CN210703110U - Double-side marking machine of double-marking mechanism - Google Patents

Abstract

The utility model provides a double-side marking machine with a double-marking mechanism, which comprises an A-side marking mechanism for marking the A side of a product, a B-side marking mechanism for marking the B side of the product, and a turnover mechanism positioned between the A-side marking mechanism and the B-side marking mechanism for turning over the product; the turnover mechanism comprises a turnover rack, a first rotating assembly arranged on the turnover rack, a second rotating assembly arranged on the first rotating assembly, a turnover assembly arranged on the second rotating assembly and a turnover grabbing assembly arranged on the turnover assembly; the utility model discloses utilize A face marking mechanism to beat the mark to the A face of product, beat and send B face marking mechanism to continue to beat the B face of mark product after the mark is accomplished by the turn-over mechanism turn-over, and carry out the B face at B face marking mechanism and beat when the mark, A face marking mechanism can continue to beat the mark to the A face marking mechanism of other products, has improved the two-sided efficiency of beating the mark of product.

Description

Double-side marking machine of double-marking mechanism

Technical Field

The utility model relates to a marking machine's technical field especially relates to a two-sided marking machine of two marking mechanism.

Background

Laser marking is a process of leaving a permanent mark on the surface of a material by evaporation or photo-induced physicochemical changes of the material surface layer using the high peak power density of a focused laser beam. The laser marking machine for PCB is a special machine for marking bar code, two-dimensional code, character and figure on printed circuit board. The high-performance CO2/Fiber light source and the high-pixel import CCD camera are integrated, and the micron-sized mobile module is matched to realize automatic positioning before code printing and automatic code reading and rating after code printing. When the traditional marking machine is used for marking a pcb, only one side of the pcb can be marked, and double-side marking of the pcb cannot be automatically realized; even if the marking machine with automatic turnover is adopted, only one marking mechanism is provided, after one surface is marked, the marking mechanism only stops marking work, and when the machine turns over, marking is continued, so that the efficiency is too low.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve the technical problem who proposes among the above-mentioned background art, provide a two-sided marking machine of two marking mechanism.

The utility model provides a marking machine, the marking machine includes a marking mechanism for marking the A surface of the product, a marking mechanism for marking the B surface of the product, and a turn-over mechanism between the marking mechanism for turning over the product and the marking mechanism for turning over the product; the turnover mechanism comprises a turnover machine frame, a first rotating assembly arranged on the turnover machine frame, a second rotating assembly arranged on the first rotating assembly, a turnover assembly arranged on the second rotating assembly and a turnover grabbing assembly arranged on the turnover assembly.

Further, the first rotating assembly comprises a first rotating power piece arranged on the turnover rack and a rotating base arranged at the output end of the first rotating power piece; the second rotating assembly comprises a second rotating power part arranged on the rotating base and a rotating arm connected with the second rotating power part in a shaft mode.

Furthermore, the turnover assembly comprises a turnover power piece arranged on the rotating arm and a turnover arm connected with the output end of the turnover power piece; the turnover grabbing component comprises a plurality of turnover grabbing arms arranged on the turnover arms, a plurality of turnover grabbing supports arranged on the turnover grabbing arms, a turnover adsorption piece arranged on the turnover grabbing supports and a turnover aspirator connected with the turnover adsorption piece.

Furthermore, the A-surface marking mechanism comprises an A-surface marking rack, a feeding assembly and an A-surface marking assembly, wherein the feeding assembly is respectively arranged on the A-surface marking rack; the feeding component comprises a feeding trolley positioned inside the A-surface marking machine frame, a lifting power piece arranged inside the A-surface marking machine frame and a lifting arm arranged at the output end of the lifting power piece.

Furthermore, the feeding assembly also comprises a feeding transverse moving track arranged on the A-surface marking machine frame, a feeding transverse moving base arranged on the feeding transverse moving track and a feeding transverse moving power piece used for driving the feeding transverse moving base to directionally move on the feeding transverse moving track; a feeding grabbing arm is arranged on the feeding transverse moving base; a plurality of feeding grabbing brackets are arranged on the feeding grabbing arm; the feeding grabbing bracket is provided with a feeding grabbing piece; the feeding grabbing piece is connected with the feeding aspirator.

Furthermore, the pay-off subassembly is including installing pay-off y axle track on the mark frame is beaten to A face, install pay-off adsorption platform on the pay-off y axle track and be used for the drive pay-off adsorption platform is in directional pay-off power spare that removes on the y axle track.

Furthermore, the A-surface marking assembly comprises an A-surface marking x-axis track arranged on the A-surface marking rack, an A-surface marking x-axis moving base arranged on the A-surface marking x-axis track and an A-surface marking x-axis moving power part used for driving the A-surface marking x-axis moving base to directionally move on the A-surface marking x-axis track;

the marking assembly for the A surface is characterized by further comprising a marking z-axis moving track arranged on the marking x-axis moving base for the A surface, a marker arranged on the marking z-axis moving track for the A surface and a power part used for driving the marker to mark the Z-axis moving power part for the A surface, which is directionally moved on the marking z-axis moving track for the A surface.

Furthermore, the B-surface marking mechanism comprises a B-surface marking frame, a B-surface feeding assembly, a B-surface marking adsorption table, a B-surface marking assembly and a discharging assembly, wherein the B-surface feeding assembly is respectively arranged on the B-surface marking frame and used for receiving the product transmitted by the turnover mechanism;

the B surface feeding assembly comprises a B surface feeding moving track arranged on the B surface marking machine frame, a B surface feeding base arranged on the B surface feeding moving track and a B surface feeding power part used for driving the B surface feeding base to directionally move on the B surface feeding moving track; a B-surface feeding arm is arranged on the B-surface feeding base; a plurality of B-surface feeding supports are arranged on the B-surface feeding arm; the B-side feeding support is provided with a B-side feeding grabbing piece; and the B-side feeding grabbing piece is connected with the B-side feeding air aspirator.

Furthermore, the B-surface marking assembly comprises a B-surface marking y-axis moving guide rail arranged on the B-surface marking rack, a B-surface marking y-axis moving base arranged on the B-surface marking y-axis moving guide rail and a B-surface marking y-axis moving power part used for driving the B-surface marking y-axis moving base to move directionally on the B-surface marking y-axis moving guide rail;

the B-surface marking x-axis moving guide rail is arranged on the B-surface marking y-axis moving base; the B-surface marking x-axis moving guide rail is provided with a B-surface marking x-axis moving base and a B-surface marking x-axis moving power part for driving the B-surface marking x-axis moving base to directionally move on the B-surface marking x-axis moving guide rail;

the B face is beaten the mark subassembly and is still including installing the B face on the B face is beaten mark x axle and is beaten mark z axle movable guide rail, is installed the B face on the B face is beaten mark z axle movable guide rail and is used for the drive the B face is beaten the mark ware and is in B face z axle movable power spare of directional removal on the B face z axle movable guide rail.

Furthermore, the blanking assembly comprises a blanking guide rail arranged on the B-surface marking machine frame, a blanking base arranged on the blanking guide rail, a blanking arm arranged on the blanking base, a plurality of blanking supports arranged on the blanking arm, a blanking grabbing piece arranged on the blanking supports and a blanking power piece used for driving the blanking base to directionally move on the blanking guide rail; the blanking grabbing piece is connected with the blanking aspirator; the blanking assembly further comprises a blanking power part arranged inside the B-surface marking machine frame, a blanking arm connected with the output end of the blanking power part and a blanking trolley used for blanking a product which is marked and finished.

Adopt foretell technical scheme, the utility model discloses it is to have at least following beneficial effect: the utility model discloses utilize A face marking mechanism to beat the mark to the A face of product, beat and send B face marking mechanism to continue to beat the B face of mark product after the mark is accomplished by the turn-over mechanism turn-over, and carry out the B face at B face marking mechanism and beat when marking, A face marking mechanism can continue to beat the mark to the A face marking mechanism of other products to improved the two-sided efficiency of beating the mark of product, brought the substantive profit for the enterprise and increased.

Drawings

Fig. 1 is a perspective view of the double-sided marking machine of the double-marking mechanism of the present invention.

Fig. 2 is another perspective view of the double-sided marking machine of the double-marking mechanism of the present invention.

Fig. 3 is a perspective view of the a-side marking mechanism of the double-side marking machine of the double-side marking mechanism of the utility model.

Fig. 4 is an enlarged view of a portion a of fig. 3.

Fig. 5 is another perspective view of the a-side marking mechanism of the double-side marking machine of the double-side marking mechanism of the present invention.

Fig. 6 is a perspective view of the turn-over mechanism of the present invention.

Fig. 7 is a perspective view of the B-side marking mechanism of the double-side marking machine of the double-side marking mechanism of the present invention.

Fig. 8 is an enlarged view of a portion B of fig. 7.

Fig. 9 is an enlarged view of a portion C of fig. 7.

Fig. 10 is another perspective view of the B-side marking mechanism of the double-side marking machine of the double-side marking mechanism of the present invention.

Fig. 11 is an enlarged view of a portion D of fig. 10.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. It should be understood that the embodiments described below by referring to the drawings are exemplary for explaining the present invention, and are not to be construed as limiting the present invention, and features in the embodiments of the present invention may be combined with each other without conflict.

As shown in fig. 1-11, the utility model provides a double-side marking machine with double marking mechanisms, which comprises an a-side marking mechanism 1 for marking the a-side of the product, a B-side marking mechanism 3 for marking the B-side of the product, and a turn-over mechanism 2 located between the a-side marking mechanism 1 and the B-side marking mechanism 3 for turning over the product; the turnover mechanism 2 comprises a turnover machine frame 21, a first rotating assembly arranged on the turnover machine frame 21, a second rotating assembly arranged on the first rotating assembly, a turnover assembly arranged on the second rotating assembly and a turnover grabbing assembly arranged on the turnover assembly.

In the embodiment, the A-side marking mechanism 1 is used for marking the A-side of the product, the product is turned by the turning mechanism 2 after marking is finished and then is sent to the B-side marking mechanism 3 to continuously mark the B-side of the product, and the A-side marking mechanism 1 can continuously mark the A-side marking mechanisms 1 of other products when the B-side marking mechanism 3 performs B-side marking, so that the double-side marking efficiency of the product is improved, and substantial profit growth is brought to enterprises; specifically, after the mark is accomplished to A face marking machine with the A face of product, first runner assembly can drive the second runner assembly reaches the turn-over subassembly removes the position of A face marking machine, at this moment the second runner assembly can drive the turn-over subassembly drives the turn-over is grabbed the material subassembly and is pushed down, by the turn-over is grabbed the material subassembly and is adsorbed the product, and under the drive of turn-over subassembly, the 180 degrees of upset to the realization is turned over the product and is sent to and is complain fox and search B face marking mechanism 3 and beat the mark to the B face of product.

In one embodiment, the first rotating assembly includes a first rotating power member 221 mounted on the turn-over frame 21 and a rotating base 222 mounted on an output end of the first rotating power member 221; specifically, when the turnover material-rotating assembly needs to be driven to the position of the a-side marking mechanism 1 to grab a product marked with one side, the first rotating power part 221 drives the rotating base 222 to rotate towards the position of the a-side marking mechanism 1, so that the turnover material-grabbing assembly is driven to reach an appointed position to grab the material, and the turnover assembly turns over the product on the turnover material-grabbing assembly.

In one embodiment, the second rotating assembly includes a second rotating power member 231 mounted on the rotating base 222 and a rotating arm 232 coupled to the second rotating power member 231; the second rotating assembly is used for controlling the turnover assembly and the turnover grabbing assembly to ascend or descend, so that the turnover grabbing assembly on the turnover assembly can grab and turn over a product marked on one side in the feeding assembly, and specifically, when the product on the feeding assembly needs to be turned over, the second rotating power piece 231 can drive the rotating arm 232 to press downwards to the feeding assembly, so that the grabbing assembly can grab the product on the feeding assembly.

In a specific embodiment, the turning-over assembly includes a turning-over power member 241 mounted on the rotating arm 232 and a turning-over arm 242 connected to an output end of the turning-over power member 241, and the turning-over power member 241 is configured to drive the turning-over arm 242 to rotate, so that the turning-over arm 242 can drive a product grabbed by the turning-over material grabbing assembly to turn over.

In a specific embodiment, the turnover grabbing assembly comprises a plurality of turnover grabbing arms 251 arranged on the turnover arm 242, a plurality of turnover grabbing brackets 252 arranged on the turnover grabbing arms 251, a turnover adsorbing member 253 arranged on the turnover grabbing brackets 252, and a turnover aspirator connected with the turnover adsorbing member 253; turn-over absorption piece 253 with turn-over aspirator links to each other, turn-over absorption piece 253 is equipped with turn-over suction hole to when turn-over suction hole on the turn-over absorption piece 253 contacts the product, the chance of breathing in operates, makes turn-over absorption piece 253 can adsorb the product, reaches the effect of snatching the product.

In a specific embodiment, the a-side marking mechanism 1 comprises an a-side marking frame 11, a feeding assembly respectively mounted on the a-side marking frame 11, a feeding assembly connected with the feeding assembly, and an a-side marking assembly for marking a product; the feeding assembly is used for feeding a product into the feeding assembly, the feeding assembly conveys the product to the position of the A-surface marking assembly, and the A-surface marking assembly marks the A-surface of the product; the feeding assembly comprises a feeding trolley 121 positioned inside the A-surface marking machine frame 11, a material lifting power piece arranged inside the A-surface marking machine frame 11 and a material lifting arm 122 arranged at the output end of the material lifting power piece; the feeding trolley 121 is used for placing unmarked products, and the lifting power part is used for driving the lifting arm 122 to lift the products on the feeding trolley 121, so that the products can reach the position where the feeding grabbing part 127 can grab, and the feeding grabbing part 127 can grab the products on the feeding trolley 121 conveniently.

In one embodiment, the feeding assembly further comprises a feeding traversing rail 123 mounted on the a-side marking frame 11, a feeding traversing base 124 mounted on the feeding traversing rail 123, and a feeding traversing power member for driving the feeding traversing base 124 to move directionally on the feeding traversing rail 123; the feeding transverse moving base 124 is provided with a feeding grabbing arm 125; a plurality of feeding grabbing brackets 126 are arranged on the feeding grabbing arm 125; the feeding grabbing bracket 126 is provided with a feeding grabbing piece 127; the feeding grabbing piece 127 is connected with a feeding aspirator; in this embodiment, after the lifting arm 122 lifts the product on the feeding trolley 121 to the position where the feeding grapple 127 can grab, the feeding air sucker will suck air into the feeding grapple 127, so that the feeding air suction holes on the feeding grapple 127 can suck air between the feeding grapple 127 and the product, so that the feeding grapple 127 can suck the product, and the feeding traverse base 124 can drive the product to move to the position of the feeding assembly under the driving of the feeding traverse power member, so that the product can be placed on the feeding assembly, and the feeding assembly can feed the product to the position below the a-side marking assembly for marking.

In one embodiment, the feeding assembly includes a feeding y-axis rail 131 mounted on the a-side marking frame 11, a feeding adsorption table 132 mounted on the feeding y-axis rail 131, and a feeding power member for driving the feeding adsorption table 132 to move directionally on the feeding y-axis rail 131; the pay-off subassembly is used for accepting the product of the material loading that the material loading subassembly was loaded to deliver to the product beat the mark subassembly below and beat the mark, and is specific, works as the material loading subassembly is placed the product back on the pay-off adsorption stage 132, pay-off power component drive pay-off adsorption stage 132 is in directional removal on the pay-off y axle track 131, thereby will pay-off adsorption stage 132 delivers to the A face beats mark subassembly below, by the mark subassembly is beaten to the product to the A face beats mark.

In one embodiment, the feeding adsorption table 132 comprises a feeding adsorption rack mounted on the feeding y-axis track 131, a feeding adsorption disk mounted on the feeding adsorption rack, and a feeding adsorption table 132 aspirator connected to the feeding adsorption disk; a plurality of feeding air suction holes are formed in the feeding adsorption disc, and products can be firmly adsorbed on the feeding adsorption disc through the feeding air suction holes.

In a specific embodiment, the a-side marking assembly includes an a-side marking x-axis rail 141 mounted on the a-side marking frame 11, an a-side marking x-axis moving base 142 mounted on the a-side marking x-axis rail 141, and an a-side marking x-axis moving power member for driving the a-side marking x-axis moving base 142 to move directionally on the a-side marking x-axis rail 141; the A-surface marking assembly further comprises an A-surface marking z-axis moving track 143 arranged on the A-surface marking x-axis moving base 142, a marker arranged on the A-surface marking z-axis moving track 143 and an A-surface marking z-axis moving power part 144 used for driving the marker to directionally move on the A-surface marking z-axis moving track; in this embodiment, when the feeding assembly feeds the feeding adsorption table 132 on which the product is placed to the position below the a-side marking assembly, the marking device is driven by the a-side marking z-axis moving power piece 144 to press down along the a-side marking z-axis moving track 143, so as to mark the product, and in the marking process, the a-side marking x-axis moving base 142 can drive the marking device to move under the driving of the a-side marking x-axis moving power piece, so as to mark different positions on the product; the marker is a laser marker.

In a specific embodiment, the marking assembly for the surface A further comprises a surface A smoke collecting pipe connected with the marking device and a surface A smoke guide pipe connected with the surface A smoke collecting pipe; the A-side smoke guide pipe is connected with the A-side smoke collecting and pumping machine; the A-surface smoke collecting pipe can collect the smoke generated by marking under the air pumping action of the A-surface smoke collecting air pump and discharge the smoke through the A-surface smoke guide pipe.

In a specific embodiment, the B-side marking mechanism 3 includes a B-side marking frame 31, a B-side feeding assembly respectively mounted on the B-side marking frame 31 for receiving the product transferred by the turnover mechanism 2, a B-side marking adsorption table for placing the product, a B-side marking assembly for marking the B-side of the product, and a blanking assembly for blanking the marked product; the B surface feeding assembly is used for receiving a product which is turned by the turning mechanism 2 and faces upwards to the B surface, feeding the product to the B surface marking adsorption table, marking the product on the B surface marking adsorption table by the B surface marking assembly, and feeding the product through the feeding assembly after marking is finished.

In a specific embodiment, the B-side marking adsorption table comprises a B-side marking adsorption frame arranged on the B-side marking frame 31, a B-side marking adsorption disc arranged on the B-side marking adsorption frame, and a B-side marking adsorption table aspirator connected with the B-side marking adsorption disc; a plurality of marking suction holes are formed in the B surface marking adsorption disc, and products can be firmly adsorbed on the B surface marking adsorption disc through the plurality of marking suction holes.

In one embodiment, the B-side feeding assembly includes a B-side feeding moving rail 321 installed on the B-side marking machine frame 31, a B-side feeding base 322 installed on the B-side feeding moving rail 321, and a B-side feeding power member 323133 for driving the B-side feeding base 322 to move directionally on the B-side feeding moving rail 321; a B-surface feeding arm 324 is arranged on the B-surface feeding base 322; a plurality of B-surface feeding brackets 325 are arranged on the B-surface feeding arm 324; the B-side feeding grabbing piece 326 is arranged on the B-side feeding support 325; the B-side feeding grabbing piece 326 is connected with a B-side feeding aspirator; specifically, when the turnover mechanism 2 moves the turned product with the B surface facing upward to the position of the B surface feeding assembly and makes the product contact with the B surface feeding catching part 326, at this time, the B surface feeding aspirator starts to aspirate, so that the B surface feeding catching part 326 can stably adsorb the product, and the B surface feeding motive power part 323133 drives the B surface feeding motive power part 321 to directionally move to the position of the B surface marking adsorption table, at this time, the B surface feeding aspirator stops to aspirate, so that the B surface feeding catching part 326 stops adsorbing the product, and the product falls onto the B surface marking adsorption table to wait for marking the B surface of the product by the B surface marking assembly.

In one embodiment, the B-side feeding assembly further comprises a B-side feeding z-axis power member mounted on the B-side feeding base 322; the B surface feeding arm 324 is connected with the output end of the B surface feeding z-axis power part, so that the product can be grabbed up and down through the B surface feeding z-axis power part, and the product is placed on the B surface marking adsorption table more stably.

In a specific embodiment, the B-side marking assembly includes a B-side marking y-axis moving guide 331 installed on the B-side marking frame 31, a B-side marking y-axis moving base 332 installed on the B-side marking y-axis moving guide 331, and a B-side marking y-axis moving power part 333 for driving the B-side marking y-axis moving base 332 to move directionally on the B-side marking y-axis moving guide 331; in this embodiment, the B-surface marking y-axis moving power part 333 drives the B-surface marking y-axis moving base 332 to drive the B-surface marking device 336 to directionally move on the B-surface marking y-axis moving guide rail 331, so that the B-surface marking device 336 can reach the position of the B-surface marking adsorption platform, and the marking device marks different y-axis points on the B-surface of a product.

In a specific embodiment, the B-side marking x-axis moving guide rail 334 is mounted on the B-side marking y-axis moving base 332; the B-surface marking x-axis moving guide rail 334 is provided with a B-surface marking x-axis moving base and a B-surface marking x-axis moving power part for driving the B-surface marking x-axis moving base to directionally move on the B-surface marking x-axis moving guide rail 334; in this embodiment, under the driving of the B-surface marking x-axis moving power part, the B-surface marking x-axis moving base can drive the B-surface marking device 336 to directionally move on the B-surface marking x-axis moving guide rail 334, so as to mark different x-axis points of the product; b side is beaten mark x axle and is removed guide rail 334 and install B side is beaten on the mark y axle removes base 332, makes B side x axle removes base can drive B side marker 336 is followed B side is beaten mark y axle and is removed base 332 and move on the y axle.

In a specific embodiment, the B-side marking assembly further comprises a B-side marking z-axis moving guide 335 mounted on the B-side marking x-axis moving base, a B-side marker 336 mounted on the B-side marking z-axis moving guide 335, and a B-side z-axis moving power piece 337 for driving the B-side marker 336 to move directionally on the B-side z-axis moving guide; in this embodiment, under the driving of the B-surface z-axis moving power piece 337, the marker moves up and down on the B-surface marking z-axis moving guide rail 335, so that when the B-surface marker 336 reaches the position of the B-surface marking adsorption table under the driving of the B-surface marking y-axis moving power piece 333, the B-surface marker 336 can be pressed down under the driving of the B-surface marking z-column power piece, thereby marking the B-surface of the product.

In a specific embodiment, the B-side marking assembly further comprises a B-side smoke collecting pipe connected with the marking device and a B-side smoke guide pipe connected with the B-side smoke collecting pipe; the B-side smoke guide pipe is connected with a B-side smoke collecting air extractor; the B-surface smoke collecting pipe can collect the smoke generated by marking under the air pumping action of the B-surface smoke collecting air pump and discharge the smoke through the B-surface smoke guide pipe.

In a specific embodiment, the blanking assembly includes a blanking guide rail 341 mounted on the B-side marking frame 31, a blanking base 342 mounted on the blanking guide rail 341, a blanking arm 343 mounted on the blanking base 342, a plurality of blanking brackets 344 mounted on the blanking arm 343, a blanking grabber 345 mounted on the blanking brackets 344, and a blanking power member for driving the blanking base 342 to move directionally on the blanking guide rail 341; the blanking grabbing piece 345 is connected with the blanking aspirator; the blanking assembly further comprises a blanking power part arranged inside the B-surface marking machine frame 31, a blanking arm 346 connected with the output end of the blanking power part, and a blanking trolley 347 used for blanking a product which is marked completely, in this embodiment, after the product on the B-surface marking adsorption table is marked by the B-surface marking machine, the blanking base 342 is driven by the blanking power part to drive a plurality of blanking grabbing parts 345 to move to the positions of the B-surface marking adsorption table along the blanking guide rail 341 and make the plurality of blanking grabbing parts 345 contact with the product, at this moment, the blanking aspirator starts to operate, so that the plurality of blanking grabbing parts 345 can suck the product from the B-surface marking adsorption table and drive the blanking power part to blank the product onto the blanking arm 346, the blanking power part drives the blanking arm 346 to drive the product to be blanked onto the blanking trolley 347, so that the product blanking is completed.

In a specific embodiment, the blanking base 342 is provided with a blanking z-axis power part, and the blanking arm 343 is mounted at the output end of the blanking z-axis power part, so that the blanking grabbing part 345 can move up and down, and the blanking assembly can better move from the B-side marking adsorption table to remove marked products.

In a specific embodiment, the turn-over aspirator, the feeding adsorption table 132 aspirator, the a-side smoke collecting aspirator, the B-side feeding aspirator, the B-side marking adsorption table aspirator, the B-side smoke collecting aspirator, and the discharging aspirator may be the same blower or may be independent blowers.

In a specific embodiment, the double-side marking machine of the double-marking mechanism further comprises a mechanism A blanking trolley 4 and a mechanism B blanking trolley 5; the A mechanism blanking trolley 4 and the B mechanism blanking trolley 5 are adjacent to the turnover mechanism 2, so that the A mechanism marking mechanism 1, the turnover mechanism 2 and the A mechanism blanking trolley 4 can form a double-sided marking machine for use independently in the utility model; the B-surface marking mechanism 3, the turnover mechanism 2 and the B-mechanism blanking trolley 5 can independently form a double-surface marking machine for use, so that only one marking mechanism can be used under the condition that a small number of products need to be marked, and the running cost of the machine is saved.

The utility model discloses a concrete theory of operation does: an operator places unmarked products on the feeding trolley 121, the lifting arm 122 lifts the unmarked products under the feeding transverse moving track 123 under the driving of the lifting power part, the plurality of feeding gripping parts 127 absorb the products on the lifting arm 122 and convey the products to the feeding adsorption table 132 under the driving of the feeding transverse moving power part, the feeding adsorption table 132 is driven by the feeding power part to drive the products to be conveyed to the position under the A-surface marking component, the A-surface of the products is marked by the marker in the A-surface marking component, after the marking of the A-surface of the products by the marker is finished, the turnover component moves to the position of the feeding adsorption table 132 on which the products marked on the A-surface are placed under the matching of the first rotating component and the second rotating component, and the turnover gripping component on the turnover component picks the products on the feeding adsorption table 132, the product is turned over by 180 degrees by the turn-over assembly, then the product is conveyed to the position of the B-side feeding assembly by the first rotating assembly and the second rotating assembly, and the product is grabbed by the plurality of B-side feeding grabbing pieces 326, so that the product is exchanged from the turn-over mechanism 2 to the B-side marking mechanism 3; the B surface feeding assembly feeds the grabbed product to the B surface marking adsorption table, the B surface marking assembly marks the B surface of the product, the plurality of blanking grabbing pieces 345 in the blanking assembly adsorb the product on the B surface marking adsorption table, the product is blanked to the blanking arm 346 under the driving of the blanking power piece, and the blanking power piece blanks the product on the blanking arm 346 to the blanking trolley 347, so that the double-surface marking of the product is completed.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these examples without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a two-sided marking machine of two marking mechanism which characterized in that: the marking machine comprises an A-side marking mechanism for marking the A side of the product, a B-side marking mechanism for marking the B side of the product, and a turnover mechanism positioned between the A-side marking mechanism and the B-side marking mechanism and used for turning over the product; the turnover mechanism comprises a turnover machine frame, a first rotating assembly arranged on the turnover machine frame, a second rotating assembly arranged on the first rotating assembly, a turnover assembly arranged on the second rotating assembly and a turnover grabbing assembly arranged on the turnover assembly.

2. The double-sided marking machine of a double-marking mechanism as claimed in claim 1, characterized in that: the first rotating assembly comprises a first rotating power piece arranged on the turnover rack and a rotating base arranged at the output end of the first rotating power piece; the second rotating assembly comprises a second rotating power part arranged on the rotating base and a rotating arm connected with the second rotating power part in a shaft mode.

3. The double-sided marking machine of the double-marking mechanism as claimed in claim 2, characterized in that: the turnover assembly comprises a turnover power piece arranged on the rotating arm and a turnover arm connected with the output end of the turnover power piece; the turnover grabbing component comprises a plurality of turnover grabbing arms arranged on the turnover arms, a plurality of turnover grabbing supports arranged on the turnover grabbing arms, a turnover adsorption piece arranged on the turnover grabbing supports and a turnover aspirator connected with the turnover adsorption piece.

4. The double-sided marking machine of a double-marking mechanism as claimed in claim 1, characterized in that: the A-surface marking mechanism comprises an A-surface marking rack, a feeding assembly and an A-surface marking assembly, wherein the feeding assembly is respectively arranged on the A-surface marking rack; the feeding component comprises a feeding trolley positioned inside the A-surface marking machine frame, a lifting power piece arranged inside the A-surface marking machine frame and a lifting arm arranged at the output end of the lifting power piece.

5. The double-sided marking machine of a double-marking mechanism as claimed in claim 4, characterized in that: the feeding assembly further comprises a feeding transverse moving track arranged on the A-surface marking machine frame, a feeding transverse moving base arranged on the feeding transverse moving track and a feeding transverse moving power piece used for driving the feeding transverse moving base to move directionally on the feeding transverse moving track; a feeding grabbing arm is arranged on the feeding transverse moving base; a plurality of feeding grabbing brackets are arranged on the feeding grabbing arm; the feeding grabbing bracket is provided with a feeding grabbing piece; the feeding grabbing piece is connected with the feeding aspirator.

6. The double-sided marking machine of a double-marking mechanism as claimed in claim 4, characterized in that: the feeding component comprises a feeding y-axis track arranged on the A-surface marking machine frame, a feeding adsorption platform arranged on the feeding y-axis track and a feeding power part used for driving the feeding adsorption platform to move directionally on the feeding y-axis track.

7. The double-sided marking machine of a double-marking mechanism as claimed in claim 4, characterized in that: the A-surface marking assembly comprises an A-surface marking x-axis track arranged on the A-surface marking rack, an A-surface marking x-axis moving base arranged on the A-surface marking x-axis track and an A-surface marking x-axis moving power part used for driving the A-surface marking x-axis moving base to directionally move on the A-surface marking x-axis track;

the marking assembly for the A surface is characterized by further comprising a marking z-axis moving track arranged on the marking x-axis moving base for the A surface, a marker arranged on the marking z-axis moving track for the A surface and a power part used for driving the marker to mark the Z-axis moving power part for the A surface, which is directionally moved on the marking z-axis moving track for the A surface.

8. The double-sided marking machine of a double-marking mechanism as claimed in claim 1, characterized in that: the B-surface marking mechanism comprises a B-surface marking rack, a B-surface feeding assembly, a B-surface marking adsorption table, a B-surface marking assembly and a blanking assembly, wherein the B-surface feeding assembly is respectively arranged on the B-surface marking rack and used for receiving the product transmitted by the turn-over mechanism;

the B surface feeding assembly comprises a B surface feeding moving track arranged on the B surface marking machine frame, a B surface feeding base arranged on the B surface feeding moving track and a B surface feeding power part used for driving the B surface feeding base to directionally move on the B surface feeding moving track; a B-surface feeding arm is arranged on the B-surface feeding base; a plurality of B-surface feeding supports are arranged on the B-surface feeding arm; the B-side feeding support is provided with a B-side feeding grabbing piece; and the B-side feeding grabbing piece is connected with the B-side feeding air aspirator.

9. The double-sided marking machine of a double-marking mechanism as claimed in claim 8, characterized in that: the B-surface marking assembly comprises a B-surface marking y-axis moving guide rail arranged on the B-surface marking rack, a B-surface marking y-axis moving base arranged on the B-surface marking y-axis moving guide rail and a B-surface marking y-axis moving power part used for driving the B-surface marking y-axis moving base to move directionally on the B-surface marking y-axis moving guide rail;

the B-surface marking x-axis moving guide rail is arranged on the B-surface marking y-axis moving base; the B-surface marking x-axis moving guide rail is provided with a B-surface marking x-axis moving base and a B-surface marking x-axis moving power part for driving the B-surface marking x-axis moving base to directionally move on the B-surface marking x-axis moving guide rail;

the B face is beaten the mark subassembly and is still including installing the B face on the B face is beaten mark x axle and is beaten mark z axle movable guide rail, is installed the B face on the B face is beaten mark z axle movable guide rail and is used for the drive the B face is beaten the mark ware and is in B face z axle movable power spare of directional removal on the B face z axle movable guide rail.

10. The double-sided marking machine of a double-marking mechanism as claimed in claim 8, characterized in that: the blanking assembly comprises a blanking guide rail arranged on the B-surface marking machine frame, a blanking base arranged on the blanking guide rail, a blanking arm arranged on the blanking base, a plurality of blanking supports arranged on the blanking arm, a blanking grabbing piece arranged on the blanking supports and a blanking power piece used for driving the blanking base to directionally move on the blanking guide rail; the blanking grabbing piece is connected with a blanking aspirator; the blanking assembly further comprises a blanking power part arranged inside the B-surface marking machine frame, a blanking arm connected with the output end of the blanking power part and a blanking trolley used for blanking a product which is marked and finished.

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