CN110980222A - Panel processing panel turnover machine - Google Patents

Abstract

The invention belongs to the technical field of plate processing production equipment, and particularly discloses a plate processing and turning machine, which comprises a conveying unit, wherein the conveying unit sequentially comprises a first conveying support, a turning plate support and a second conveying support along the conveying direction of a plate, and further comprises a turning unit for turning the plate on the turning plate support onto the second conveying support, the turning unit comprises a rotating rod, a sucker assembly and a first driving piece for driving the rotating rod to rotate, a plurality of turning rods are fixedly connected onto the rotating rod, a deviation correcting unit is arranged between the first conveying support and the turning plate support and comprises two inclined cylinders which are symmetrically arranged, a rotating shaft is fixedly connected between the two inclined cylinders, and the second driving piece is used for driving the rotating shaft to rotate. The invention can correct the deviation before the panel is turned, and improves the stable and smooth turning effect of the turning unit on the panel.

Description

Panel processing panel turnover machine

Technical Field

The invention belongs to the technical field of plate processing production equipment, and particularly discloses a plate processing turnover machine.

Background

The plate is widely applied to the fields of buildings, furniture and the like, and is particularly most widely applied to furniture, at present, in the manufacturing process of the furniture, the plate needs to be carved in a carving chamber, then the carved plate is conveyed to a polishing chamber, the polishing chamber is used for polishing the back of the plate, and therefore the plate needs to be turned over between the carving process and the polishing process, however, the area of the processed plate is large, and the time and the labor are very wasted if the plate is manually turned.

In order to solve the technical problem, a material turning unit for automatically turning the plate is also arranged in the prior art, so that the efficiency is improved, and the labor is saved, but after the plate is carved, the plate is conveyed to the material turning unit from the carving chamber, the plate is easy to deflect, and after the plate is conveyed to the material turning unit, because the plate deflects, the contact between the material turning unit and the plate is not tight, the plate cannot be normally turned or the plate is easy to drop in the process of turning the plate.

In addition, after the board is carved, a large amount of sawdust is attached to the surface of the board, and in the process of turning the board, the sawdust on the board is easy to fly around, so that the environmental pollution is caused, and the scattered sawdust is inconvenient to collect.

Disclosure of Invention

The invention aims to provide a plate processing turnover machine, which can correct the deviation of a plate before the plate is turned and improve the stable turnover effect of a turnover unit on the plate.

In order to achieve the purpose, the basic scheme of the invention is as follows:

a plate turning machine for processing plates comprises a conveying unit, wherein the conveying unit comprises a first conveying support, a turning plate support and a second conveying support which are sequentially distributed along the conveying direction of the plates, conveying rollers are rotatably connected on the first conveying support, the second conveying support and the turning plate support, the plate turning unit is used for turning the plates on the turning plate support to the second conveying support and comprises a rotating rod, a sucker assembly and a first driving piece for driving the rotating rod to rotate, a plurality of turning rods are fixedly connected on the rotating rod and are respectively positioned between two adjacent conveying rollers on the turning plate support, the sucker assembly is fixedly connected on the turning rod, a deviation rectifying unit is arranged between the first conveying support and the turning plate support and comprises two inclined cylinders which are symmetrically arranged, and a rotating shaft is fixedly connected between the two inclined cylinders, the device also comprises a second driving piece for driving the rotating shaft to rotate.

The working principle and the beneficial effects of the basic scheme are as follows:

1) rotate through the drive dwang among this technical scheme to make and dwang fixed connection's the pole of turning over rotate simultaneously, and the sucking disc subassembly on the pole of turning over will inhale tightly to panel, thereby make the pole of turning over can turn over panel on the board support to the second conveying support at the in-process of upset on, the process that whole was turned over is simple effective, and need not the manual work and turn, has realized the effect of automatic stirring.

2) According to the technical scheme, the plate is conveyed to the in-process of the turning plate support from the first conveying support, the deviation rectifying unit can rectify the plate, the plate is prevented from being conveyed to the condition that the plate is inclined after the plate is conveyed to the turning plate support, so that the plate and the sucker component on the turning rod can be more tightly sucked, the turning rod can drive the plate to be safer and more stable in the turning process, and the plate is effectively prevented from being loosened with the sucker component in the turning process.

3) The deviation rectifying unit in the technical scheme adopts two inclined cylinders which are symmetrically arranged with each other to realize the deviation rectifying effect, because the inclined cylinders are provided with an inclined plane, one side of each inclined cylinder is thinner and the other side is thicker by the inclined plane, the deviation rectifying effect on the plate is realized by utilizing the different sizes of all cross sections of the inclined cylinders along the axial direction and the different thicknesses of the inclined cylinders along the axial direction, the deviation rectifying unit has simple structure and good deviation rectifying effect, through driving the inclined cylinders to rotate, when the thinner side of the inclined cylinders is positioned above the conveying roller, the plate can pass between the two inclined cylinders, when the thicker side of the inclined cylinders is positioned above the conveying roller, the plate is pushed, at the moment, the two inclined cylinders can ensure that the plate is kept in a state of being parallel to the first conveying bracket, thereby realizing the deviation rectifying effect on the plate in the process of entering the turning plate bracket, therefore, the automatic deviation rectifying effect of the plate before turning is realized.

Furthermore, a first position sensor is arranged at one end, close to the first conveying support, of the turning plate support, a second position sensor is arranged at one end, far away from the second conveying support, of the turning plate support, the first driving piece is a motor, the first position sensor and the second position sensor are electrically connected with a controller, and the controller controls the motor to be turned on and off.

First position sensor and second position sensor can sense the both ends of panel and get into respectively on turning over the board support among this technical scheme, get into respectively when panel both ends and turn over the board support after on, first position sensor and second position sensor give the controller with feedback signal, make controller control motor start to the motor drive dwang rotates, and then the dwang just drives the pole that turns over and overturn on to second conveying support, has just so realized the automatic effect of turning over to panel.

Furthermore, the sucker assemblies are provided with a plurality of groups, and the plurality of groups of sucker assemblies are respectively positioned on the turnover rods.

The setting of multiunit sucking disc subassembly can improve the adsorption effect to panel among this technical scheme, avoids panel not hard up to appear at the in-process of upset, further improves the security.

Further, still include the negative pressure machine that suction disc assembly provided the negative pressure, second position sensor with the negative pressure machine electricity is connected, when panel was sensed to second position sensor, the controller control the motor with the negative pressure machine starts simultaneously.

After panel is sensed to second sensor among this technical scheme, explain promptly that whole panel has got into completely and turns over the board support, controller control motor and negative pressure machine start simultaneously this moment, such setting can make the pole of turning over just make the sucking disc subassembly produce the negative pressure and prepare to adsorb panel at the in-process that turns, has ensured like this that the sucking disc subassembly can be quicker after contacting panel adsorb with panel, and adsorption effect is better.

Further, the bilateral symmetry of first transmission support is equipped with the support, the both ends of pivot respectively with two the support rotate to be connected, the one end of pivot wear out the support and with second driving piece fixed connection.

So set up, the support makes two oblique cylinders can normally rotate to the effect that plays two oblique cylinders of support and installation pivot.

Further, the rotating shaft is lower than the conveying roller.

So set up and to avoid the pivot to panel to the in-process production that turns over the conveying of board support to make panel can be fast and more easily convey.

Further, it connects the sediment box to go back fixedly connected with on the dwang, it is located to connect the sediment box turn over the top of the transfer roller on the board support, the top and the bottom that connect the sediment box are the opening end, it has the sediment board to connect the inside wall of sediment box along the direction sliding connection who is on a parallel with second conveying support, one side of second conveying support is equipped with the pulling and connects the third driving piece that the sediment board roll-off connects the sediment box.

Connect the sediment box and connect the sediment board through setting up among this technical scheme can be at the in-process that overturns to panel, collect panel saw-dust on the surface, and can also reduce the scope that the saw-dust flies upward, reduce and produce the pollution to the processing environment, in addition, because the top and the bottom that connect the sediment box are the opening end among this technical scheme, and connect the sediment board can roll-off and connect the sediment board, such setting can be after turning panel to second conveying support, through drawing out from connecing the sediment board in the sediment box, thereby make panel can drop to the transfer roller of second conveying support from connecing the opening end of sediment box, place behind second conveying support when panel, again will connect the sediment board to slide back to connect in the sediment box to collect the saw-dust next time and prepare.

Furthermore, one end of the slag receiving box, which is far away from the rotating rod, is positioned on the outer side of the turning plate support.

So set up, can make panel be located completely and connect the sediment box inside, make and connect the sediment box to play more effectual collection effect to the saw-dust on the panel, also can make panel fall into on the second conveying support from the open end that connects the sediment box that can be smooth after being turned to the second conveying support simultaneously.

Furthermore, connect the one end fixedly connected with branch that the dwang was kept away from to the sediment box, the one end that connects the sediment box was kept away from to branch can offset with the top that turns over the board support.

Among this technical scheme, the setting of branch can be when connecing the sediment box to be located to turn over the board support top, makes the support with turn over the board support counterbalance and butt joint the sediment box and play the supporting role, avoids connecing the sediment box to keep away from the one end of dwang unsettled to reduce the pressure to the dwang.

Further, the third driving part comprises an air cylinder, an output shaft of the air cylinder is fixedly connected with a suction plate, the slag receiving box is located on the second conveying support, the suction plate is opposite to the slag receiving plate, and the suction plate can tightly suck the slag receiving plate.

In the technical scheme, the output shaft of the driving cylinder moves in a telescopic mode, so that the slag receiving plate is pulled out from the slag receiving box or is reset.

Drawings

FIG. 1 is a perspective view of a plate turnover machine for processing plates according to a first embodiment of the present invention;

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

FIG. 3 is a left side view of an embodiment of a panel processing turnover machine according to the present invention;

FIG. 4 is a schematic diagram illustrating a state of a skew cylinder for correcting a skew plate according to an embodiment of the plate turnover machine for plate processing of the present invention;

FIG. 5 is a schematic diagram illustrating a receiving box and a turning rod of a second embodiment of a panel processing turning machine according to the present invention after turning to a second conveying frame;

fig. 6 is a perspective view of a second embodiment of the plate processing turnover machine according to the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the plate turning device comprises a plate turning support 2, a conveying roller 4, an upright post 5, a case 6, a rotating rod 7, a plate turning rod 8, a reinforcing rib 9, a support frame 10, a sucker 11, a fixing plate 12, a support 13, an inclined cylinder 14, a rotating shaft 15, a plate 16, a first conveying support 17, a connecting pipe 18, a second conveying support 19, a slag receiving box 20, a slag receiving plate 21, a supporting rod 22, a fixing seat 23, an air cylinder 24, a suction plate 25, a connecting plate 26 and a connecting rod 27.

Example one

The embodiment is basically as shown in the attached figure 1: the utility model provides a panel processing panel turnover machine, including the conveying unit, the conveying unit includes first transmission support 17 in proper order along the direction of transfer of panel 16, turn over board support 2 and second transmission support 19, first transmission support 17, second transmission support 19 and turn over all the rotation on the board support 2 and be connected with a plurality of transfer rollers 4, first transmission support 17 and the carving room intercommunication of carving patterns to panel 16 in this embodiment, and second transmission support 19 and the room intercommunication of polishing to panel 16, first transmission support 17 and turn over board support 2 and be located same water flat line, second transmission support 19 sets up with turning over board support 2 is perpendicular.

Still include in this embodiment to turn over panel 16 on the board support 2 and turn over the turn-down unit on the second conveying support 19, turn-down unit in this embodiment includes dwang 7, sucking disc subassembly and the rotatory first driving piece of drive dwang 7, the longitudinal section of dwang 7 is the rectangle structure in this embodiment, dwang 7 is located second conveying support 19 and turns over between the board support 2, dwang 7 both ends all are equipped with stand 5 and quick-witted case 6, stand 5 passes through the bolt fastening with ground, quick-witted case 6 is located stand 5 top and passes through the bolt fastening with stand 5 top, first driving piece is first motor (not shown in the figure), first motor is equipped with two, two first motors are installed respectively in two quick-witted casees 6, the output shaft of two first motors passes through shaft coupling fixed connection with the both ends of dwang 7 respectively.

Be equipped with a plurality of turnover poles 8 on dwang 7, turnover pole 8 is equipped with threely in this embodiment, and three turnover pole 8 is located respectively and turns over between two adjacent transfer rollers 4 on the board support 2, and three turnover pole 8 respectively with the bottom welded fastening of dwang 7, still welded fastening has strengthening rib 9 between turnover pole 8 and the dwang 7, and the one end that dwang 7 was kept away from to turnover pole 8 is located and turns over board support 2 inboards.

As shown in fig. 3, in this embodiment, the turning rod 8 is inclined downward from left to right, one end of the turning rod 8 away from the rotating rod 7 is provided with a support frame 10, the end of the turning rod 8 away from the rotating rod 7 is placed on the top of the support frame 10, and the support frame 10 can support the turning rod 8, so as to prevent the support frame 10 from suspending and exerting a large pressure on the rotating rod 7.

Sucking disc subassembly is equipped with three groups in this embodiment, three sucking disc subassemblies are fixed connection respectively on three roll-over pole 8, turn over 2 outsides of board support and install negative pressure machine (not shown in the figure), combine fig. 1 and fig. 2 to show, sucking disc subassembly all includes sucking disc 11 and connecting pipe 18 in this embodiment, the one end and the sucking disc 11 intercommunication of connecting pipe 18, the other end and the negative pressure machine intercommunication of connecting pipe 18, sucking disc 11 is located one side of roll-over pole 8 in this embodiment, and the lateral wall welded fastening who moves pole 8 has connecting plate 26 in the roll-over, sucking disc 11 passes through bolt fixed connection with connecting plate 26.

In this embodiment, a deviation rectifying unit is arranged between the first transmission bracket 17 and the flap bracket 2, the deviation rectifying unit includes two inclined cylinders 14 symmetrically arranged with each other, a rotating shaft 15 is coaxially welded and fixed between the two inclined cylinders 14, and the deviation rectifying unit further includes a second driving member for driving the rotating shaft 15 to rotate. In this embodiment, the supports 13 are symmetrically disposed on two sides of the first transmission support 17, the fixing plates 12 are welded and fixed to the bottom ends of the supports 13, the fixing plates 12 are fixed to the ground through bolts, two ends of the rotating shaft 15 are rotatably connected to the two supports 13 through bearings, one end of the rotating shaft 15 penetrates through the supports 13 and is connected to the second driving member, the second driving member in this embodiment is a second motor (not shown in the figure), and one end of the rotating shaft 15 penetrates through the supports 13 and is fixedly connected to the second motor through a coupler. The spindle 15 in this embodiment is lower than the transport roller 4 on the first transport carriage 17 and lower than the transport roller 4 on the flap carriage 2.

In this embodiment, the two oblique cylinders 14 have oblique ends, and the other ends of the oblique cylinders 14 are flat surfaces, so that the oblique cylinders 14 have different thicknesses in the axial direction.

In use, the sheet 16 is finished engraved from the engraving chamber and transferred to the first transfer carriage 17, which, as shown in connection with figure 4, drives the rotation of the second motor, thereby causing the oblique cylinders 14 to rotate, and during the rotation of the two oblique cylinders 14, when the thinner side of the oblique cylinders 14 is positioned above the conveying roller 4, the distance between the two oblique cylinders 14 is relatively large, and the sheet material 16 is located between the two oblique cylinders 14, and if the sheet material 16 is inclined, as shown in connection with fig. 1, when the thicker side of the oblique cylinders 14 is rotated above the transfer roller 4, the thicker side of the two oblique cylinders 14 will push the sheet material 16, because the two oblique cylinders 14 are symmetrically arranged, during the process that the oblique cylinders 14 push the plate 16, the two oblique cylinders 14 make the two sides of the plate 16 contact with the oblique cylinders 14, so as to realize the function of rectifying deviation for the plate 16, and the plate 16 enters the turnover panel bracket 2 in a state of keeping parallel with the second conveying bracket 19.

After panel 16 got into and turns over board support 2, and be located three turnover pole 8 directly over the back, through starting first motor and negative pressure machine, make first motor drive dwang 7 rotate, and dwang 7 drives three turnover pole 8 and overturns to second conveying support 19 direction, negative pressure machine makes sucking disc 11 produce the negative pressure simultaneously, carry out tight absorption with panel 16 when sucking disc 11 contacts panel 16, thereby on stable and effectual upset to second conveying support 19 with panel 16, then close the negative pressure machine again, make the negative pressure of sucking disc 11 disappear, thereby make sucking disc 11 break away from panel 16, panel 16 is placed on conveying roller 4 of second conveying support 19, at last the reversal of first motor of redriving, make the stirring unit reset.

The back surface of the plate material 16 placed on the second transfer frame 19 is faced upward, and the plate material 16 is transferred to the grinding chamber by the transfer rollers 4 of the second transfer frame 19 to be ground.

Example two

A panel processing panel turnover machine, difference with embodiment one lies in: in this embodiment, a first position sensor is disposed at one end of the turning plate bracket 2 close to the first transmission bracket 17, a second position sensor is disposed at one end of the turning plate bracket 2 far from the second transmission bracket 19, the first position sensor is located at the turning rod 8 close to the first transmission bracket 17, and the second position sensor is located at the turning rod 8 far from the first transmission bracket 17.

The first and second position sensors are electrically connected to a controller, in this embodiment a controller of the type SPC-SFMC-X2214A. The controller is electrically connected with the first motor and the negative pressure machine, and the controller can control the starting of the first motor and the negative pressure machine.

The second position sensor is electrically connected to the negative pressure machine, and when the second position sensor senses the sheet material 16, the controller will control the first motor and the negative pressure machine to start simultaneously.

First position sensor and second position sensor can sense the both ends of panel 16 and get into respectively on turning over board support 2 among this technical scheme, get into respectively when panel 16 both ends and turn over the board support 2 back on, first position sensor and second position sensor give the controller with feedback signal, make the first motor of controller control start to make first motor drive dwang 7 rotate, and then dwang 7 just drives roll-over pole 8 and overturn on second conveying support 19, just so realized the effect of turning over to panel 16.

After panel 16 is sensed to second sensor among this technical scheme, explain promptly that whole panel 16 has got into completely and turns over board support 2, controller control first motor and negative pressure machine start simultaneously this moment, can make the pole 8 that turns over just make sucking disc 11 produce the negative pressure at the in-process that turns like this, prepare to adsorb panel 16, ensured like this that sucking disc 11 can be quicker adsorb panel 16, the adsorption effect is better.

EXAMPLE III

As shown in fig. 5, a plate-processing turnover machine differs from the first embodiment in that: still welded fastening has two connecting rods 27 on the dwang 7, and the one end welded fastening that the dwang 7 was kept away from to connecting rod 27 has and connects sediment box 20, connects sediment box 20 to realize fixed connection through connecting rod 27 and dwang 7.

As shown in fig. 6, the slag receiving box 20 is located above the conveying roller 4 on the flap support 2, one end of the slag receiving box 20, which is far away from the rotating rod 7, extends out of the outer side of the flap support 2, such arrangement enables the plate 16 to be conveyed onto the flap support 2, the plate 16 is completely located in the slag receiving box 20, both the top end and the bottom end of the slag receiving box 20 are open ends, the inner side wall of the slag receiving box 20 is slidably connected with a slag receiving plate 21 along a direction parallel to the second conveying support 19, in this embodiment, sliding grooves (not shown in the figure) are formed in the slag receiving box 20 and located on both sides thereof, and both ends of the slag receiving box 20 are respectively inserted into the sliding grooves.

A support rod 22 is welded and fixed at one end of the slag receiving box 20 far away from the rotating rod 7, and one end of the support rod 22 far away from the slag receiving box 20 can be abutted against the top end of the turning plate support 2.

Both sides of second conveying support 19 all are equipped with fixing base 23, and fixing base 23 passes through the bolt fastening with ground, and one side of second conveying support 19 is equipped with the third driving piece that the pulling connects slag plate 21 roll-off to connect slag box 20, and the third driving piece in this embodiment is equipped with two, and two third driving pieces are located the both sides of second conveying support 19 respectively.

The third driving pieces all comprise air cylinders 24, and cylinder bodies of the air cylinders 24 are fixedly connected with the fixing seats 23 through bolts respectively. An output shaft of the cylinder 24 is fixedly connected with a suction plate 25 through a screw, the suction plate 25 is communicated with a negative pressure machine, one end of the suction plate 25, facing the slag receiving box 20, is provided with a suction hole (not shown in the figure), and when the slag receiving box 20 is turned over to the second conveying support 19, the suction plate 25 is opposite to the slag receiving plate 21.

During the use, convey to turning over on the board support 2 and be located three turnover pole 8 directly over when panel 16, panel 16 still is located and connects sediment box 20 below this moment, through driving first motor and negative pressure machine, make dwang 7 drive turnover pole 8 and connect sediment box 20 to rotate simultaneously, sucking disc 11 adsorbs panel 16 simultaneously, turnover pole 8 drives the in-process of 16 upsets of panel, it can reduce the scope that the saw-dust on the panel 16 surface flies upward to connect sediment box 20, and panel 16 is being in-process by the stirring, most saw-dust can fall into and connect in the sediment box 20, the saw-dust amount of flying is reduced.

Referring to fig. 5, when the slag receiving box 20 and the plate 16 are turned over to the second conveying support 19, the output shaft of the cylinder 24 is extended toward the slag receiving box 20, so that the suction plate 25 on the output shaft of the cylinder 24 sucks the slag receiving plate 21, and then the output shaft of the cylinder 24 is controlled to retract, so that the suction plate 25 pulls the slag receiving plate 21 to slide toward the outside of the slag receiving box 20, so that the plate 16 can fall on the second conveying support 19 from the open end of the slag receiving box 20, and at this time, the wood chips on the slag receiving plate 21 sliding out of the slag receiving box 20 are cleaned, and the process of cleaning the slag receiving plate 21 can be manually cleaned, or the wood chips can be automatically cleaned through a mechanical structure.

After the plate 16 is placed on the second conveying bracket 19, the output shaft of the driving cylinder 24 extends towards the slag receiving box 20, so that the slag receiving plate 21 is reset, and then the negative pressure of the suction plate 25 disappears, so that the suction plate 25 is separated from the slag receiving plate 21. Finally, the first motor is driven to rotate reversely, so that the slag receiving box 20 and the turnover rod 8 are reset.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims (10)

1. A plate turning machine for processing plates comprises a conveying unit, wherein the conveying unit comprises a first conveying support, a turning plate support and a second conveying support which are sequentially distributed along the conveying direction of the plates, conveying rollers are rotatably connected on the first conveying support, the second conveying support and the turning plate support, and a turning unit for turning the plates on the turning plate support onto the second conveying support is also included, the plate turning machine is characterized in that the turning unit comprises a rotating rod, a sucker component and a first driving piece for driving the rotating rod to rotate, a plurality of turning rods are fixedly connected on the rotating rod and are respectively positioned between two adjacent conveying rollers on the turning plate support, the sucker component is fixedly connected on the turning rod, a deviation rectifying unit is arranged between the first conveying support and the turning plate support and comprises two inclined cylinders which are symmetrically arranged, two oblique cylinder between fixedly connected with pivot, still include drive pivot pivoted second driving piece.

2. The plate turnover machine for processing plates as claimed in claim 1, wherein a first position sensor is arranged at one end of the plate turnover support close to the first conveying support, a second position sensor is arranged at one end of the plate turnover support far from the second conveying support, the first driving member is a motor, the first position sensor and the second position sensor are electrically connected with a controller, and the controller controls the motor to be turned on and off.

3. The plate turnover machine of claim 2, wherein said suction cup assemblies are provided in a plurality of sets, and said suction cup assemblies are respectively located on said turnover rods.

4. The board processing turnover machine of claim 3, further comprising a negative pressure machine for providing negative pressure to the sucker component, wherein the second position sensor is electrically connected with the negative pressure machine, and when the second position sensor senses a board, the controller controls the motor and the negative pressure machine to be started simultaneously.

5. The plate turnover machine for plate processing as claimed in claim 1, wherein the first conveying support is symmetrically provided with two supports at both sides thereof, two ends of the rotating shaft are rotatably connected with the two supports respectively, and one end of the rotating shaft penetrates through the supports and is fixedly connected with the second driving member.

6. A plate-processing turnover machine according to claim 5, characterized in that said rotating shaft is lower than said conveying roller.

7. The plate turnover machine for plate processing according to claim 1, wherein a slag receiving box is further fixedly connected to the rotating rod, the slag receiving box is located above the conveying roller on the plate turnover support, both the top end and the bottom end of the slag receiving box are open ends, a slag receiving plate is slidably connected to the inner side wall of the slag receiving box along a direction parallel to the second conveying support, and a third driving member for pulling the slag receiving plate to slide out of the slag receiving box is arranged on one side of the second conveying support.

8. The plate turnover machine for processing plates as claimed in claim 7, wherein one end of the slag receiving box, which is far away from the rotating rod, is positioned outside the flap support.

9. The plate turnover machine for processing plates as claimed in claim 8, wherein a support rod is fixedly connected to an end of the slag receiving box away from the rotating rod, and an end of the support rod away from the slag receiving box can abut against the top end of the plate turnover support.

10. The plate turnover machine for processing plates as claimed in claim 7, wherein the third driving member comprises an air cylinder, an output shaft of the air cylinder is fixedly connected with a suction plate, when the slag receiving box is positioned on the second conveying support, the suction plate is opposite to the slag receiving plate, and the suction plate can tightly suck the slag receiving plate.

Images