusted; after the position of the fixed length plate 11 is adjusted, when the plate 22 is conveyed to be abutted against the fixed length plate 11 by the conveyor belt 2, the conveyor belt 2 stops running, the expansion piece 6 is started to enable the upper shearing knife 7 to be matched with the lower shearing knife 5 to shear the plate 22, after the plate is sheared, the expansion piece 6 enables the upper shearing knife 7 to be far away from the lower shearing knife 5, at the moment, the lifting cylinder 12 enables the fixed length plate 11 to move upwards to be far away from the conveyor belt 2, and a passing space is formed between the top of the conveyor belt 2 and the fixed length plate 11; the conveyer belt 2 moves once more, and the panel 22 piece that will cut off and the panel 22 that waits to continue to cut continue to the discharge end direction of conveyer belt 2 and remove it when the panel 22 piece that cuts off moves to suitable position the staff, and lift cylinder 12 makes length fixing plate 11 move down come with conveyer belt 2 top sliding contact, comes to carry out the fixed length to panel 22 shearing work next time through length fixing plate 11. The arrangement mode of the supporting plate 81 and the mounting rack 10 enables the reasonable layout of the aluminum single-plate numerical control plate shearing machine, so that the layout of the aluminum single-plate numerical control plate shearing machine is compact, and the shearing and feeding work of the plates 22 of the aluminum single-plate numerical control plate shearing machine cannot be influenced.

As shown in fig. 2, according to another embodiment of the present invention, the aluminum single plate numerical control plate shearing machine is used for automatically controlling the operation states of the expansion piece 6 and the conveyor belt 2 during the plate 22 being fixed; a first pressure control switch 13 electrically connected with the expansion piece 6 and a second pressure control switch for driving the conveyor belt 2 to run are arranged on one side of the fixed length plate 11 close to the feeding end of the conveyor belt 2; when the plate 22 conveyed by the conveyor belt 2 abuts against the fixed-length plate 11, the fixed-length work of the cut section of the plate 22 is completed, and at the moment, the plate 22 abuts against the first pressure control switch 13 and the second pressure control switch, so that the expansion piece 6 is started, and when the conveyor belt 2 stops running, the cut work of the plate 22 is performed; after shearing, lift cylinder 12 operation makes fixed length board 11 rebound keep away from conveyer belt 2, and panel 22 all breaks away from the counterbalance state with first pressure control switch 13 and second pressure control switch, and 6 reverse motions of expansion bend, conveyer belt 2 operation, conveyer belt 2 carry out the pay-off work. The first pressure control switch 13 and the second pressure control switch are conventional electrical components, and the structures thereof will not be described in detail; the second pressure control switch is not shown in the drawings because the first pressure control switch 13 and the second pressure control switch are arranged in parallel.

As shown in fig. 3, according to another embodiment of the present invention, in order to improve the fixed state of the fixed length plate 11 after the position adjustment, the numerical control plate shearing machine for aluminum single plates further includes a locking member disposed on the sidewall of the supporting plate 81 and penetrating into the limiting chute 9 and connected to the mounting frame 10, a through hole disposed along the length direction of the limiting chute 9 and communicated with the limiting chute 9 is formed on the sidewall of the supporting plate 81, the locking member includes a locking rod 15 and a limiting rod 14 having one end penetrating through the through hole and disposed in the limiting chute 9 and fixedly connected to the mounting frame 10, a thread groove is formed on the other end of the limiting rod 14 along the axial direction thereof, one end of the locking rod 15 is screwed into the thread groove, and the other end of the locking rod 15 abuts against the outer wall of the supporting plate 81; when the locking rod 15 and the limiting rod 14 move the mounting frame 10 to adjust the distance between the fixed long plate 11 and the lower shearing knife 5, a moving channel is provided for the limiting rod 14 through the through hole, and the relative length of the limiting rod 14 is adjusted through the connection mode of the locking rod 15 and the limiting rod 14, so that the abutting state of the end part of the locking rod 15 and the outer wall of the supporting plate 81 is adjusted, and the locking state of the mounting frame 10 is controlled to achieve the locking state of the fixed long plate 11; the locking piece has simple structure and convenient and quick adjustment.

As shown in fig. 1, according to another embodiment of the present invention, in order to improve the stability of the plate 22 during shearing, the numerical control plate shearing machine for aluminum single plates is provided to improve the shearing quality of the plate 22; the device is characterized by further comprising a pressing plate assembly arranged on the supporting frame 8 and located above the conveyor belt 2, the pressing plate assembly is located between the length-positioning plate 11 and the lower shearing knife 5, the pressing plate assembly comprises a stabilizing frame 16 connected with the supporting frame 8, a movable rod 17 is connected to the stabilizing frame 16 in a sliding mode in the vertical direction, the lower end of the movable rod 17 is connected with an elastic telescopic pressing block 18, a reset spring 19 is connected between the upper end of the movable rod 17 and the stabilizing frame 16, a transmission block 20 is connected to the side wall of the upper end of the movable rod 17, and a driving block 21 is connected to a telescopic shaft of the telescopic device 6; the driving block 21 is pressed against the transmission block 20 when moving downwards along with the telescopic shaft of the telescopic device 6; the movable rod 17 is installed and fixed through the stabilizing frame 16, when the telescopic shaft of the telescopic device 6 extends, the upper shearing knife 7 moves towards the lower shearing knife 5 to perform shearing work, the transmission block 20 moves along with the telescopic shaft of the telescopic device 6, when the driving block 21 moves to abut against the transmission block 20, the movable rod 17 moves towards the conveyor belt 2 through the transmission block 20, the reset spring 19 extends, the elastic telescopic pressing block 18 moves along with the movable rod 17 to abut against a plate 22 on the conveyor belt 2 to assist in fixing the plate 22, then the upper shearing knife 7 is matched with the lower shearing knife 5 to perform shearing work on the plate 22, and the elastic telescopic pressing block 18 prevents the plate 22 from being pressed dead by utilizing the elastic telescopic performance of the elastic telescopic pressing block and cannot limit the movement of the upper shearing knife 7 to perform shearing work on the plate 22; when the telescopic shaft of the telescopic device 6 contracts to enable the upper shearing knife 7 to move towards the direction far away from the lower shearing knife 5, the transmission block 20 moves along with the telescopic shaft of the telescopic device 6, when the driving block 21 moves to be separated from and abutted against the transmission block 20, the movable rod 17 is enabled to move towards the direction far away from the conveying belt 2 under the elastic resetting effect of the resetting spring 19, the elastic telescopic pressing block 18 is separated from the pressing work of the plate 22, and the conveying belt 2 is convenient to feed.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (6)

1. The numerical control plate shearing machine for the aluminum veneer is characterized by comprising a base, wherein a conveying belt for conveying plates and a plate shearing mechanism for shearing the plates conveyed by the conveying belt are arranged on the base;

the middle position of the top of the conveyor belt guides the conveyor belt through a plurality of rotatably arranged driving rollers to form a mounting groove which is sunken towards the inner side of the conveyor belt; the plate shearing mechanism comprises a lower shearing knife which is fixedly arranged in the mounting groove and is in sliding contact with or not in contact with the conveying belt and an upper shearing knife which is fixedly arranged above the conveying belt and driven by a telescopic device, the lower shearing knife and the upper shearing knife are arranged in a matched mode, and the top cutting end of the lower shearing knife is flush with the top of the conveying belt.

2. The numerical control plate shearing machine for aluminum veneers according to claim 1, characterized in that: the utility model discloses a shearing cutter, including the conveyer belt, the conveyer belt is inboard to cut the sword, the support frame is fixed with the base through the support frame of wearing to establish in the conveyer belt inboard and the outside, the support frame is including arranging the backup pad that its direction of transfer was arranged along the inboard conveyer belt of arranging in, spacing spout has been seted up near the delivery side of conveyer belt at the top of backup pad, spacing spout is arranged along the direction of transfer of conveyer belt, the sliding connection has the mounting bracket of arranging the direction of transfer both sides of conveyer belt in the spacing spout, be provided with the fixed length board that is located the conveyer belt top on the mounting bracket.

3. The numerical control plate shearing machine for aluminum veneers according to claim 2, characterized in that: a first pressure control switch electrically connected with the expansion piece and a second pressure control switch driving the conveyor belt to run are arranged on one side of the fixed length plate, which is close to the feeding end of the conveyor belt; when the plate conveyed by the conveyor belt is abutted to the fixed-length plate, the plate is abutted to the first pressure control switch and the second pressure control switch, the expansion piece is started, and the conveyor belt stops running.

4. The numerical control plate shearing machine for aluminum veneers according to claim 2, characterized in that: be provided with on the backup pad lateral wall and wear to establish the lock piece that links to each other with the mounting bracket to the interior external in the spacing spout, it has the perforation of arranging and communicating with spacing spout along spacing spout length direction to open on the backup pad lateral wall, the lock piece includes that lock pole and one end pass and arrange the spacing spout in after perforating and the fixed gag lever post that links to each other of mounting bracket, the other end of gag lever post is opened along its axial direction has the thread groove, the one end threaded connection of lock pole is in the thread groove, the other end and the backup pad outer wall of lock pole offset.

5. The numerical control plate shearing machine for aluminum veneers according to claim 2, characterized in that: the supporting frame is provided with a pressing plate assembly positioned above the conveying belt, the pressing plate assembly is positioned between the length-positioning plate and the lower shearing knife, the pressing plate assembly comprises a stabilizing frame connected with the supporting frame, a movable rod is connected to the stabilizing frame in a sliding mode in the vertical direction, the lower end of the movable rod is connected with an elastic telescopic pressing block, a reset spring is connected between the upper end of the movable rod and the stabilizing frame, the side wall of the upper end of the movable rod is connected with a transmission block, and a telescopic shaft of the telescopic device is connected with a driving block; the driving block is pressed against the transmission block when moving downwards along with the telescopic shaft of the telescopic device.

6. The numerical control plate shearing machine for aluminum veneers according to claim 1, characterized in that: the quantity of driving roller is four, including two upper driving rollers of horizontal interval arrangement and two lower driving rollers of horizontal interval arrangement, two upper driving rollers are located two lower driving rollers tops, and the conveyer belt twines in proper order after one of them upper driving roller and twines on two lower driving rollers and the other one upper driving roller, and the inboard lateral wall and the two upper driving roller sliding contact of conveyer belt, the outside lateral wall and two lower driving roller sliding contact of conveyer belt.

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