CN212488671U - Full-automatic silk flower forming machine - Google Patents

Abstract

The utility model discloses a full-automatic silk flower setting machine, which comprises a frame, a lifting unit, a leaf pressing unit, a leaf separating unit, a leaf taking and placing unit, a setting unit and a control unit, wherein the lifting unit, the leaf pressing unit, the leaf separating unit, the leaf taking and placing unit, the setting unit and the control unit are arranged on the frame, when in work, a processing mould is connected with a heating plate, when the temperature reaches the processing temperature, a certain number of to-be-processed flower inverses are placed on the supporting plate, the pressing blocks of the leaf pressing units can press the stacked flower inverses, the to-be-processed flower inverses at the top are separated from the to-be-processed flower inverses at the bottom by the cuttings of the leaf separating units under the driving of the third driver, then the separated top to-be-processed flower inverses are clamped tightly by the clamps in the leaf picking and placing units, under the drive of the fourth driver, the clamp moves to the processing mould of the leaf pressing unit, the flower counter to be processed is loosened, after the processing of the processing mould is finished, the vacuum suction nozzle of the leaf taking and placing unit can suck the processed flowers and convey finished products to an appointed position.

Description

Full-automatic silk flower forming machine

Technical Field

The utility model relates to a flower manufacture equipment technical field is decorated to the plastic, especially relates to a full-automatic silk flower forming machine.

Background

The forming machine is used for the machine of industrial manufacturing design usefulness, makes the product reach the shape that needs, and the forming machine among the prior art is various, and the pattern is different, and present forming machine adopts the manual work to put the design product of getting more, and operating personnel intensity of labour is big, and production efficiency is lower, and has caused the threat to operating personnel's safety. Along with the continuous development of the industrial modernization process, the labor cost is higher and higher, an automatic production line is adopted in more and more product production, the full-automatic setting machine in the prior art can meet the setting requirement, the mode of manually placing and taking the product is still adopted, the overall structure of the machine is complex, the size is large, the occupied space is large, the production cost is too high, the waste of space resources is caused, and the production benefit is reduced.

Therefore, how to change the current situation that the setting machine adopts manual placing and taking of products in the prior art, the setting machine has a complex structure and high production cost, and the problem to be solved by technical personnel in the field is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a full-automatic silk flower forming machine to solve the problem that above-mentioned prior art exists, improve the operational safety, simplify the device structure, reduction in production cost.

In order to achieve the above object, the utility model provides a following scheme: the utility model provides a full-automatic silk flower forming machine, including the frame and set up in lifting unit, leaf pressing unit, branch leaf unit, get and put leaf unit, shaping unit, the control unit in the frame, lifting unit includes layer board and first driver, the layer board can bear the flower of waiting to process and turn over, the layer board with the transmission of first driver links to each other, the first driver can drive the layer board along vertical direction reciprocating motion; the leaf pressing unit comprises a pressing block and a second driver, the pressing block is in transmission connection with the second driver, the second driver can drive the pressing block to reciprocate, the pressing block is arranged at the top of the supporting plate, and the pressing block can press the flowers to be processed; the leaf separating unit comprises an insert and a third driver, the insert is in transmission connection with the third driver, the third driver can drive the insert to reciprocate along the horizontal direction, the insert is arranged at the top of the supporting plate, and the insert can be used for separating stacked flowers to be processed; the blade taking and placing unit comprises a clamp, a vacuum suction nozzle and a fourth driver, the clamp and the vacuum suction nozzle are in transmission connection with the fourth driver respectively, the fourth driver can drive the clamp to clamp and release the to-be-processed patterned product, the fourth driver can drive the clamp and the vacuum suction nozzle to reciprocate, and the vacuum suction nozzle can adsorb the processed patterned product; the shaping unit comprises a heating plate, the heating plate can be connected with the processing mold, and the heating plate can transfer heat to the processing mold; the leaf pressing unit and the leaf dividing unit are respectively arranged on two opposite sides of the lifting unit, the leaf taking and placing unit is close to the leaf dividing unit, the shaping unit is close to the leaf pressing unit, and the first driver, the second driver, the third driver and the fourth driver are respectively connected with the control unit.

Preferably, the lifting unit further comprises a support frame, the two support plates are arranged on the support frame, and the first driver is in transmission connection with the support frame through a screw rod; the supporting plate is provided with a connecting hole; the first driver is a motor.

Preferably, the leaf pressing unit further comprises a leaf pressing support and a connecting plate, the second driver is arranged on the leaf pressing support, the second driver is in transmission connection with the pressing block through the connecting plate, and the pressing block is slidably arranged on the connecting plate.

Preferably, the pressing block comprises a first pressing block and a second pressing block, the length of the first pressing block is longer than that of the second pressing block, the first pressing block can press one side of the patterned mirror to be machined, the second pressing block can press the center of the patterned mirror to be machined, the first pressing block and the second pressing block are respectively in transmission connection with the second driver, and the second driver is a cylinder assembly; the first pressing block and the second pressing block are connected with the connecting plate in a sliding mode through connecting blocks respectively, the connecting plate is provided with a sliding groove, the connecting blocks are connected with sliding blocks matched with the sliding groove, the sliding blocks are arranged in the sliding groove in a sliding mode, and the connecting positions of the connecting blocks and the sliding blocks can be adjusted.

Preferably, the leaf separating unit comprises a leaf separating bracket, the third driver is in transmission connection with the leaf separating bracket through a screw rod, the third driver is a motor, and the insert is slidably arranged on the leaf separating bracket.

Preferably, one end of the insert close to the lifting unit is provided with an inclined surface, the inclined surface inclines from the top to the bottom of the insert to the direction far away from the insert, and the inclined surface intersects with the bottom surface of the insert and forms a sharp angle.

Preferably, the blade taking and placing unit comprises a taking and placing support, the fourth driver is in transmission connection with the taking and placing support, the fourth driver can drive the taking and placing support to reciprocate in a horizontal plane, and the clamp and the vacuum suction nozzle are slidably arranged on the taking and placing support.

Preferably, the clamp comprises a fixed clamping piece and a movable clamping piece, the fixed clamping piece and the movable clamping piece are arranged oppositely, the fixed clamping piece and the movable clamping piece can be abutted, the movable clamping piece is in transmission connection with the fourth driver, and the fourth driver can drive the movable clamping piece to be close to or far away from the fixed clamping piece; the fourth drive is a cylinder assembly.

Preferably, the shaping unit further comprises a shaping support, the heating plate comprises an upper heating plate and a lower heating plate which are oppositely arranged in parallel, the upper heating plate and the lower heating plate can be connected with the processing mold, the lower heating plate is arranged on the shaping support, and the upper heating plate can be slidably arranged on the shaping support.

Preferably, the first driver, the second driver, the third driver and the fourth driver are all provided with inductive switches, and the inductive switches are connected with the control unit.

The utility model discloses for prior art gain following technological effect: the utility model discloses a full-automatic silk flower forming machine, including the frame and set up lifting unit, pressure leaf unit, branch leaf unit, get and put leaf unit, design unit, the control unit in the frame, lifting unit includes layer board and first driver, and the layer board can bear and wait to process the flower and turn over, and the layer board links to each other with the transmission of first driver, and first driver can drive the layer board along vertical direction reciprocating motion; the leaf pressing unit comprises a pressing block and a second driver, the pressing block is in transmission connection with the second driver, the second driver can drive the pressing block to reciprocate, the pressing block is arranged at the top of the supporting plate, and the pressing block can press the flower counter to be processed; the leaf separating unit comprises an insert and a third driver, the insert is in transmission connection with the third driver, the third driver can drive the insert to reciprocate along the horizontal direction, the insert is arranged at the top of the supporting plate, and the insert can be separately stacked to form a flower pit to be processed; the leaf taking and placing unit comprises a clamp, a vacuum suction nozzle and a fourth driver, the clamp and the vacuum suction nozzle are in transmission connection with the fourth driver respectively, the fourth driver can drive the clamp to clamp and release the flower-shaped; the shaping unit comprises a heating plate, the heating plate can be connected with the processing mold, and the heating plate can transfer heat to the processing mold; the leaf pressing unit and the leaf separating unit are respectively arranged on two opposite sides of the lifting unit, the leaf taking and placing unit is arranged close to the leaf separating unit, the shaping unit is arranged close to the leaf pressing unit, and the first driver, the second driver, the third driver and the fourth driver are respectively connected with the control unit. The utility model discloses a full-automatic silk flower forming machine during operation, link processing mold and heating plate, after the temperature reached the processing temperature, put the flower of waiting to process of a certain quantity on the layer board inversely, the briquetting of leaf pressing unit can compress tightly the flower that stacks inversely, the son of branch leaf unit is driven under the third driver and is reversed the flower of waiting to process of top and the flower of waiting to process of bottom inversely separately, subsequently get the clip in the leaf unit and clamp the flower of waiting to process of separating inversely, under the drive of fourth driver, the clip moves to the processing mold department of leaf pressing unit, loosen the flower of waiting to process inversely, after the processing of processing mold is accomplished, the vacuum suction nozzle of leaf unit can absorb the flower of getting after processing inversely, send the finished product to the assigned position, when the vacuum suction nozzle takes out the finished product flower inversely, the clip is with waiting to process the flower inversely cramp, realize continuous production, improve machining efficiency, along with the quantity of treating processing flower-turning of lift unit constantly reduces, first driver can drive the layer board and rise to guarantee the normal work of other units, reduce manual operation, improve the factor of safety of device, reduction in production cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

FIG. 1 is a schematic structural view of the fully automatic silk flower setting machine of the present invention;

fig. 2 is a schematic structural view of a lifting unit of the fully automatic silk flower setting machine of the present invention;

FIG. 3 is a schematic structural view of a leaf pressing unit of the full-automatic silk flower setting machine of the present invention;

FIG. 4 is a schematic structural view of the leaf separating unit of the fully automatic silk flower setting machine of the present invention;

fig. 5 is a schematic structural view of a leaf taking and placing unit of the full-automatic silk flower setting machine of the present invention;

fig. 6 is a schematic structural diagram of the shaping unit of the fully automatic silk flower shaping machine of the present invention;

the device comprises a frame 1, a lifting unit 2, a supporting plate 201, a supporting frame 202, a connecting hole 203, a first driver 204, a leaf pressing unit 3, a first pressing block 301, a second pressing block 302, a leaf pressing support 303, a connecting plate 304, a second driver 305, a leaf separating unit 4, an insert 401, a leaf separating support 402, a first insert block 403, a second insert block 404, a third driver 405, a leaf taking and placing unit 5, a clamp 501, a taking and placing support 502, a fixed clamping piece 503, a movable clamping piece 504, a fourth driver 505, a shaping unit 6, a shaping support 601, an upper heating plate 602, a lower heating plate 603 and a control unit 7.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model aims at providing a full-automatic silk flower forming machine to solve the problem that above-mentioned prior art exists, improve the operational safety, simplify the device structure, reduction in production cost.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

Please refer to fig. 1-6, wherein, fig. 1 is the structure schematic diagram of the full-automatic silk flower setting machine of the present invention, fig. 2 is the structure schematic diagram of the lifting unit of the full-automatic silk flower setting machine of the present invention, fig. 3 is the structure schematic diagram of the leaf pressing unit of the full-automatic silk flower setting machine of the present invention, fig. 4 is the structure schematic diagram of the leaf separating unit of the full-automatic silk flower setting machine of the present invention, fig. 5 is the structure schematic diagram of the leaf taking and placing unit of the full-automatic silk flower setting machine of the present invention, fig. 6 is the structure schematic diagram of the setting unit of the full-automatic silk flower setting machine of the present invention.

The utility model provides a full-automatic silk flower forming machine, including frame 1 and the lifting unit 2, the leaf pressing unit 3, the leaf separating unit 4, the leaf taking and placing unit 5, the forming unit 6, the control unit 7 that set up in frame 1, lifting unit 2 includes layer board 201 and first driver 204, and layer board 201 can bear the flower that waits to process and turn over (emulation flower leaf), and layer board 201 links to each other with the transmission of first driver 204, and first driver 204 can drive layer board 201 along vertical direction reciprocating motion; the leaf pressing unit 3 comprises a pressing block and a second driver 305, the pressing block is in transmission connection with the second driver 305, the second driver 305 can drive the pressing block to reciprocate, the pressing block is arranged at the top of the supporting plate 201, and the pressing block can press the flowers to be processed; the leaf separating unit 4 comprises an insert 401 and a third driver 405, the insert 401 is in transmission connection with the third driver 405, the third driver 405 can drive the insert 401 to reciprocate along the horizontal direction, the insert 401 is arranged at the top of the supporting plate 201, and the insert 401 can be stacked separately to form a flower counter to be processed; the blade taking and placing unit 5 comprises a clamp 501, a vacuum suction nozzle and a fourth driver 505, the clamp 501 and the vacuum suction nozzle are in transmission connection with the fourth driver 505 respectively, the fourth driver 505 can drive the clamp 501 to clamp and release the to-be-processed flower-shaped substrate, the fourth driver 505 can drive the clamp 501 and the vacuum suction nozzle to reciprocate, and the vacuum suction nozzle can absorb the processed flower-shaped substrate; the shaping unit 6 comprises a heating plate, the heating plate can be connected with the processing mold, and the heating plate can transfer heat to the processing mold; the leaf pressing unit 3 and the leaf separating unit 4 are respectively arranged on two opposite sides of the lifting unit 2, the leaf taking and placing unit 5 is arranged close to the leaf separating unit 4, the shaping unit 6 is arranged close to the leaf pressing unit 3, and the first driver 204, the second driver 305, the third driver 405 and the fourth driver 505 are respectively connected with the control unit 7.

The utility model discloses a full-automatic silk flower forming machine during operation, link processing mold and heating plate, after the temperature reached the processing temperature, put the flower of waiting to process of a certain quantity on layer board 201 in reverse, the briquetting of pressure leaf unit 3 can compress tightly the flower of stacking in reverse, the son 401 of inserting of branch leaf unit 4 is driven under third driver 405 with the flower of waiting to process of top is reversed separately, get the top of getting in leaf unit 5 after that and wait to process the flower of separating and reverse the cramp, under the drive of fourth driver 505, clip 501 moves to the processing mold department of pressure leaf unit 3, loosen the flower of waiting to process is reversed, after the processing of processing mold is accomplished, get the vacuum suction nozzle of getting in leaf unit 5 and can absorb the flower of processing after reverse, send the finished product to the assigned position, when the finished product flower of taking out of vacuum suction nozzle is reversed, clip 501 will wait to process the flower and reverse the clamp, realize continuous production, improve machining efficiency, along with the quantity that the processing flower of treating of lift unit 2 is anti-constantly reduced, first driver 204 can drive layer board 201 and rise to guarantee the normal work of other units, reduce manual operation, improve the factor of safety of device, reduction in production cost.

Specifically, the lifting unit 2 further includes a support frame 202, the two support plates 201 are disposed on the support frame 202, the first driver 204 is in transmission connection with the support frame 202 through a screw rod, the first driver 204 is a motor, and the first driver 204 drives the screw rod to rotate so as to adjust the height of the support plates 201. Set up connecting hole 203 on layer board 201, in actual operation, layer board 201 can utilize connecting hole 203 to connect the bearing and treat the anti-flat board of processing flower, to treat that the processing flower is anti-to place on the flat board, in order to further prevent to treat that the processing flower is anti-to slide the dislocation, can also utilize connecting hole 203 to set up a plurality of reference columns on layer board 201 or the flat board, to treat that the processing flower is anti-to place between the reference column, to treat that the processing flower is anti-to be enclosed and decide in "circle" that the reference column encloses, the anti-skew dislocation of processing flower of avoiding stacking, guarantee the normal work of device, need notice, the position that sets up of reference column can not influence the briquetting, the normal work of insert.

Wherein, the leaf pressing unit 3 further comprises a leaf pressing support 303 and a connecting plate 304, the second driver 305 is arranged on the leaf pressing support 303, the second driver 305 is connected with the pressing block through the connecting plate 304 in a transmission manner, the second driver 305 can drive the connecting plate 304 to move up and down, and then the purpose of driving the pressing block to move up and down is achieved, the pressing block can be pressed and loosened by reciprocating up and down, the pressing block can be slidably arranged on the connecting plate 304, the relative sliding direction of the pressing block and the connecting plate 304 is parallel to the horizontal plane, and the position of the pressing block to be pressed and processed by the pressing block can be adjusted by adjusting the relative position of the pressing block and.

More specifically, the pressing block comprises a first pressing block 301 and a second pressing block 302, the length of the first pressing block 301 is longer than that of the second pressing block 302, the first pressing block 301 can press one side of the pattern to be processed, and the second pressing block 302 can press the center of the pattern to be processed. During operation, because the second briquetting 302 that length is shorter compresses tightly the central point that the flower of stacking is anti, make the edge of a plurality of flowers at top upwards perk, the first briquetting 301 that length is longer compresses tightly one side of the flower of stacking is anti, alleviate the flower of top and anti the perk condition, the clip 501 of being convenient for stretches into and presss from both sides the flower by the perk department of the opposite side of flower is anti, first briquetting 301 and second briquetting 302 link to each other with the transmission of second driver 305 respectively, second driver 305 is the cylinder assembly, in this embodiment, first briquetting 301 and second briquetting 302 are driven alone by different cylinders, improve the action flexibility. Meanwhile, the first pressing block 301 and the second pressing block 302 are respectively connected with the connecting plate 304 in a sliding manner through the connecting block, the connecting plate 304 is provided with a sliding groove, the connecting block is connected with a sliding block matched with the sliding groove, the sliding block is arranged in the sliding groove in a sliding manner, the connecting position of the connecting block and the sliding block can be adjusted, the connecting block is connected with the connecting plate 304 in a sliding manner through the sliding block, the positions of the first pressing block 301 and the second pressing block 302 and the distance between the first pressing block 301 and the second pressing block 302 can be adjusted conveniently, the mounting positions of the connecting block and the sliding block can be adjusted, the direction of relative displacement of the connecting block and the sliding block can be vertical to the relative sliding direction of the connecting block and the connecting plate 304, the extending lengths of the first pressing block 301 and the second pressing block 302 can be adjusted by adjusting the mounting positions of the connecting, with the position that the flower is reversed to treat that first briquetting 301 and second briquetting 302 compress tightly in a flexible way, in addition, second driver 305 can drive first briquetting 301 and second briquetting 302 up-and-down motion for first briquetting 301 and second briquetting 302 can adapt to the flower of treating of different specifications, shape and reversely, improve the nimble adaptability of device. It should be noted here that, locking elements are disposed between the components capable of generating relative displacement, and are locked after being adjusted to a proper position, so as to improve the working stability of the device.

In addition, the leaf separating unit 4 comprises a leaf separating support 402, a third driver 405 is in transmission connection with the leaf separating support 402 through a screw rod, the third driver 405 is a motor, the motor drives the screw rod to rotate, and then the insert 401 can be driven to be inserted into the stacked flowers or be withdrawn from the stacked flowers, so that a certain number of to-be-processed flower stands can be clamped by the clamp 501 conveniently, the insert 401 can be arranged on the leaf separating support 402 in a sliding mode, the position of the insert 401, which is inserted into the stacked flower stands, can be adjusted conveniently by adjusting the relative position of the insert 401 and the leaf separating support 402, the number of the flower stands processed at a time can be determined, and the processing quality of the flower stands can be improved. It should be noted here that the height of the leaf-separating bracket 402 can be adjusted to accommodate stacked flowers of different heights; meanwhile, the insert 401 is of a split structure, the insert 401 comprises a first insert block 403 and a second insert block 404 which are connected, the first insert block 403 can be inserted into a stacked flower counter, the second insert block 404 is slidably arranged on the leaf separating support 402, the sliding connection position of the second insert block 404 and the leaf separating support 402 can be adjusted, in the specific implementation mode, a long hole is formed in the second insert block 404, the relative position of the second insert block and the leaf separating support 402 can be conveniently adjusted, and the position of the second insert block 404 can be adjusted in a plane parallel to the supporting plate 201.

In order to enable the insert 401 to be smoothly inserted between the stacked flower buds, one end, close to the lifting unit 2, of the insert 401 is provided with an inclined surface, the inclined surface inclines from the top to the bottom of the insert 401 towards the direction far away from the insert 401, the inclined surface intersects with the bottom surface of the insert 401 and forms a sharp angle, and the inclined surface is arranged to enable the insert 401 to conveniently extend into the space between the stacked flower buds, so that a convenient condition is provided for the clamp 501 to clamp the flower buds. The inserting position of the insert 401 can be adjusted by adjusting the height of the leaf separating support 402, namely the height of the insert 401, so that the purpose of adjusting the number of the flowers to be processed, which are positioned at the top of the insert 401 after the insert 401 extends, is achieved.

Further, the blade taking and placing unit 5 comprises a taking and placing support 502, a fourth driver 505 is in transmission connection with the taking and placing support 502, the fourth driver 505 can drive the taking and placing support 502 to move randomly in space, the taking and placing support 502 reciprocates to drive the clamp 501 and the vacuum nozzle to reciprocate between the lifting unit 2 and the blade pressing unit 3, the clamp 501 and the vacuum nozzle are both slidably arranged on the taking and placing support 502 to facilitate adjusting the positions of the clamp 501 and the vacuum nozzle, the fourth driver 505 can drive the clamp 501 and the vacuum nozzle to move in a plane parallel to the supporting plate 201 to facilitate clamping and putting down of a finished product to be processed, and sucking and releasing of the pressed finished product, the fourth driver 505 can also drive the clamp 501 and the vacuum nozzle to change the height, the vacuum nozzle is communicated with the air pump through a pipeline, the working face of the vacuum nozzle faces to a cavity of the working mold, and the position of the vacuum nozzle can be adjusted, ensuring that the vacuum suction nozzle can suck the processed product is a conventional means for those skilled in the art to work because the air pump is provided to pump air, and will not be described herein.

In this embodiment, the clip 501 includes a fixed clip 503 and a movable clip 504, the fixed clip 503 and the movable clip 504 are disposed opposite to each other, the fixed clip 503 and the movable clip 504 can abut against each other, the fixed clip 503 is located at the bottom of the movable clip 504, so that the fixed clip 503 is convenient to position and clamp the to-be-processed flower, the movable clip 504 is in transmission connection with a fourth driver 505, and the fourth driver 505 can drive the movable clip 504 to approach or leave the fixed clip 503; the fourth driver 505 is a cylinder assembly, after the insert 401 is inserted between the stacked flower buds, the fixed clamping piece 503 of the clamp 501 extends into the gap separated by the insert 401, the movable clamping piece 504 moves downwards under the driving of the cylinder, cooperates with the fixed clamping piece 503 to clamp the flower buds to be processed, and then moves to the leaf pressing unit 3 for pressing.

Furthermore, the shaping unit 6 further comprises a shaping support 601, the heating plate comprises an upper heating plate 602 and a lower heating plate 603 which are arranged oppositely in parallel, both the upper heating plate 602 and the lower heating plate 603 can be connected with the processing mold, the lower heating plate 603 is arranged on the shaping support 601, the upper heating plate 602 is located at the top of the lower heating plate 603, the upper heating plate 602 is slidably arranged on the shaping support 601, and the heating plate can heat the processing mold, so that the processing mold can perform inverse compression molding on the pattern.

In order to facilitate control and achieve coordination of device actions, the first driver 204, the second driver 305, the third driver 405 and the fourth driver 505 are provided with inductive switches, and the inductive switches are connected with the control unit 7.

The utility model discloses a full-automatic silk flower forming machine during operation, link processing mold and heating plate, after the temperature reached the processing temperature, put the flower of waiting to process of a certain quantity on layer board 201 in reverse, the briquetting of pressure leaf unit 3 can compress tightly the flower of stacking in reverse, the son 401 of inserting of branch leaf unit 4 is driven under third driver 405 with the flower of waiting to process of top is reversed separately, get the top of getting in leaf unit 5 after that and wait to process the flower of separating and reverse the cramp, under the drive of fourth driver 505, clip 501 moves to the processing mold department of pressure leaf unit 3, loosen the flower of waiting to process is reversed, after the processing of processing mold is accomplished, get the vacuum suction nozzle of getting in leaf unit 5 and can absorb the flower of processing after reverse, send the finished product to the assigned position, when the finished product flower of taking out of vacuum suction nozzle is reversed, clip 501 will wait to process the flower and reverse the clamp, realize continuous production, improve machining efficiency, along with the quantity that the processing flower of treating of lift unit 2 is anti-constantly reduced, first driver 204 can drive layer board 201 and rise to guarantee the normal work of other units, reduce manual operation, improve the factor of safety of device, reduction in production cost.

The utility model discloses a concrete example is applied to explain the principle and the implementation mode of the utility model, and the explanation of the above example is only used to help understand the method and the core idea of the utility model; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (10)

1. The utility model provides a full-automatic silk flower forming machine which characterized in that: the device comprises a rack, and a lifting unit, a leaf pressing unit, a leaf separating unit, a leaf taking and placing unit, a shaping unit and a control unit which are arranged on the rack, wherein the lifting unit comprises a supporting plate and a first driver, the supporting plate can support a flower counter to be processed, the supporting plate is in transmission connection with the first driver, and the first driver can drive the supporting plate to reciprocate along the vertical direction; the leaf pressing unit comprises a pressing block and a second driver, the pressing block is in transmission connection with the second driver, the second driver can drive the pressing block to reciprocate, the pressing block is arranged at the top of the supporting plate, and the pressing block can press the flowers to be processed; the leaf separating unit comprises an insert and a third driver, the insert is in transmission connection with the third driver, the third driver can drive the insert to reciprocate along the horizontal direction, the insert is arranged at the top of the supporting plate, and the insert can be used for separating stacked flowers to be processed; the blade taking and placing unit comprises a clamp, a vacuum suction nozzle and a fourth driver, the clamp and the vacuum suction nozzle are in transmission connection with the fourth driver respectively, the fourth driver can drive the clamp to clamp and release the to-be-processed patterned product, the fourth driver can drive the clamp and the vacuum suction nozzle to reciprocate, and the vacuum suction nozzle can adsorb the processed patterned product; the shaping unit comprises a heating plate, the heating plate can be connected with the processing mold, and the heating plate can transfer heat to the processing mold; the leaf pressing unit and the leaf dividing unit are respectively arranged on two opposite sides of the lifting unit, the leaf taking and placing unit is close to the leaf dividing unit, the shaping unit is close to the leaf pressing unit, and the first driver, the second driver, the third driver and the fourth driver are respectively connected with the control unit.

2. The fully automatic silk flower setting machine of claim 1, wherein: the lifting unit further comprises a support frame, the two supporting plates are arranged on the support frame, and the first driver is in transmission connection with the support frame through a screw rod; the supporting plate is provided with a connecting hole; the first driver is a motor.

3. The fully automatic silk flower setting machine of claim 1, wherein: the leaf pressing unit further comprises a leaf pressing support and a connecting plate, the second driver is arranged on the leaf pressing support, the second driver is in transmission connection with the pressing block through the connecting plate, and the pressing block is slidably arranged on the connecting plate.

4. The fully automatic silk flower setting machine of claim 3, wherein: the pressing block comprises a first pressing block and a second pressing block, the length of the first pressing block is longer than that of the second pressing block, the first pressing block can press one side of the patterned surface to be machined, the second pressing block can press the center of the patterned surface to be machined, the first pressing block and the second pressing block are in transmission connection with the second driver respectively, and the second driver is an air cylinder assembly; the first pressing block and the second pressing block are connected with the connecting plate in a sliding mode through connecting blocks respectively, the connecting plate is provided with a sliding groove, the connecting blocks are connected with sliding blocks matched with the sliding groove, the sliding blocks are arranged in the sliding groove in a sliding mode, and the connecting positions of the connecting blocks and the sliding blocks can be adjusted.

5. The fully automatic silk flower setting machine of claim 4, wherein: the leaf separating unit comprises a leaf separating support, the third driver is in transmission connection with the leaf separating support through a screw rod, the third driver is a motor, and the insert can be slidably arranged on the leaf separating support.

6. The fully automatic silk flower setting machine of claim 5, wherein: one end of the insert, which is close to the lifting unit, is provided with an inclined surface, the inclined surface inclines from the top of the insert to the bottom in the direction away from the insert, and the inclined surface is intersected with the bottom surface of the insert and forms a sharp angle.

7. The fully automatic silk flower setting machine of claim 1, wherein: the blade taking and placing unit comprises a taking and placing support, the fourth driver is in transmission connection with the taking and placing support, the fourth driver can drive the taking and placing support to reciprocate in the horizontal plane, and the clamp and the vacuum suction nozzle are slidably arranged on the taking and placing support.

8. The fully automatic silk flower setting machine of claim 7, wherein: the clamp comprises a fixed clamping piece and a movable clamping piece, the fixed clamping piece and the movable clamping piece are oppositely arranged, the fixed clamping piece and the movable clamping piece can be abutted, the movable clamping piece is in transmission connection with the fourth driver, and the fourth driver can drive the movable clamping piece to be close to or far away from the fixed clamping piece; the fourth drive is a cylinder assembly.

9. The fully automatic silk flower setting machine of claim 1, wherein: the shaping unit further comprises a shaping support, the heating plate comprises an upper heating plate and a lower heating plate which are oppositely arranged in parallel, the upper heating plate and the lower heating plate can be connected with a processing mold, the lower heating plate is arranged on the shaping support, and the upper heating plate can be slidably arranged on the shaping support.

10. The fully automatic silk flower setting machine according to any one of claims 1 to 9, wherein: the first driver, the second driver, the third driver and the fourth driver are all provided with inductive switches, and the inductive switches are connected with the control unit.

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