CN212470968U - A tangent plane grinds and grinds aftertreatment equipment for panel or sheet - Google Patents

Abstract

The utility model discloses a tangent plane grinding and mill aftertreatment equipment for panel or sheet, this equipment are including grinding module, dust removal module, spraying module, the boiling hot module that rolls that sets gradually, grinding module is used for grinding about the upper and lower tangent plane of panel or sheet, dust removal module is used for cleaing away the dust that leaves after grinding on panel or sheet, spraying module is used for lapping surface spraying glue or the pigment to panel or sheet, the boiling hot module is used for accomplishing about the lapping surface of panel or sheet thermoprint from top to bottom. The utility model discloses a can realize continuous line production, high automation, reach 20 times efficiency promotion.

Description

A tangent plane grinds and grinds aftertreatment equipment for panel or sheet

Technical Field

The utility model belongs to the technical field of the printing, concretely relates to tangent plane grinding and mill aftertreatment equipment for panel or sheet.

Background

With the development of economy and consumption, a large number of exquisite books, greeting cards, notebooks, fine packaging gift boxes, playing cards and other products are required in the market, the printing of the exquisite products is exquisite, but the market of equipment for processing tangent planes in a full-automatic mode with high efficiency is blank at present; the existing simple manual equipment has low precision, low efficiency and low yield, and can not meet the product quality requirement.

SUMMERY OF THE UTILITY MODEL

In view of the above, the main object of the present invention is to provide a tangent plane grinding and post-grinding treatment device for plates or sheets.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

the embodiment of the utility model provides a tangent plane grinding and mill aftertreatment equipment for panel or sheet, this equipment is including grinding module, dust removal module, spraying module, the boiling hot module that sets gradually, grinding module is used for grinding about the upper and lower tangent plane of panel or sheet, dust removal module is used for cleaing away the dust that leaves after grinding on panel or sheet, the spraying module is used for to panel or sheet's abrasive surface spraying glue or pigment, the boiling hot module is used for accomplishing about to panel or sheet's abrasive surface about the upper and lower thermoprint.

In the above scheme, grind the module and include first slide bracket, first fixed platform, left side and grind mechanism, right side and grind the mechanism, grind the mechanism from top to bottom, first slide bracket and first fixed platform set up relatively on mounting platform, first slide bracket is connected with driving motor and is used for driving it to remove to first fixed platform, a left side is ground the mechanism and is set up on first slide bracket, right side is ground the mechanism and is set up on first fixed platform, grind the mechanism setting from top to bottom in mounting platform's upper and lower both sides.

In the above scheme, the left grinding mechanism comprises a left coarse grinding mechanism and a left fine grinding mechanism, the left coarse grinding mechanism and the left fine grinding mechanism are sequentially arranged on the first sliding platform along the conveying direction of the plate or the sheet, the right grinding mechanism comprises a left coarse grinding mechanism and a right fine grinding mechanism, and the left coarse grinding mechanism and the right fine grinding mechanism are sequentially arranged on the first fixed platform along the conveying direction of the plate or the sheet.

In the above scheme, left side gross grinding mechanism, left finish grinding mechanism, left gross grinding mechanism and right finish grinding mechanism all include first driving motor, first grinding tool axle, primary shaft support, first grinding apparatus, primary shaft support sets up perpendicularly on first sliding platform or first fixed platform, first grinding tool axle sets up on primary shaft support and one end passes through the driving medium with first driving motor and is connected, first grinding tool cover is established at first grinding tool epaxially and fixed through first locking wheel.

In the above scheme, left rough grinding mechanism, left finish grinding mechanism still include first manual fine-tuning, first manual fine-tuning sets up the position that is used for finely tuning first sliding platform between mounting platform and first sliding platform, first manual fine-tuning includes first fine setting hand wheel, drive screw, first meshing gear, first fine setting hand wheel setting is in the outside of mounting platform and be connected with the drive screw of level setting, first meshing gear setting is in the bottom of first sliding platform and with the drive screw meshing.

In the above scheme, grind the mechanism from top to bottom and include first elevating system, go up rough grinding mechanism, rough grinding mechanism down, go up accurate grinding mechanism, accurate grinding mechanism down, mounting platform's downside sets gradually down rough grinding mechanism, accurate grinding mechanism down along the direction of transfer of panel or sheet, mounting platform's upside sets gradually rough grinding mechanism, goes up accurate grinding mechanism along the direction of transfer of panel or sheet, rough grinding mechanism, last accurate grinding mechanism all are connected through the upside of first elevating system with mounting platform.

In the above scheme, go up rough grinding mechanism and last finish grinding mechanism and all include vertical line support, sharp module, secondary shaft support, second grinding tool axle, second grinding tool, second driving motor, vertical line support sets up perpendicularly on mounting platform, the secondary shaft support through the sharp module that both sides set up with vertical line leg joint, second grinding tool axle transversely sets up on the secondary shaft support and outside cover establishes the second grinding tool, second driving motor sets up in secondary shaft support outside one side and through driving medium and second mould hub connection.

In the above scheme, lower rough grinding mechanism and lower finish grinding mechanism all include third axle support, third grinding tool axle, third grinding tool, third driving motor, third axle support and vertical line leg joint, third grinding tool axle transversely sets up on the third axle support and the third grinding tool is established to the outside cover, third driving motor sets up in the outside one side of third axle support and through driving medium and third mould hub connection.

In the above scheme, the first grinding tool, the second grinding tool and the third grinding tool each include an upper grinding tool, a middle grinding tool and a lower grinding tool, the upper grinding tool, the middle grinding tool and the lower grinding tool are stacked, and the number of the middle grinding tools is greater than or equal to one.

In the above scheme, go up rough grinding mechanism, go up accurate grinding mechanism, rough grinding mechanism and accurate grinding mechanism down and still all include the manual fine-tuning of second, the manual fine-tuning of second includes second fine setting hand wheel, transmission shaft, second meshing gear, horizontal gear, the one end of transmission shaft sets up second fine setting hand wheel, and the other end sets up second meshing gear, second meshing gear and the horizontal gear meshing of cover on the transfer line are established.

In the above scheme, the dust removal module includes second sliding platform, second fixed platform, left dust removal mechanism, right dust removal mechanism, goes up dust removal mechanism, lower dust removal mechanism, second sliding platform and second fixed platform set up relatively on mounting platform, left side dust removal mechanism sets up on second sliding platform, right side dust removal mechanism sets up on second fixed platform, it sets up the upper and lower both sides at mounting platform respectively to go up dust removal mechanism, lower dust removal mechanism.

In the above scheme, left side dust removal mechanism, right side dust removal mechanism, go up dust removal mechanism, lower dust removal mechanism all include fourth shaft support, pivot, dust removal roller, fourth driving motor, the both ends setting of pivot is passed through the driving medium and is connected with fourth driving motor at one end on the fourth shaft support, the dust removal roller cover is established in the pivot.

In the above scheme, the spraying module includes third sliding platform, third fixed platform, left spraying mechanism, right spraying mechanism, goes up spraying mechanism, lower spraying mechanism, third sliding platform and third fixed platform set up relatively on mounting platform, left side spraying mechanism sets up on third sliding platform, right side spraying mechanism sets up on third fixed platform, it sets up respectively in mounting platform's upper and lower both sides to go up spraying mechanism, lower spraying mechanism.

In the above scheme, the left spraying mechanism, the right spraying mechanism, the upper spraying mechanism and the lower spraying mechanism respectively comprise a first sliding rod, a second sliding rod and a spray gun, the first sliding rod is horizontally or vertically arranged, the second sliding rod is slidably arranged on the first sliding rod, and the spray gun is slidably arranged on the second sliding rod.

In the above scheme, roll and scald the module and include roll boiling hot mechanism, second elevating system, roll boiling hot mechanism, fourth sliding platform, fourth fixed platform on the right side down on rolling boiling hot mechanism, roll boiling hot mechanism down and set up the upper and lower both sides at mounting platform respectively, on roll boiling hot mechanism and pass through the upside of second elevating system setting at mounting platform, fourth sliding platform and fourth fixed platform set up on mounting platform relatively, roll on a left side and scald the mechanism and set up on fourth sliding platform, roll on the right side and scald the mechanism setting on fourth fixed platform.

In the above scheme, the second lifting mechanism comprises a first cylinder, a guide shaft and a lifting platform, the output end of the first cylinder is connected with the upper rolling mechanism, the guide shaft is located on two sides of the first cylinder, and the end part of the guide shaft is connected with the lifting platform.

In the above scheme, the upper rolling and ironing mechanism, the lower rolling and ironing mechanism, the left rolling and ironing mechanism and the right rolling and ironing mechanism all comprise an unwinding mechanism, a winding mechanism, a rolling and ironing sub-mechanism and a rack, the rolling and ironing sub-mechanism is arranged in the middle area of the rack, and the unwinding mechanism and the winding mechanism are respectively located on two sides of the rack.

In the above scheme, unwinding mechanism is including unreeling the support, unreeling roller, tension spring, the one side of unreeling the support is connected with the frame, it still is connected with winding mechanism through the connecting rod to unreel the support, unreeling the roller setting on unreeling the support, the tension spring cover is established on unreeling the roller.

In the above scheme, winding mechanism includes rolling motor, rolling support, wind-up roll, one side and the frame of rolling support are connected to through the connecting rod with unreel the leg joint, rolling motor sets up outside frame one side and through belt and rolling leg joint, the wind-up roll sets up on rolling support.

In the above scheme, the roll iron mechanism includes main motor, synchronizing wheel, rotation axis, fixed axle, silica gel roller, heating element, the rotation axis sets up in the frame to set up the fixed axle between two rotation axes, the silica gel roller cover is established outside the fixed axle, a silica gel roller side end face sets up heating element, main motor sets up in the frame outside and drive the synchronizing wheel rotation through the belt, the synchronizing wheel is connected with the rotation axis.

In the above scheme, heating element includes the heating rod, silica gel roller side end face all sets up a plurality of heating rod holes, and every heating rod is downthehole all to set up the heating rod.

In the above scheme, the equipment further comprises a material preparation module, a feeding module and a feeding buffering module, wherein the material preparation module is connected with the feeding module and used for placing plates or sheets on the material clamp and pushing the plates or sheets to the feeding module, the feeding module is connected with the feeding buffering module and used for guiding the material clamp placed with the plates or the sheets to move to the feeding buffering module and pushing the material clamp placed with the plates or the sheets in the feeding buffering module to move to the grinding module, and the feeding buffering module is connected with the grinding module and used for translating the material clamp placed with the plates or the sheets to the other side and moving to the grinding module under the action of the feeding module.

In the scheme, the equipment further comprises a material receiving module, wherein the material receiving module is connected with the discharge end of the rolling and ironing mechanism through a conveying module and is used for taking out the processed plates or sheets and the material clamp.

In the above scheme, the module of prepareeing material and receiving the material module all include horizontal frame, perpendicular frame, anchor clamps plummer, hold-in range, first guide rail, driving motor, anchor clamps jack-up mechanism, the top both sides of horizontal frame set up first guide rail respectively, and inside both sides set up the hold-in range respectively, the hold-in range is connected with outside driving motor through pivot and cingulum, the anchor clamps plummer slides and sets up on first guide rail and drive the removal through the hold-in range, erect the frame and stride and establish the one side at horizontal frame, anchor clamps jack-up mechanism sets up and is used for spacing the anchor clamps plummer in the one side of erecting the frame.

In the scheme, the clamp jacking mechanism comprises a second cylinder, a cylinder guide hole and a limiting plate, the second cylinder is arranged outside one side of the vertical rack, the gas rod ejector rod penetrates through the cylinder guide hole, the limiting plates are arranged on the upper side and the lower side of the gas rod ejector rod respectively, and the limiting plates are fixed on one side of the vertical rack through bolts.

In the above scheme, the feeding module includes a feeding platform, an electric cylinder, and a positioning guide wheel, the electric cylinder is disposed on one side of the feeding platform, and the output end of the electric cylinder faces the right side of the feeding buffer module, and the positioning guide wheel is disposed on a plurality of sides of the electric cylinder.

In the above scheme, the feeding buffer module comprises a second guide rail, a sliding plate and guide wheels, the sliding plate is arranged on the second guide rail in a sliding mode, a plurality of guide wheels are arranged on two sides of the sliding plate respectively, and the distance between the guide wheels on the two sides is matched with the width of the material clamp.

Compared with the prior art, the utility model discloses a can realize continuous line production, high automation, reach 20 times efficiency promotion.

Drawings

Fig. 1 is a schematic structural diagram of a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a grinding module in a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a left rough grinding mechanism in a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

FIG. 4 is a side view of FIG. 3;

FIG. 5 is a schematic structural diagram of an upper rough grinding mechanism and an upper fine grinding mechanism in a tangent plane grinding and post-grinding treatment device for plates or sheets according to an embodiment of the present invention;

FIG. 6 is a top view of an upper rough grinding mechanism and an upper fine grinding mechanism in a tangent plane grinding and post-grinding treatment device for plates or sheets according to an embodiment of the present invention;

fig. 7 is a bottom view of an upper rough grinding mechanism and an upper fine grinding mechanism in a tangent plane grinding and post-grinding treatment device for plates or sheets according to an embodiment of the present invention;

FIG. 8 is a side view of an upper rough grinding mechanism and an upper finish grinding mechanism in an apparatus for grinding and post-grinding a cut surface of a sheet or plate according to an embodiment of the present invention;

fig. 9 is a front view of a lower rough grinding mechanism and a lower fine grinding mechanism in a tangent plane grinding and post-grinding treatment device for a plate or sheet according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a first grinding tool, a second grinding tool and a third grinding tool in a section grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

fig. 11 is a schematic structural diagram of a grinding tool used in a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

fig. 12 is a schematic structural diagram of a dust removal module in a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

fig. 13 is a side view of a dust removal module in a tangent plane grinding and post-grinding treatment device for a plate or sheet according to an embodiment of the present invention;

fig. 14 is a schematic structural diagram of a left dust removing mechanism in a tangent plane grinding and post-grinding treatment device for plates or sheets according to an embodiment of the present invention;

fig. 15 is a schematic structural diagram of a spraying module in a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

fig. 16 is a schematic structural diagram of a left spraying mechanism in a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

fig. 17 is a schematic structural diagram of a scalding module in a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention;

fig. 18 is a schematic structural view of an upper roller ironing mechanism in a section grinding and post-grinding treatment device for plates or sheets according to an embodiment of the present invention;

fig. 19 is a rear view of an upper roller ironing mechanism in a section grinding and finishing apparatus for plates or sheets according to an embodiment of the present invention;

fig. 20 is a schematic structural diagram of a material preparation module in a tangent plane grinding and post-grinding treatment device for a plate or a sheet according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The embodiment of the utility model provides a tangent plane grinding and mill aftertreatment equipment for panel or sheet, as shown in fig. 1, this equipment is including grinding module 1, dust removal module 2, spraying module 3, the boiling hot module 4 that rolls that set gradually, grinding module 1 is used for grinding about the tangent plane about panel or sheet, dust removal module 2 is used for cleaing away the dust that leaves after grinding on panel or sheet, spraying module 3 is used for to the abrasive surface spraying glue or the pigment of panel or sheet, the boiling hot module 4 is used for accomplishing about the abrasive surface of panel or sheet thermoprint from top to bottom.

As shown in fig. 2, the grinding module 1 includes a first sliding platform 11, a first fixed platform 12, a left grinding mechanism 13, a right grinding mechanism 14, an upper and lower grinding mechanism 15, and a lower grinding mechanism 16, where the first sliding platform 11 and the first fixed platform 12 are relatively disposed on the mounting platform, the first sliding platform 11 is connected to a driving motor for driving the first sliding platform 11 to move toward the first fixed platform 12, the left grinding mechanism 13 is disposed on the first sliding platform 11, the right grinding mechanism 14 is disposed on the first fixed platform 12, and the upper and lower grinding mechanisms 15 are disposed on upper and lower sides of the mounting platform.

The left grinding mechanism 13 comprises a left coarse grinding mechanism 131 and a left fine grinding mechanism 132, the left coarse grinding mechanism 131 and the left fine grinding mechanism 132 are sequentially arranged on the first sliding platform 11 along the conveying direction of the plate or the sheet, the right grinding mechanism 14 comprises a left coarse grinding mechanism 141 and a right fine grinding mechanism 142, and the left coarse grinding mechanism 141 and the right fine grinding mechanism 142 are sequentially arranged on the first fixed platform 12 along the conveying direction of the plate or the sheet.

As shown in fig. 3 and 4, each of the left rough grinding mechanism 131, the left finish grinding mechanism 132, the left rough grinding mechanism 141, and the right finish grinding mechanism 142 includes a first driving motor 1311, a first grinding tool shaft 1312, a first shaft bracket 1313, a first grinding tool 1314, the first shaft bracket 1313 is vertically disposed on the first sliding platform 11 or the first fixed platform 12, the first grinding tool shaft 1312 is disposed on the first shaft bracket 1313 and is connected to the first driving motor 1311 at one end, and the first grinding tool 1314 is sleeved on the first grinding tool shaft 1312 and is fixed by a first locking wheel 1315.

The first grinding tool 1314 of the left rough grinding mechanism 131, the left finish grinding mechanism 132, the left rough grinding mechanism 141 and the right finish grinding mechanism 142 is a rough grinding tool and a finish grinding tool, respectively.

In the left rough grinding mechanism 131 and the left finish grinding mechanism 132, the first grinding tool 1314 faces the side of the first fixed platform 12.

The left rough grinding mechanism 131 and the left fine grinding mechanism 132 further include a first manual fine adjustment mechanism 1316, and the first manual fine adjustment mechanism 1316 is disposed between the mounting platform and the first sliding platform 11 for fine adjustment of the position of the first sliding platform 11.

The first manual fine adjustment mechanism 1316 comprises a first fine adjustment hand wheel 13161, a drive screw 13162, a first meshing gear 13163, the first fine adjustment hand wheel 13161 is arranged on the outer side of the mounting platform and is connected with the horizontally arranged drive screw 13162, and the first meshing gear 13163 is arranged on the bottom of the first sliding platform 11 and is meshed with the drive screw 13162.

In the left rough grinding mechanism 141 and the right finish grinding mechanism 142, the first shaft bracket 1313 is vertically disposed on the first fixed platform 12, and the first grinding tool 1314 faces the side of the first sliding platform 11.

The vertical grinding mechanism 15 comprises a first lifting mechanism 151, an upper rough grinding mechanism 152, a lower rough grinding mechanism 153, an upper fine grinding mechanism 154 and a lower fine grinding mechanism 155, the lower side of the mounting platform is sequentially provided with the lower rough grinding mechanism 153 and the lower fine grinding mechanism 155 along the conveying direction of the plate or the sheet, the upper side of the mounting platform is sequentially provided with the upper rough grinding mechanism 152 and the upper fine grinding mechanism 154 along the conveying direction of the plate or the sheet, and the rough grinding mechanism 152 and the upper fine grinding mechanism 154 are connected with the upper side of the mounting platform through the first lifting mechanism 151.

The first lifting mechanism 151 includes a lifting motor, and an output end of the lifting motor is connected to the upper rough grinding mechanism 152 or the upper fine grinding mechanism 154 through a transmission rod.

As shown in fig. 5 to 8, each of the upper rough grinding mechanism 152 and the upper fine grinding mechanism 154 includes a longitudinal line support 1521, a linear module 1522, a second shaft support 1523, a second grinding tool shaft 1524, a second grinding tool 1525, and a second driving motor 1526, the longitudinal line support 1521 is vertically disposed on the mounting platform, the second shaft support 1523 is connected to the longitudinal line support 1521 through the linear modules 1522 disposed on two sides, the second grinding tool shaft 1524 is transversely disposed on the second shaft support 1523 and externally sleeved with the second grinding tool 1525, and the second driving motor 1526 is disposed on one side of the outer portion of the second shaft support 1523 and connected to the second grinding tool shaft 1524 through a transmission member.

A locking wheel 1527 is arranged at the end of the second grinding tool shaft 1524.

The transmission part adopts a transmission belt.

The second grinding tool 1525 of the upper rough grinding mechanism 152 and the upper finish grinding mechanism 154 is a rough grinding tool and a finish grinding tool, respectively.

The abrasive tools include, but are not limited to, flat abrasive wheels, cylindrical abrasive wheels, abrasive belts.

As shown in fig. 9, each of the lower rough grinding mechanism 153 and the lower finish grinding mechanism 155 includes a third shaft holder 1531, a third grinding tool shaft 1532, a third grinding tool 1533, and a third driving motor, the third shaft holder 1531 is connected to the longitudinal line holder 1521, the third grinding tool shaft 1532 is transversely disposed on the third shaft holder 1531 and externally sleeved with the third grinding tool 1533, and the third driving motor is disposed on one side of the outside of the third shaft holder 1531 and connected to the third tool shaft 1532 through a transmission member.

The third grinding tool 1533 of the lower rough grinding mechanism 153 and the lower finish grinding mechanism 155 is a rough grinding tool and a finish grinding tool, respectively.

As shown in fig. 10, each of the first grinding tool 1314, the second grinding tool 1525 and the third grinding tool 1533 includes an upper grinding tool 15251, a middle grinding tool 15252 and a lower grinding tool 15253, the upper grinding tool 15251, the middle grinding tool 15252 and the lower grinding tool 15253 are stacked, and the number of the middle grinding tools 15252 is greater than or equal to one.

As shown in fig. 11, the upper grinding tool 15251, the middle grinding tool 15252 and the lower grinding tool 15253 are circumferential, a mounting hole 15254 is formed in the center of the circumference, and a plurality of heat dissipation holes 15255 are formed around the circumference.

One surfaces of the upper grinding tool 15251 and the lower grinding tool 15253 are horizontal, the other surfaces of the upper grinding tool 15251 and the lower grinding tool 15253 are inclined, and the front view of the upper grinding tool 15251 and the lower grinding tool 15253 is trapezoidal; the two surfaces of the middle grinding tool 15252 are inclined and parallel, and are in a diamond shape in front view. The inclined planes of the upper grinding tool 15251, the middle grinding tool 15252 and the lower grinding tool 15253 are equal in inclination angle, and a right cylinder is formed after the upper grinding tool 15251, the middle grinding tool 15252 and the lower grinding tool 15253 are combined and tightened.

The output end of the lifting motor of the first lifting mechanism 151 is connected to the third shaft support 1531, and the third shaft support 1531 moves up and down along the linear module 1522 under the driving of the lifting motor.

The upper rough grinding mechanism 152 and the upper fine grinding mechanism 154 further comprise a second manual fine adjustment mechanism 1528, the second manual fine adjustment mechanism 1528 comprises a second fine adjustment hand wheel 15281, a transmission shaft 15282, a second meshing gear 15283 and a horizontal gear 15284, the second fine adjustment hand wheel 15281 is arranged at one end of the transmission shaft 15282, the second meshing gear 15283 is arranged at the other end of the transmission shaft 15282, and the second meshing gear 15283 is meshed with the horizontal gear 15284 sleeved on the transmission shaft.

By rotating the second fine adjustment hand wheel 15281 clockwise or counterclockwise, the second meshing gear 15283 drives the horizontal gear 15284 to rotate, so that fine adjustment of ascending or descending of the second shaft bracket 1523 is performed.

In the lower rough grinding mechanism 153 and the lower fine grinding mechanism 155, the third shaft bracket 1531 is slidably connected to the longitudinal line bracket 1521 through a second manual fine adjustment mechanism 1528, one end of the transmission shaft 15282 is provided with a second fine adjustment hand wheel 15281, the other end of the transmission shaft 15282 is provided with a second meshing gear 15283, and the second meshing gear 15283 is meshed with a horizontal gear 15284 sleeved on the transmission shaft.

As shown in fig. 12 and 13, the dust removal module 2 includes a second sliding platform 21, a second fixed platform 22, a left dust removal mechanism 23, a right dust removal mechanism 24, an upper dust removal mechanism 25, and a lower dust removal mechanism 26, the second sliding platform 21 and the second fixed platform 22 are oppositely disposed on the mounting platform, the left dust removal mechanism 23 is disposed on the second sliding platform 21, the right dust removal mechanism 24 is disposed on the second fixed platform 22, and the upper dust removal mechanism 25 and the lower dust removal mechanism 26 are respectively disposed on the upper side and the lower side of the mounting platform.

As shown in fig. 14, each of the left dust removing mechanism 23, the right dust removing mechanism 24, the upper dust removing mechanism 25, and the lower dust removing mechanism 26 includes a fourth shaft support 231, a rotating shaft 232, a dust removing roller 233, and a fourth driving motor 234, two ends of the rotating shaft 232 are disposed on the fourth shaft support 231, one end of the rotating shaft is connected to the fourth driving motor 234 through a transmission member, and the dust removing roller 233 is sleeved on the rotating shaft 232.

In left dust removal mechanism 23, right dust removal mechanism 24, fourth shaft support 231 sets up perpendicularly respectively on second sliding platform 21 and second fixed platform 22, dust removing roller 233 among the left dust removal mechanism 23 faces second fixed platform 22, dust removing roller 233 among the right dust removal mechanism 24 faces second sliding platform 21.

In the upper and lower dust removing mechanisms 25 and 26, the fourth shaft bracket 231 is horizontally disposed on the bracket and the mounting platform, respectively, the dust removing roller 233 of the upper dust removing mechanism 25 faces downward, and the dust removing roller 233 of the lower dust removing mechanism 26 faces upward.

As shown in fig. 15, the spraying module 3 includes a third sliding platform 31, a third fixed platform 32, a left spraying mechanism 33, a right spraying mechanism 34, an upper spraying mechanism 35, and a lower spraying mechanism 36, the third sliding platform 31 and the third fixed platform 32 are disposed on the mounting platform, the left spraying mechanism 33 is disposed on the third sliding platform 31, the right spraying mechanism 34 is disposed on the third fixed platform 32, and the upper spraying mechanism 35 and the lower spraying mechanism 36 are disposed on the upper side and the lower side of the mounting platform respectively.

As shown in fig. 16, each of the left spraying mechanism 33, the right spraying mechanism 34, the upper spraying mechanism 35, and the lower spraying mechanism 36 includes a first sliding rod 331, a second sliding rod 332, and a spray gun 333, the first sliding rod 331 is disposed horizontally or vertically, the second sliding rod 332 is disposed on the first sliding rod 331 in a sliding manner, and the spray gun 333 is disposed on the second sliding rod 332 in a sliding manner.

In the left and right painting mechanisms 33 and 34, the first sliding bar 331 is vertically disposed on the third sliding platform 31 and the third fixed platform 32, respectively.

In the upper spraying mechanism 35 and the lower spraying mechanism 36, the first sliding rod 331 is horizontally disposed on the bracket and the mounting platform, respectively.

As shown in fig. 17, the ironing mechanism 4 includes an upper ironing mechanism 41, a lower ironing mechanism 42, a second lifting mechanism 43, a left ironing mechanism 44, a right ironing mechanism 45, a fourth sliding platform 46, and a fourth fixed platform 47, the upper ironing mechanism 41 and the lower ironing mechanism 42 are respectively disposed on the upper and lower sides of the mounting platform, the upper ironing mechanism 41 is disposed on the upper side of the mounting platform through the second lifting mechanism 43, the fourth sliding platform 46 and the fourth fixed platform 47 are disposed on the mounting platform relatively, the left ironing mechanism 44 is disposed on the fourth sliding platform 46, and the right ironing mechanism 45 is disposed on the fourth fixed platform 47.

As shown in fig. 18 and 19, the second lifting mechanism 43 includes a first cylinder 431, a guide shaft 432, and a lifting platform 433, the output end of the first cylinder 431 is connected to the upper ironing mechanism 41, and the guide shaft 432 is located at both sides of the first cylinder 431 and has an end connected to the lifting platform 433.

As shown in fig. 18 and 19, each of the upper rolling mechanism 41, the lower rolling mechanism 42, the left rolling mechanism 44, and the right rolling mechanism 45 includes an unwinding mechanism 411, a winding mechanism 412, a rolling mechanism 413, and a frame 414, the rolling mechanism 413 is disposed in a middle area of the frame 414, and the unwinding mechanism 411 and the winding mechanism 412 are respectively located at two sides of the frame 414.

Unreeling mechanism 411 includes unreeling support 4111, unreeling roller 4112, tension spring 4113, unreeling support 4111's one side is connected with frame 414, unreeling support 4111 is still connected with reeling mechanism 412 through connecting rod 4114, unreeling roller 4112 is arranged on unreeling support 4111, tension spring 4113 is arranged on unreeling roller 4112.

The winding mechanism 412 comprises a winding motor 4121, a winding bracket 4122 and a winding roller 4123, wherein one side of the winding bracket 4122 is connected with the frame 414 and is connected with the unwinding bracket 4111 through a connecting rod 4114, the winding motor 4121 is arranged outside the frame 414 and is connected with the winding bracket 4122 through a belt 4124, and the winding roller 4123 is arranged on the winding bracket 4122.

The rotor mechanism 413 comprises a main motor 4131, a synchronizing wheel 4132, a rotating shaft 4133, a fixed shaft 4134, a silica gel roller 4135 and a heating component 4136, wherein the rotating shaft 4133 is arranged in the frame 414, the fixed shaft 4134 is arranged between the two rotating shafts 4133, the silica gel roller 4135 is sleeved outside the fixed shaft 4134, the heating component 4136 is arranged on one side end face of the silica gel roller 4135, the main motor 4131 is arranged outside the frame 414 and drives the synchronizing wheel 4132 to rotate through a belt, and the synchronizing wheel 4132 is connected with the rotating shaft 4133.

The heating component 4136 comprises a heating rod, a plurality of heating rod holes 41361 are arranged on one side end face of the silica gel roller 4135, and a heating rod is arranged in each heating rod hole 41361.

The rotating shaft 4133 drives the silica gel roller 4135 to rotate.

The tension spring 4113 fixes the hot stamping electrochemical aluminum film penetrating through the unwinding roller 4112 and releases the electrochemical aluminum coiled material along with the rotation of the silica gel roller 4135.

The winding roller 4123 on the winding bracket 4122 is driven by the belt 4124 and the winding motor 4121 to rotate and recover the hot stamping electrochemical aluminum waste.

Further, the equipment further comprises a material preparation module 5, a feeding module 6 and a feeding buffer module 7, wherein the material preparation module 5 is connected with the feeding module 6 and used for placing plates or sheets on the material clamps and pushing the plates or sheets to the feeding module 6, the feeding module 6 is connected with the feeding buffer module 7 and used for guiding the material clamps placed with the plates or sheets to move to the feeding buffer module 7 and pushing the material clamps placed with the plates or sheets in the feeding buffer module 7 to move to the grinding module 1, and the feeding buffer module 7 is connected with the grinding module 1 and used for translating the material clamps placed with the plates or sheets to the other side and moving to the grinding module 1 under the action of the feeding module 6.

In this embodiment, as shown in fig. 20, the material preparation module 5 includes a horizontal frame 51, a vertical frame 52, a clamp bearing platform 53, a synchronous belt 54, a first guide rail 55, a driving motor 56, and a clamp jacking mechanism 57, the first guide rail 55 is respectively disposed on two sides of the top of the horizontal frame 51, the synchronous belt 54 is respectively disposed on two sides of the inside of the horizontal frame, the synchronous belt 54 is connected with the driving motor 56 outside through a rotating shaft and a toothed belt, the clamp bearing platform 53 is slidably disposed on the first guide rail 55 and is driven to move through the synchronous belt 54, the vertical frame 52 is disposed on one side of the horizontal frame 51 in a straddling manner, and the clamp jacking mechanism 57 is disposed on one side of the vertical frame 52 and is used for limiting the clamp bearing platform 53.

The clamp jacking mechanism 57 includes a second cylinder 571, a cylinder guide hole 572, and a limit plate 573, the second cylinder 571 is disposed outside one side of the vertical frame 52, the air rod push rod 5711 penetrates through the cylinder guide hole 572, limit plates 573 are disposed on upper and lower sides of the air rod push rod 5711, and the limit plates 573 are fixed on one side of the vertical frame 52 by bolts.

The clamp bearing table 53 is provided with a plurality of rollers 531 on a support, and the rotation direction of the plurality of rollers 531 is perpendicular to the moving direction of the clamp bearing table 53.

When the materials are prepared, the clamp bearing table 53 moves into the vertical machine frame 52, the second air cylinder 571 acts to eject the air rod ejector rod 5711 out of the clamp bearing table 53 and push against the material clamp 10 placed on the clamp bearing table 53, then a plurality of plates or sheets are placed on the material clamp 10 at intervals in the longitudinal direction, after the placement is completed, the second air cylinder 571 resets, the air rod ejector rod 5711 is retracted, the clamp bearing table 53 moves towards the discharging end, and after the placement is completed, the material clamp 10 slides from the clamp bearing table 53 to the feeding module 6.

The feeding module 6 comprises a feeding platform 61, an electric cylinder 62 and positioning guide wheels 63, wherein the electric cylinder 62 is arranged on one side of the feeding platform 61, the output end of the electric cylinder 62 faces the right side of the feeding buffer module 7, and the positioning guide wheels 63 are arranged in a plurality and are positioned on the left side of the electric cylinder 62.

The material clamp 10 entering the feeding module 6 enters the left side of the feeding buffer module 7 under the guidance of the positioning guide wheel 63, moves to the right side of the feeding buffer module 7, and enters the grinding module 1 under the pushing of the electric cylinder 62.

The feeding buffer module 7 comprises a second guide rail 71, a sliding plate 72 and guide wheels 73, wherein the sliding plate 72 is arranged on the second guide rail 71 in a sliding manner, a plurality of guide wheels 73 are respectively arranged on two sides of the sliding plate 72, and the distance between the guide wheels 73 on the two sides is matched with the width of the material clamp 10.

After the material clamp 10 passes through the feeding module 6 and enters between the guide wheels 73 on the two sides of the sliding plate 72, the sliding plate 72 moves rightwards along the second guide rail 72 and enters the grinding module 1 under the pushing of the electric cylinder 62 after moving to the tail end.

Further, the equipment further comprises a material receiving module 8, wherein the material receiving module 8 is connected with the discharging end of the rolling and ironing module 4 through a conveying module 9 and used for taking out the processed plates or sheets and the material clamp.

The material clamp 10 is a frame structure formed by splicing an upper clamp and a lower clamp.

In this embodiment, receive material module 8 and prepare material module 5 and adopt the same structure, when receiving the material, anchor clamps plummer 53 moves to in erecting frame 52, ejecting gas pole ejector pin 5711 to anchor clamps plummer 53 to withstand the material anchor clamps 10 of placing on the anchor clamps plummer 53, then take out anchor clamps, take out the material baffle, retract cylinder ejector pin 5711 at last, at this moment, the material is not hard up can easily receive the material.

The utility model discloses a working process:

when the material preparation module 5 prepares the material, the clamp bearing table 53 moves into the vertical machine frame 52, the second air cylinder 571 acts to eject the air rod ejector rod 5711 out of the clamp bearing table 53 and abuts against the material clamp 10 placed on the clamp bearing table 53, then a plurality of plates or sheets are placed on the material clamp 10 at intervals in the longitudinal direction, after the placement is completed, the second air cylinder 571 resets, the air rod ejector rod 5711 retracts, the clamp bearing table 53 moves towards the discharging end, and after the material clamp is in place, the material clamp 10 slides from the clamp bearing table 53 to the feeding module 6.

The material clamp 10 entering the feeding module 6 enters the left side of the feeding buffer module 7 under the guidance of the positioning guide wheel 63, moves to the right side of the feeding buffer module 7, and enters the grinding module 1 under the pushing of the electric cylinder 62.

After the material clamp 10 passes through the feeding module 6 and enters between the guide wheels 73 on the two sides of the sliding plate 72, the sliding plate 72 moves rightwards along the second guide rail 72 and enters the grinding module 1 under the pushing of the electric cylinder 62 after moving to the tail end.

The first sliding platform 11 of the grinding module 1 moves towards the first fixed platform 12, the material clamp 10 is clamped between the first sliding platform 11 and the first fixed platform 12, the left and right sides of the plate or sheet are roughly ground through the left rough grinding mechanism 131 and the left rough grinding mechanism 141, the left and right sides of the plate or sheet are finely ground through the left fine grinding mechanism 132 and the right fine grinding mechanism 142, at this time, the grinding of the left and right sides of the plate or sheet is completed, then the upper rough grinding mechanism 152 descends to be matched with the top surface of the plate or sheet through the first lifting mechanism 151, the top and bottom surfaces of the plate or sheet are roughly ground through the upper rough grinding mechanism 152 and the lower rough grinding mechanism 153, the upper fine grinding mechanism 154 descends to be matched with the top surface of the plate or sheet through the first lifting mechanism 151, and the upper fine grinding mechanism 154, The lower finishing mechanism 155 performs finish grinding on the top and bottom surfaces of the plate or sheet, at which time, the four side surfaces of the plate or sheet are finished.

With the continuous pushing of the feeding module 6, when the material fixture 10 leaves the grinding module 1, all the plates or sheets placed on the material fixture complete grinding on four sides, and then enter the dust removal module 2, the second sliding platform 21 drives the left dust removal mechanism 23 to move towards the second fixed platform 22, the upper dust removal mechanism 25 descends downwards, the left dust removal mechanism 23, the right dust removal mechanism 24, the upper dust removal mechanism 25 and the lower dust removal mechanism 26 of the dust removal module 2 are located in four directions at the same position, and the four sides of the plates or sheets are cleaned and dedusted simultaneously.

With the continuous pushing of the feeding module 6, when the material fixture 10 leaves the dust removal module 2, all the plates or sheets placed on the material fixture complete dust removal on four sides, and then enter the spraying module 3, the third sliding platform 31 drives the left spraying mechanism 33 to move towards the third fixed platform 32, the upper spraying mechanism 35 descends downwards, the left spraying mechanism 33, the right spraying mechanism 34, the upper spraying mechanism 35 and the lower spraying mechanism 36 of the spraying module 3 are located in four directions of the same position, and glue or pigment is sprayed on four sides of the plates or sheets at the same time according to the process requirements.

With the continuous pushing of the feeding module 6, when the material fixture 10 leaves the spraying module 3, all the plates or sheets placed on the material fixture 10 are sprayed on four sides, and then enter the rolling and ironing module 4, the fourth sliding platform 46 drives the left rolling and ironing mechanism 44 to move towards the fourth fixed platform 47, the material fixture 10 is clamped between the fourth sliding platform 46 and the fourth fixed platform 47, the left rolling and ironing mechanism 44 and the right rolling and ironing mechanism 45 roll and iron the left and right sides of the plates or sheets, then the upper rolling and ironing mechanism 41 descends to the top surface of the second lifting mechanism 43 through the second lifting mechanism 43, and then the top surface and the bottom surface of the plates or sheets are rolled and ironed through the upper rolling and ironing mechanism 41 and the lower rolling and ironing mechanism 42, at this time, the four sides of the plates or sheets are rolled and ironed.

Along with the continuous promotion of feeding module 6, when this material anchor clamps 10 left the boiling hot module 4, all panel or sheet placed on it had all accomplished four sides and had accomplished the boiling hot, then entered into and received material module 8, receive material module 8's anchor clamps plummer 53 and remove in erecting frame 52, ejecting gas pole ejector pin 5711 to anchor clamps plummer 53 to the material anchor clamps 10 of placing on the anchor clamps plummer 53 are withstood, then take out the anchor clamps, take out the material baffle, withdraw cylinder ejector pin 5711 at last, at this moment, the material is not hard up can easily receive the material.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention.

Claims (27)

1. The tangent plane grinding and post-grinding treatment equipment for the plates or the sheets is characterized by comprising a grinding module, a dust removal module, a spraying module and a rolling module which are sequentially arranged, wherein the grinding module is used for grinding the upper, lower, left and right tangent planes of the plates or the sheets, the dust removal module is used for removing dust left on the plates or the sheets after grinding, the spraying module is used for spraying glue or pigment on the ground surfaces of the plates or the sheets, and the rolling module is used for finishing left, right, upper and lower hot stamping on the ground surfaces of the plates or the sheets.

2. The tangent plane grinding and post-grinding treatment equipment for plates or sheets as claimed in claim 1, wherein the grinding module comprises a first sliding platform, a first fixed platform, a left grinding mechanism, a right grinding mechanism and an up-down grinding mechanism, the first sliding platform and the first fixed platform are oppositely arranged on the mounting platform, the first sliding platform is connected with a driving motor and used for driving the first sliding platform to move towards the first fixed platform, the left grinding mechanism is arranged on the first sliding platform, the right grinding mechanism is arranged on the first fixed platform, and the up-down grinding mechanism is arranged on the upper side and the lower side of the mounting platform.

3. The tangent plane grinding and post-grinding treatment device for plates or sheets as claimed in claim 2, wherein the left grinding mechanism comprises a left rough grinding mechanism and a left fine grinding mechanism which are sequentially arranged on the first sliding platform along the conveying direction of the plates or sheets, and the right grinding mechanism comprises a left rough grinding mechanism and a right fine grinding mechanism which are sequentially arranged on the first fixed platform along the conveying direction of the plates or sheets.

4. The tangent plane grinding and post-grinding treatment device for plates or sheets according to claim 3, wherein the left rough grinding mechanism, the left fine grinding mechanism, the left rough grinding mechanism and the right fine grinding mechanism each comprise a first driving motor, a first grinding tool shaft, a first shaft bracket and a first grinding tool, the first shaft bracket is vertically arranged on the first sliding platform or the first fixed platform, the first grinding tool shaft is arranged on the first shaft bracket and one end of the first grinding tool shaft is connected with the first driving motor through a transmission part, and the first grinding tool is sleeved on the first grinding tool shaft and fixed through a first locking wheel.

5. The tangent plane grinding and post-grinding treatment device for plates or sheets according to claim 4, wherein the left rough grinding mechanism and the left fine grinding mechanism further comprise a first manual fine adjustment mechanism, the first manual fine adjustment mechanism is arranged between the mounting platform and the first sliding platform and is used for fine adjustment of the position of the first sliding platform, the first manual fine adjustment mechanism comprises a first fine adjustment hand wheel, a transmission lead screw and a first meshing gear, the first fine adjustment hand wheel is arranged on the outer side of the mounting platform and is connected with the horizontally arranged transmission lead screw, and the first meshing gear is arranged at the bottom of the first sliding platform and is meshed with the transmission lead screw.

6. The tangent plane grinding and post-grinding treatment device for plates or sheets as claimed in claim 5, wherein the upper and lower grinding mechanisms comprise a first lifting mechanism, an upper rough grinding mechanism, a lower rough grinding mechanism, an upper fine grinding mechanism and a lower fine grinding mechanism, the lower side of the mounting platform is provided with the lower rough grinding mechanism and the lower fine grinding mechanism in sequence along the conveying direction of the plates or sheets, the upper side of the mounting platform is provided with the upper rough grinding mechanism and the upper fine grinding mechanism in sequence along the conveying direction of the plates or sheets, and the rough grinding mechanism and the upper fine grinding mechanism are both connected with the upper side of the mounting platform through the first lifting mechanism.

7. The tangent plane grinding and post-grinding treatment device for plates or sheets according to claim 6, wherein the upper rough grinding mechanism and the upper fine grinding mechanism each comprise a longitudinal line bracket, a linear module, a second shaft bracket, a second grinding tool shaft, a second grinding tool and a second driving motor, the longitudinal line bracket is vertically arranged on the mounting platform, the second shaft bracket is connected with the longitudinal line bracket through the linear module arranged on two sides, the second grinding tool shaft is transversely arranged on the second shaft bracket and externally sleeved with the second grinding tool, and the second driving motor is arranged on one side of the outer part of the second shaft bracket and is connected with the second mould shaft through a transmission piece.

8. The tangent plane grinding and post-grinding treatment device for plates or sheets according to claim 7, wherein the lower rough grinding mechanism and the lower finish grinding mechanism each comprise a third shaft bracket, a third grinding tool shaft, a third grinding tool and a third driving motor, the third shaft bracket is connected with the longitudinal line bracket, the third grinding tool shaft is transversely arranged on the third shaft bracket and externally sleeved with the third grinding tool, and the third driving motor is arranged on one side of the outside of the third shaft bracket and connected with the third die shaft through a transmission piece.

9. The apparatus for grinding and post-processing a cut surface of a plate or sheet according to claim 8, wherein the first, second and third grinding tools each comprise an upper grinding tool, a middle grinding tool and a lower grinding tool, the upper grinding tool, the middle grinding tool and the lower grinding tool are stacked, and the number of the middle grinding tools is equal to or greater than one.

10. The tangent plane grinding and post-grinding treatment equipment for plates or sheets as claimed in claim 9, wherein the upper rough grinding mechanism, the upper fine grinding mechanism, the lower rough grinding mechanism and the lower fine grinding mechanism each further comprise a second manual fine adjustment mechanism, the second manual fine adjustment mechanism comprises a second fine adjustment hand wheel, a transmission shaft, a second meshing gear and a horizontal gear, the second fine adjustment hand wheel is arranged at one end of the transmission shaft, the second meshing gear is arranged at the other end of the transmission shaft, and the second meshing gear is meshed with the horizontal gear sleeved on the transmission rod.

11. The tangent plane grinding and mill post-processing equipment for plates or sheets as claimed in claim 1, wherein the dust removal module comprises a second sliding platform, a second fixed platform, a left dust removal mechanism, a right dust removal mechanism, an upper dust removal mechanism and a lower dust removal mechanism, the second sliding platform and the second fixed platform are oppositely arranged on the installation platform, the left dust removal mechanism is arranged on the second sliding platform, the right dust removal mechanism is arranged on the second fixed platform, and the upper dust removal mechanism and the lower dust removal mechanism are respectively arranged at the upper side and the lower side of the installation platform.

12. The tangent plane grinding and milling post-processing equipment for plates or sheets according to claim 11, wherein the left dust removing mechanism, the right dust removing mechanism, the upper dust removing mechanism and the lower dust removing mechanism each comprise a fourth shaft bracket, a rotating shaft, a dust removing roller and a fourth driving motor, two ends of the rotating shaft are arranged on the fourth shaft bracket, one end of the rotating shaft is connected with the fourth driving motor through a transmission piece, and the dust removing roller is sleeved on the rotating shaft.

13. The tangent plane grinding and post-grinding treatment equipment for plates or sheets as claimed in claim 1, wherein the spraying module comprises a third sliding platform, a third fixed platform, a left spraying mechanism, a right spraying mechanism, an upper spraying mechanism and a lower spraying mechanism, the third sliding platform and the third fixed platform are oppositely arranged on the mounting platform, the left spraying mechanism is arranged on the third sliding platform, the right spraying mechanism is arranged on the third fixed platform, and the upper spraying mechanism and the lower spraying mechanism are respectively arranged at the upper side and the lower side of the mounting platform.

14. The tangent plane grinding and post-grinding treatment device for plates or sheets as claimed in claim 13, wherein the left spraying mechanism, the right spraying mechanism, the upper spraying mechanism and the lower spraying mechanism each comprise a first sliding rod, a second sliding rod and a spray gun, the first sliding rod is horizontally or vertically arranged, the second sliding rod is slidably arranged on the first sliding rod, and the spray gun is slidably arranged on the second sliding rod.

15. The tangent plane grinding and grinding post-processing equipment for plates or sheets as claimed in claim 1, wherein the rolling module comprises an upper rolling mechanism, a lower rolling mechanism, a second lifting mechanism, a left rolling mechanism, a right rolling mechanism, a fourth sliding platform and a fourth fixed platform, the upper rolling mechanism and the lower rolling mechanism are respectively arranged at the upper side and the lower side of the mounting platform, the upper rolling mechanism is arranged at the upper side of the mounting platform through the second lifting mechanism, the fourth sliding platform and the fourth fixed platform are oppositely arranged on the mounting platform, the left rolling mechanism is arranged on the fourth sliding platform, and the right rolling mechanism is arranged on the fourth fixed platform.

16. The tangent plane grinding and milling post-processing equipment for plates or sheets as claimed in claim 15, wherein the second lifting mechanism comprises a first cylinder, a guide shaft and a lifting platform, the output end of the first cylinder is connected with the upper ironing mechanism, the guide shaft is positioned at two sides of the first cylinder, and the end part of the guide shaft is connected with the lifting platform.

17. The tangent plane grinding and post-grinding treatment equipment for plates or sheets as claimed in claim 16, wherein the upper rolling mechanism, the lower rolling mechanism, the left rolling mechanism and the right rolling mechanism each comprise an unwinding mechanism, a winding mechanism, a rolling mechanism and a frame, the rolling mechanism is arranged in the middle area of the frame, and the unwinding mechanism and the winding mechanism are respectively arranged on two sides of the frame.

18. The tangent plane grinding and mill post-processing equipment for plates or sheets according to claim 17, wherein the unreeling mechanism comprises an unreeling bracket, an unreeling roller and a tension spring, one side of the unreeling bracket is connected with the frame, the unreeling bracket is further connected with the reeling mechanism through a connecting rod, the unreeling roller is arranged on the unreeling bracket, and the tension spring is sleeved on the unreeling roller.

19. The tangent plane grinding and post-grinding treatment equipment for plates or sheets as claimed in claim 18, wherein the winding mechanism comprises a winding motor, a winding support and a winding roller, one side of the winding support is connected with the rack and is connected with the unwinding support through a connecting rod, the winding motor is arranged outside one side of the rack and is connected with the winding support through a belt, and the winding roller is arranged on the winding support.

20. The tangent plane grinding and mill post-processing equipment for plates or sheets as claimed in claim 19, wherein the roller ironing mechanism comprises a main motor, a synchronizing wheel, a rotating shaft, a fixed shaft, a silica gel roller and a heating assembly, the rotating shaft is arranged in the frame, the fixed shaft is arranged between the two rotating shafts, the silica gel roller is sleeved outside the fixed shaft, the heating assembly is arranged on one side end face of the silica gel roller, the main motor is arranged outside the frame and drives the synchronizing wheel to rotate through a belt, and the synchronizing wheel is connected with the rotating shaft.

21. The apparatus of claim 20, wherein the heating assembly comprises a heating rod, and a plurality of heating rod holes are formed in an end surface of the silica gel roller, and a heating rod is disposed in each heating rod hole.

22. The tangent plane grinding and post-grinding treatment device for plates or sheets as claimed in any one of claims 1 to 20, further comprising a material preparation module connected with the feeding module for placing plates or sheets on the material holder and pushing the plates or sheets to the feeding module, a feeding module connected with the feeding buffer module for guiding the material holder with the plates or sheets placed thereon to move to the feeding buffer module and pushing the material holder with the plates or sheets placed therein to move to the grinding module, and a feeding buffer module connected with the grinding module for translating the material holder with the plates or sheets placed thereon to the other side and moving to the grinding module under the action of the feeding module.

23. The tangent plane grinding and post-grinding treatment device for plates or sheets as claimed in claim 22, further comprising a material receiving module connected with the discharge end of the rolling mechanism through a conveying module for taking out the treated plates or sheets and the material clamp.

24. The tangent plane grinding and post-grinding treatment device for plates or sheets as claimed in claim 23, wherein the material preparation module and the material receiving module each comprise a horizontal frame, a vertical frame, a clamp bearing table, a synchronous belt, a first guide rail, a driving motor and a clamp jacking mechanism, the first guide rail is arranged on each of two sides of the top of the horizontal frame, the synchronous belts are arranged on each of two sides of the inside of the horizontal frame, the synchronous belts are connected with the driving motor outside through a rotating shaft and a toothed belt, the clamp bearing table is slidably arranged on the first guide rail and driven to move through the synchronous belts, the vertical frame is arranged on one side of the horizontal frame in a crossing manner, and the clamp jacking mechanism is arranged on one side of the vertical frame and used for limiting the clamp bearing table.

25. The tangent plane grinding and milling post-processing equipment for plates or sheets according to claim 24, wherein the clamp jacking mechanism comprises a second cylinder, a cylinder guide hole and a limiting plate, the second cylinder is arranged outside one side of the vertical frame, the gas rod ejector rod penetrates through the cylinder guide hole, the upper side and the lower side of the gas rod ejector rod are respectively provided with the limiting plate, and the limiting plates are fixed on one side of the vertical frame through bolts.

26. The tangent plane grinding and post-grinding treatment device for plates or sheets as claimed in claim 25, wherein the feeding module comprises a feeding platform, an electric cylinder, a positioning guide wheel, the electric cylinder is arranged at one side of the feeding platform, the output end of the electric cylinder faces to the right side of the feeding buffer module, and the positioning guide wheel is arranged in a plurality of numbers and is positioned at the left side of the electric cylinder.

27. The tangent plane grinding and post-grinding treatment equipment for plates or sheets according to claim 26, wherein the feeding buffer module comprises a second guide rail, a sliding plate and guide wheels, the sliding plate is slidably arranged on the second guide rail, a plurality of guide wheels are respectively arranged on two sides of the sliding plate, and the distance between the guide wheels on two sides is matched with the width of the material clamp.

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