CN115071247B - Industrial film cutting and laminating machine - Google Patents

Abstract

The invention relates to an industrial film cutting and laminating machine, and belongs to the technical field of RO (reverse osmosis) film production. Including core structure and quick-witted case structure, the core structure is including being located graticule mesh material loading roller and the diaphragm material loading roller that the front end set up from top to bottom respectively, it draws to tailor laminating mechanism to have set gradually diaphragm rubberizing tape mechanism and graticule mesh at graticule mesh material loading roller rear, draw to tailor laminating mechanism below still to be provided with lamination indentation mechanism at the graticule mesh, lamination indentation mechanism is used for carrying out indentation and ultrasonic welding shaping to graticule mesh and RO membrane after folding combination, be provided with on the same horizontal plane at diaphragm rubberizing tape mechanism rear and draw diaphragm mechanism and cut out the membrane mechanism, be used for drawing back preset position and tailor with the RO diaphragm of coiling on the diaphragm material loading roller, draw the membrane mechanism below rather than being parallel to each other and be provided with one set of diaphragm transport mechanism, be used for transporting the diaphragm that tailors and folds the completion, the mobilizable diaphragm finished product collection car that is provided with in diaphragm transport mechanism below, a finished product diaphragm transport mechanism has transported is used for collecting.

Description

Industrial film cutting and laminating machine

Technical Field

The invention relates to an industrial film cutting and laminating machine, and belongs to the technical field of RO (reverse osmosis) film production.

Background

The RO membrane is rolled up by the center tube of locating the center to and use the center tube to constitute as the RO membrane of axle coiling setting, the production process that the RO membrane was rolled up includes the center tube viscose area, places the center tube, cuts the membrane, fold the membrane, roll up multiprogrammes such as membrane:

cutting a film: the RO membrane roll comprises materials such as RO membranes, guide cloth, grid cloth and the like inside, and the RO membrane rolls with different specifications need to be cut into required dimension specifications if the sizes of the materials are different;

laminating: stacking the cut materials in sequence according to a certain sequence to form a membrane;

at present, only an independent RO membrane cutting machine and an independent RO membrane laminating machine exist in the market, and intermediate products are conveyed manually among the machines, so that the problems of high manual consumption, low production efficiency and the like are easily caused; different mechanical devices are arranged in the production process of the whole RO membrane roll, and the steps are manually connected, so that the whole production process is caused, and the production efficiency is low.

In view of the above-mentioned drawbacks, the present invention is to provide an industrial film cutting and laminating machine, which has higher industrial utility value.

Disclosure of Invention

In order to solve the defects of the prior art, the invention aims to provide an integrated industrial film cutting and laminating machine.

The invention relates to an industrial film cutting and laminating machine, which comprises a machine core structure and a machine case structure,

core structure is including being located graticule mesh material loading roller and the diaphragm material loading roller that the front end set up from top to bottom respectively, is used for graticule mesh and RO diaphragm material loading respectively, has set gradually diaphragm adhesive tape mechanism and graticule mesh and has pull to tailor at graticule mesh material loading roller rear and has cut out lamination mechanism, diaphragm adhesive tape mechanism is used for producing the damage to RO diaphragm surface in RO diaphragm pre-folding department when preventing to fold the membrane, graticule mesh is pulled to tailor lamination mechanism and is used for transferring graticule mesh and make it fold with the cooperation of RO membrane the graticule mesh is pulled to tailor lamination mechanism below and still is provided with lamination indentation mechanism, lamination indentation mechanism is used for carrying out indentation and ultrasonic welding shaping to graticule mesh and RO membrane after folding the combination be provided with on the same horizontal plane at diaphragm adhesive tape mechanism rear and draw down preset position and tailor for drawing the RO diaphragm that rolls up on the diaphragm material loading roller and pulling the RO diaphragm that is parallel to each other and is provided with one set of diaphragm transport mechanism for transporting the diaphragm that finishes folding diaphragm and transport the finished product collection vehicle below is used for the diaphragm is collected the mobilizable finished product and is transported the diaphragm.

Furthermore, the diaphragm rubberizing tape mechanism is including the diaphragm guide roll that is located the front end, at diaphragm guide roll rear rather than being parallel to each other be provided with the sticky tape clamp plate for make the laminating of sticky tape can be inseparabler on the diaphragm surface sticky tape clamp plate one end fixed surface is provided with a sticky tape mechanism for support the sticky tape, make its rise and tightly be convenient for laminate sticky tape clamp plate top still is provided with a rubberizing tape slide rail along the horizontal direction, installs the sticky tape motor in sticky tape slide rail one end, sticky tape slide rail surface has still cup jointed the sticky tape slider, sticky tape slider front surface is equipped with sticky tape mechanism, and the rotatable installation of sticky tape is on sticky tape mechanism surface.

The adhesive tape sticking mechanism comprises a pressing cylinder and a pressing film pressing sheet which are arranged on the right side of the surface of an adhesive tape sticking sliding block, the pressing film pressing sheet is hinged and fixed on the surface of the adhesive tape sticking sliding block, the tail ends of the pressing cylinder and the pressing film pressing sheet are hinged in a transmission manner, the head end of the pressing film pressing sheet is controlled to be pressed downwards and upwards through the expansion and contraction of the pressing cylinder, so that the pressing film sheet is pressed to be tightly attached to the adhesive tape pressing sheet, an adhesive tape roller sliding rail is fixedly arranged on the left side of the surface of the adhesive tape sticking sliding block, an adhesive tape roller sliding block is sleeved on the surface of the adhesive tape roller sliding rail, the adhesive tape roller sliding block is connected with the output end of the adhesive tape roller pressing cylinder, the bottom end of the adhesive tape roller pressing cylinder is fixedly connected with the surface of the adhesive tape roller sliding block, an adhesive tape roller mounting plate is fixedly arranged on the surface of the adhesive tape roller sliding block, an adhesive tape roller is fixedly connected to the bottom of the adhesive tape roller mounting plate, the adhesive tape roller mounting plate is driven by the adhesive tape roller pressing cylinder to move upwards and downwards, so that the adhesive tape is tightly attached to the surface of the film sheet; sticky tape gyro wheel mounting panel surface still fixed mounting has the cut-off knife cylinder, cut-off knife cylinder output is connected with the cut-off knife, and it is flexible through the flexible, cut-off sticky tape of cut-off knife cylinder control cut-off knife.

Further, the graticule mesh is drawn and is tailor and fold membrane mechanism and include from the past backward, by the first deflector roll of graticule mesh and graticule mesh second deflector roll that height set up to low, has set gradually graticule mesh drive mechanism and graticule mesh tailorring mechanism along vertical direction under to from last at graticule mesh second deflector roll rear side, graticule mesh tailorring mechanism below still is provided with graticule mesh diaphragm welding mechanism, and the graticule mesh of convoluteing on the graticule mesh material loading roller is cut out the welding through graticule mesh tailorring mechanism and graticule mesh diaphragm welding mechanism after grid drawing mechanism's traction and RO diaphragm combination are folding, forms folding finished product.

Further, graticule mesh drive mechanism includes the support that pulls that two bilateral symmetry set up, two pull rotatable installation between the support and pull the action wheel, pull action wheel one end and traction motor transmission and connect, be equipped with at every rear end surface of pulling the support and adjust the slide rail from the driving wheel, adjust slide rail surface slidable cup joint from the driving wheel and adjust the slider, adjust slider surface rotatable installation from the driving wheel and pull from the driving wheel, adjust the slider's rear end and the output transmission of driving wheel from the driving wheel and connect at the rear end of driving wheel adjustment cylinder, drive from the driving wheel of the driving wheel adjustment slider surface through adjusting the cylinder from the driving wheel and pull to be close to the action wheel, until with graticule mesh centre gripping after, start traction motor and drive and pull the action wheel and rotate, pull the transport to graticule mesh.

Furthermore, the grid cutting mechanism comprises a gantry-shaped cutting support, two cutting slide rails are arranged at the bottom of the two ends of the cutting support along the vertical direction, a cutting slide block is connected to the surface of each cutting slide rail in a sliding manner, one end of the cutting bracket is provided with a sliding driving motor which is connected with the cutting slide rail in a transmission way, the cutting slide rail is driven by the sliding driving motor to drive the cutting slide blocks to move up and down, the fixed section steel is installed and connected between the two cutting slide blocks, a cutting installation base plate is arranged on the front surface of the fixed profile steel, the surface of the cutting installation base plate is connected with a cutting mechanism installation plate, a gap is left between the cutting mechanism mounting plate and the cutting mounting substrate for the grid to pass through, a cutting movable slide rail is fixedly arranged on the cutting mechanism mounting plate along the horizontal direction, a cutting movable slide block is sleeved on the surface of the cutting movable slide rail in a left-right sliding way, a cutting blade is arranged on the bottom surface of the cutting movable slide block and is used for cutting grids, a cutting moving motor is fixedly arranged on the back of the cutting mounting base plate and is in transmission connection with the cutting moving slide rail, a cutting blade at the bottom of the cutting moving slide rail is driven to move transversely by the cutting moving motor, thereby cutting the grid net, wherein two grid guiding folding plates are symmetrically arranged at two ends of the bottom of the cutting installation substrate, the distance between the far end edges of the two grid guiding folding plates is equal to the width of the grid net, the two grid guiding folding plates are both hollow interlayer structures to form a grid guiding channel, the grid after traction and the RO membrane assembly of the adhesive tape are assembled through the grid guide channel, and the adhesive tape is pressed down through the grid guide folding plate to complete folding.

Further, it constructs including fold membrane mechanism and indentation mechanism to fold membrane indentation mechanism, fold membrane mechanism and include two mutual parallel arrangement's membrane backing rolls, and the clearance width between two membrane backing rolls is greater than graticule mesh direction folding plate thickness for graticule mesh direction folding plate drives the graticule mesh and passes and fold the RO membrane, is equipped with the indentation diaphragm that the centre has rectangular gap in two membrane backing roll belows, and rectangular gap length in the middle of the indentation diaphragm and the width phase-match of graticule mesh, the width in rectangular gap are greater than graticule mesh direction folding plate thickness indentation diaphragm below is connected with an indentation riser rather than the perpendicular, the indentation riser sets up the one side in gap in the middle of the indentation diaphragm for the indentation withstands diaphragm and graticule mesh, ultrasonic welding gun of each fixedly connected with in indentation riser both ends for with RO diaphragm and graticule mesh welded fastening shaping after will folding.

The indentation mechanism comprises an indentation slide rail arranged in parallel with an indentation transverse plate, an indentation slide rail motor is installed at one end of the indentation slide rail, the indentation slide rail motor is in transmission connection with the indentation slide rail, an indentation slide block is sleeved on the surface of the indentation slide rail in a sliding manner, an indentation wheel installation plate is fixedly connected to the upper surface of the indentation slide block, an indentation cylinder is fixedly connected to the position, perpendicular to the indentation slide rail, of the surface of the indentation wheel installation plate, the output end of the indentation cylinder is in transmission connection with an indentation wheel installation rod, an indentation wheel is rotatably connected to the tail end of the indentation wheel installation rod, when the grid is guided to the folding plate to drive the grid to pass through the RO membrane for folding, the membrane after the grid is clamped in a folding manner passes through a gap in the middle of the indentation transverse plate and then is located in front of a vertical plate, the indentation cylinder drives the indentation wheel to retract, the indentation wheel installed on the slide block is driven to move along the indentation slide rail through the indentation slide rail motor, the folded membrane is compressed and molded, and finally the RO membrane and the grid are welded and fixed and formed through ultrasonic welding guns at two ends.

Further, cut out membrane mechanism and draw membrane mechanism and be located same horizontal plane, cut out membrane mechanism and include cutting out membrane installation shaped steel, have the membrane mainboard of cutting out at membrane installation shaped steel top fixed mounting of cutting out, cut out membrane mainboard top interval and install the cutting out membrane subplate, cut out the thickness that the gap width between membrane mainboard and the cutting out membrane subplate is greater than the RO diaphragm for the RO diaphragm is drawn through, has the cutting out membrane slide rail at the cutting out membrane subplate top fixed mounting, cut out membrane slide rail surface slidable and cup jointed the cutting out membrane slider, cut out membrane slider front surface along vertical direction fixed mounting have the cutting out membrane blade, have cutting out membrane driving motor below the cutting out membrane mainboard, cut out the transmission connection between membrane driving motor and the cutting out membrane slide rail, drive the cutting out membrane blade of installing on the cutting out membrane slider through the cutting out membrane motor and remove and cut out the RO diaphragm.

Further, draw diaphragm mechanism to include two mutual parallel arrangement draw the diaphragm slide rail, draw the diaphragm slide rail tail end to install and draw the diaphragm motor at one of them, two draw and to connect through drawing the transmission of diaphragm drive lever between the diaphragm slide rail, draw the surface of diaphragm slide rail at two respectively synchronous gliding cup joints and draw the diaphragm slider, two draw fixed mounting to draw between the diaphragm slider and draw diaphragm shaped steel, draw diaphragm steel anterior segment to be fixed with a plurality of diaphragm clamping jaws that draw, after drawing the diaphragm clamping jaw and cliping the diaphragm, draw the diaphragm drive lever to drive through drawing the diaphragm motor and draw the diaphragm slide rail to transmit, drive the diaphragm and draw backward, play and draw the diaphragm effect.

Further, diaphragm transport mechanism includes two mutual parallel arrangement's transportation slide rail, transports the slide rail head end at one of them and installs the transportation motor, transports through transporting transfer line transmission between the slide rail to connect for two, transports slide rail surface difference synchronous gliding cup joint the transportation slider for two, two transport between the slider fixed mounting have transport shaped steel, the top surface fixed mounting who transports shaped steel has a plurality of transport clamping jaws, through transporting clamping jaw centre gripping welded forming's diaphragm, it can to transport on the diaphragm finished product collection vehicle to collect.

By means of the scheme, the invention at least has the following advantages:

in the practical use process of the industrial film cutting and laminating machine, the film cutting, the grid cutting, the film sticking, the film laminating, the grid assembling and the finished product collecting can be integrally arranged to form a production line, so that the automation is realized, various problems caused by manual operation are avoided, the whole production process is smooth and simple, and the production efficiency is high.

The foregoing description is only an overview of the technical solutions of the present invention, and in order to make the technical solutions of the present invention more clearly understood and to implement them in accordance with the contents of the description, the following detailed description is given with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate a certain embodiment of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of a self-contained structure of an industrial film cutting and laminating machine according to the present invention;

FIG. 2 is a schematic view of the core structure of an industrial film cutting and laminating machine of the present invention;

FIG. 3 is a schematic view of the core structure of an industrial film cutting and laminating machine of the present invention;

FIG. 4 is a schematic structural diagram of a grid drawing cutting and laminating mechanism of an industrial film cutting and laminating machine according to the present invention;

FIG. 5 is a schematic structural diagram of a grid drawing mechanism in an industrial film cutting and laminating machine according to the present invention;

FIG. 6 is a schematic structural diagram of a grid cutting mechanism in an industrial film cutting and laminating machine according to the present invention;

FIG. 7 is a schematic structural diagram of a grid cutting mechanism in an industrial film cutting and laminating machine according to the present invention;

FIG. 8 is a schematic structural diagram of a grid cutting mechanism in an industrial film cutting and laminating machine according to the present invention;

FIG. 9 is a schematic structural diagram of a film laminating insert plate in an industrial film cutting and laminating machine according to the present invention;

FIG. 10 is a schematic structural diagram of a tape sticking mechanism in an industrial film cutting and laminating machine according to the present invention;

FIG. 11 is a schematic structural diagram of a tape sticking mechanism in an industrial film cutting and laminating machine according to the present invention;

FIG. 12 is a schematic structural diagram of a tape sticking mechanism in an industrial film cutting and laminating machine according to the present invention;

FIG. 13 is a schematic structural diagram of a film laminating and impressing mechanism of an industrial film cutting and laminating machine according to the present invention;

FIG. 14 is a schematic structural diagram of a film laminating and impressing mechanism of an industrial film cutting and laminating machine according to the present invention;

FIG. 15 is a schematic structural diagram of an indentation mechanism in an industrial film cutting and laminating machine according to the present invention;

FIG. 16 is a schematic structural diagram of a film drawing mechanism of an industrial film cutting and laminating machine according to the present invention;

FIG. 17 is a schematic structural diagram of a film cutting mechanism of an industrial film cutting and laminating machine according to the present invention;

FIG. 18 is a schematic structural diagram of a film transfer mechanism in an industrial film cutting and stacking machine according to the present invention.

Wherein, in the figure;

1. a movement structure; 2. a chassis structure;

11. a grid feeding roller; 12. a membrane feeding roller; 13. the grid draws and cuts the lamination mechanism; 14. a film tape sticking mechanism; 15. a film laminating and impressing mechanism; 16. a membrane pulling mechanism; 17. a membrane transfer mechanism; 18. a film cutting mechanism; 19. a membrane finished product collecting vehicle;

131. a diaphragm guide roller; 132. pressing the adhesive tape; 133. a tape ejecting mechanism; 134. sticking a tape sliding rail; 135. sticking a rubber belt motor; 136. a tape sticking slider; 137. a tape sticking mechanism; 138. an adhesive tape;

1371. a tabletting cylinder; 1372. pressing the film and tabletting; 1373. a tape roller slide rail; 1374. a tape roller slider; 1375. the rubber belt roller presses the cylinder downwards; 1376. mounting a rubber belt roller; 1377. a tape roller; 1378. a cutter cylinder; 1379. a cutter;

141. grid first guide rollers; 142. a grid second guide roller; 143. a grid pulling mechanism;

144. a grid cutting mechanism; 145. a grid diaphragm welding mechanism;

1431. a traction motor; 1432. a traction support; 1433. a traction driving wheel; 1434. a traction driven wheel; 1435. a driven wheel adjusting cylinder; 1436. the driven wheel adjusts the slide rail; 1437. a driven wheel adjusting slide block;

14401. cutting a support; 14402. cutting the slide rail; 14403. a slide drive motor; 14404. cutting a sliding block; 14405. fixing the section steel; 14406. cutting the mounting substrate; 14407. a cutting mechanism mounting plate; 14408. cutting the movable slide rail; 14409. cutting the movable sliding block; 14410. cutting a blade; 14411. grid guiding folding plates; 14412. cutting a moving motor; 144111, a grid guide channel;

151. a film laminating mechanism; 152. an indentation mechanism; 1511. a membrane supporting roller; 1512. pressing a transverse plate; 1513. pressing a vertical plate; 1514. an ultrasonic welding gun;

1521. indentation slide rails; 1522. an indentation slide rail motor; 1523. an indentation slide block; 1524. an indentation wheel mounting plate; 1525. an indentation cylinder; 1526. an indentation wheel mounting rod; 1527. an indentation wheel;

161. drawing the film slide rail; 162. a film drawing motor; 163. pulling the film sheet transmission rod; 164. pulling the film slide block; 165. drawing the diaphragm section steel; 166. pulling the membrane clamping jaw;

171. a transfer slide rail; 172. a transfer motor; 173. a transfer drive rod; 174. a transfer slide block; 175. transferring the section steel; 176. a transfer jaw;

181. cutting the film and mounting section steel; 182. cutting the film main board; 183. cutting the film subplate; 184. cutting a film sliding rail; 185. cutting a film sliding block; 186. cutting a film blade; 187. cut out membrane driving motor.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Referring to fig. 1 to 3, an industrial film cutting and laminating machine according to a preferred embodiment of the present invention includes a movement structure 1 and a chassis structure 2, and is characterized in that:

movement structure 1 is including being located the graticule mesh material loading roller 11 and the diaphragm material loading roller 12 that the front end set up from top to bottom respectively, is used for graticule mesh and RO diaphragm material loading respectively, has set gradually diaphragm adhesive tape mechanism 14 and graticule mesh traction to tailor at graticule mesh material loading roller 11 rear and has folded membrane mechanism 13, diaphragm adhesive tape mechanism 14 is used for pasting the sticky tape in RO diaphragm pre-folding department, produces the damage to RO diaphragm surface when preventing to fold the membrane, graticule mesh traction is tailor and is folded membrane mechanism 13 and be used for transporting graticule mesh and make it and RO membrane cooperation the graticule mesh traction is tailor and fold membrane mechanism 13 below and still be provided with and fold membrane indentation mechanism 15, fold membrane indentation mechanism 15 and be used for carrying out indentation and ultrasonic welding shaping to graticule mesh and RO membrane after folding the combination be provided with on the same horizontal plane of diaphragm adhesive tape mechanism 14 rear and draw membrane mechanism 16 and cut out membrane mechanism 18 for drawing and drawing the preset position and draw the diaphragm of convoluteing on diaphragm material loading roller 12 and draw the preset position and draw membrane and cut membrane mechanism 16 below and be provided with its set of being parallel to each other set of diaphragm and transport mechanism 17, the finished product collection is transported to the diaphragm 17 that the finished product is collected and is transported to RO membrane 17, and is used for transporting the diaphragm and is transported the diaphragm and is equipped with movable transportation mechanism 17 that the diaphragm is collected the transport mechanism 17 that the diaphragm is equipped with the transport mechanism that the diaphragm is equipped with movable transportation mechanism that the diaphragm that folds the diaphragm that the diaphragm is equipped with movable transportation mechanism that the diaphragm is equipped with the diaphragm that the membrane is equipped with the diaphragm that the finished product.

Referring to fig. 9 to 12, the film tape sticking mechanism 14 includes a film guide roller 131 located at the front end, a tape pressing plate 132 is arranged behind the film guide roller 131 and parallel to the film guide roller 131 for enabling a tape to be tightly stuck to the surface of the film, a tape sticking mechanism 133 is fixedly arranged on the surface of one end of the tape pressing plate 132 for propping the tape to be tensioned for facilitating sticking, a tape sticking slide rail 134 is further arranged above the tape pressing plate 132 along the horizontal direction, a tape sticking motor 135 is mounted at one end of the tape sticking slide rail 134, a tape sticking slider 136 is further sleeved on the surface of the tape sticking slide rail 134, a tape sticking mechanism 137 is arranged on the front surface of the tape sticking slider 136, and the tape 138 is rotatably mounted on the surface of the tape sticking mechanism 137;

the tape sticking mechanism 137 comprises a pressing cylinder 1371 and a pressing film pressing plate 1372 which are installed on the right side of the surface of a tape sticking slider 136, the pressing film pressing plate 1372 is hinged and fixed on the surface of the tape sticking slider 136, the tail ends of the pressing cylinder 1371 and the pressing film pressing plate 1372 are hinged in a transmission manner, the head end of the pressing film pressing plate 1372 is controlled to be pressed downwards and upwards through the expansion and contraction of the pressing cylinder 1371, so that the pressing film is tightly attached to the tape pressing plate 132, a tape roller slide rail 1373 is fixedly installed on the left side of the surface of the tape sticking slider 136, a tape roller slide 1374 is sleeved on the surface of the tape roller slide rail 1373, the tape roller slide 1374 is connected with the output end of the tape roller pressing cylinder 1375, the bottom end of the tape roller pressing cylinder 1375 is fixedly connected with the surface of the tape sticking slider 136, a tape roller mounting plate 1376 is fixedly installed on the surface of the tape roller slide block 1374, a tape roller mounting plate 1376 is fixedly connected with the bottom of the tape roller mounting plate 1376, a roller 1377 is fixedly connected with the bottom of the tape roller mounting plate 1376 through the pressing cylinder 1375, and the tape roller 1375, so that the tape is moved upwards and downwards, and downwards moves to be convenient to push the tape to the surface of the tape and tightly attached to the tape roller 1377; a cutter cylinder 1378 is fixedly arranged on the surface of the adhesive tape roller mounting plate 1376, the output end of the cutter cylinder 1378 is connected with a cutter 1379, and the cutter cylinder 1378 controls the extension of the cutter 1379 to cut off the adhesive tape;

referring to fig. 4 to 8, the grid drawing, cutting and laminating mechanism 13 includes a grid first guide roller 141 and a grid second guide roller 142 arranged from front to back and from high to low, a grid drawing mechanism 143 and a grid cutting mechanism 144 are sequentially arranged on the rear side of the grid second guide roller 142 from top to bottom along the vertical direction, a grid membrane welding mechanism 145 is further arranged below the grid cutting mechanism 144, and the grid wound on the grid feeding roller 11 is cut and welded by the grid cutting mechanism 144 and the grid membrane welding mechanism 145 after being combined and folded with the RO membrane under the drawing action of the grid drawing mechanism 143, so as to form a folded finished product;

the grid drawing mechanism 143 includes two drawing brackets 1432 symmetrically arranged left and right, a drawing driving wheel 1433 is rotatably installed between the two drawing brackets 1432, one end of the drawing driving wheel 1433 is connected with a drawing motor 1431 in a transmission manner, a driven wheel adjusting slide rail 1436 is arranged on the rear end surface of each drawing bracket 1432, a driven wheel adjusting slide block 1437 is slidably sleeved on the surface of the driven wheel adjusting slide rail 1436, a drawing driven wheel 1434 is rotatably installed on the surface of the driven wheel adjusting slide block 1437, the rear end of the driven wheel adjusting slide block 1437 is connected with the output end of the driven wheel adjusting cylinder 1435 in a transmission manner, the driven wheel adjusting cylinder 1435 drives the drawing driven wheel 1434 on the surface of the driven wheel adjusting slide block 1437 to approach to the drawing driving wheel 1433, and the drawing motor 1431 is started to drive the drawing driving wheel 1433 to draw and convey the grid until the grid is clamped;

the grid cutting mechanism 144 comprises a gantry-shaped cutting support 14401, two cutting slide rails 14402 are arranged at the bottoms of the two ends of the cutting support 14401 in the vertical direction, each cutting slide rail 14402 is connected with a cutting slide block 14404 in a sliding manner, one end of the cutting support 14401 is provided with a sliding drive motor 14403, the sliding drive motor 14403 is in transmission connection with the cutting slide rail 14402, the cutting slide rail 14402 is driven by the sliding drive motor 14403 to drive the cutting slide block 14404 to move up and down, a fixed profile steel 14405 is arranged between the two cutting slide blocks 14404, a cutting installation base 14406 is arranged on the front surface of the fixed profile steel 14405, a cutting mechanism installation plate 14407 is connected with the cutting mechanism installation plate 14407, a gap is reserved between the cutting mechanism installation plate 14407 and the cutting installation base 14406 for the grid to pass through, and a fixed slide rail 3838 is arranged on the cutting mechanism installation plate 14407 in the horizontal direction, the cutting moving slide rail 14408 is sleeved with a cutting moving slide block 14409, the bottom surface of the cutting moving slide block 14409 is provided with a cutting blade 14410 for cutting the grid, the back surface of a cutting mounting base plate 14406 is fixedly provided with a cutting moving motor 14412, the cutting moving motor 14412 is in transmission connection with a cutting moving slide rail 14408, the cutting blade 14410 at the bottom of the cutting moving slide rail 14408 is driven to transversely move by the cutting moving motor 14412 so as to cut and cut the grid, two grid guiding folding plates 14411 are symmetrically arranged at the two ends of the bottom of the cutting mounting base plate 14406, the distance between the far end edges of the two grid guiding folding plates 14411 is equal to the width of the grid, the two grid guiding folding plates 14411 are both in a hollow structure to form a grid guiding channel 144111, and the grid guiding channel is used for drawing the RO of the grid after the grid and the grid are assembled, the adhesive tape is pressed downwards through a grid guide folding plate 14411 to be folded;

referring to fig. 13-15, the film laminating and indenting mechanism 15 includes a film laminating mechanism 151 and an indenting mechanism 152, the film laminating mechanism 151 includes two film supporting rollers 1511 arranged in parallel to each other, a gap width between the two film supporting rollers 1511 is greater than a thickness of a grid guiding folding plate 14411, the grid guiding folding plate 14411 drives the grid to pass through to fold the RO film, an indenting transverse plate 1512 with a long gap in the middle is arranged below the two film supporting rollers 1511, the length of the long gap in the middle of the indenting transverse plate 1512 is matched with the width of the grid, the width of the long gap is greater than the thickness of the grid guiding folding plate 14411, an indenting vertical plate 1513 is vertically connected below the indenting transverse plate 1512, the indenting vertical plate 1513 is arranged on one side of the gap in the middle of the indenting transverse plate 1512 for indenting against the film and the grid, two ends of the indenting vertical plate 1513 are respectively and fixedly connected with an ultrasonic welding gun 1514 for welding and fixing and forming the folded RO film and grid;

the indentation mechanism 152 comprises an indentation slide rail 1521 arranged in parallel with an indentation transverse plate 1512, an indentation slide rail motor 1522 is mounted at one end of the indentation slide rail 1521, the indentation slide rail motor 1522 is in transmission connection with the indentation slide rail 1521, an indentation slide block 1523 is slidably sleeved on the surface of the indentation slide rail 1521, an indentation wheel mounting plate 1524 is fixedly connected to the upper surface of the indentation slide block 1523, an indentation cylinder 1525 is fixedly connected to the position, perpendicular to the indentation slide rail 1521, on the surface of the indentation wheel mounting plate 1524, the output end of the indentation cylinder 1525 is in transmission connection with an indentation wheel mounting rod 1526, an indentation wheel 1527 is rotatably connected to the tail end of the indentation wheel mounting rod 1526, when a grid is guided to a folding plate 14411 to drive the grid to pass through a gap in the middle of an indentation transverse plate 1512 to fold the RO membrane, the membrane after the membrane passes through the gap in the middle of the indentation transverse plate 1512, is positioned in front of an indentation vertical plate 1513, the indentation wheel 1527 is driven to be retracted by the indentation wheel, the indentation slide rail 1522 to drive a membrane 7 to move along the indentation slide rail 1521 of the membrane, and then to press and weld the membrane to fold the membrane by an RO of a welding gun to fix and weld the membrane and shape the membrane after the membrane;

referring to fig. 16 to 18, the film cutting mechanism 18 and the film drawing mechanism 16 are located on the same horizontal plane, the film cutting mechanism 18 includes a film cutting installation section steel 181, a film cutting main plate 182 is fixedly installed above the film cutting installation section steel 181, a film cutting sub-plate 183 is installed above the film cutting main plate 182 at intervals, a gap width between the film cutting main plate 182 and the film cutting sub-plate 183 is greater than a thickness of an RO film, the RO film is drawn through, a film cutting slide rail 184 is fixedly installed on the top of the film cutting sub-plate 183, a film cutting slide block 185 is slidably sleeved on the surface of the film cutting slide rail 184, a film cutting blade 186 is fixedly installed on the front surface of the film cutting slide block 185 along a vertical direction, a film cutting drive motor 187 is fixedly installed below the film cutting main plate 182, the film cutting drive motor 187 is in transmission connection with the film cutting slide rail 184, and the film cutting slide rail 184 is driven by the film cutting motor 187 to drive the film cutting slide rail 184 to drive the film cutting blade 186 installed on the film cutting slide block 185 to move the RO film;

the film drawing mechanism 16 comprises two film drawing slide rails 161 which are arranged in parallel, a film drawing motor 162 is installed at the tail end of one film drawing slide rail 161, the two film drawing slide rails 161 are in transmission connection through a film drawing transmission rod 163, film drawing sliders 164 are respectively sleeved on the surfaces of the two film drawing slide rails 161 in a synchronous sliding mode, a film drawing profile steel 165 is fixedly installed between the two film drawing sliders 164, a plurality of film drawing clamping jaws 166 are fixed on the front sections of the film drawing profile steels 165, after the film drawing clamping jaws 166 clamp the film, the film drawing transmission rod 163 is driven by the film drawing motor 162 to drive the film drawing slide rails 161 to carry out transmission, the film is driven to be drawn backwards, and the film drawing effect is achieved;

the membrane transfer mechanism 17 includes two mutual parallel arrangement's transportation slide rail 171, it transports motor 172 to install at one of them transportation slide rail 171 head end, it connects through transporting transfer pole 173 transmission between two transportation slide rails 171, but the gliding transportation slider 174 that cup joints in step respectively in two transportation slide rails 171 surfaces, fixed mounting has transportation shaped steel 175 between two transportation sliders 174, there are a plurality of transportation clamping jaws 176 at the top surface fixed mounting who transports shaped steel 175, grasp welded forming's membrane through transporting clamping jaw 176, it can to transport on the membrane finished product collection vehicle 19 and collect.

The working principle of the invention is as follows:

when the industrial film cutting and laminating machine is in practical use, firstly, grids and RO membranes on the grid net feeding roller 11 and the membrane feeding roller 12 are respectively arranged in the grid net traction cutting and laminating mechanism 13 and the membrane drawing mechanism 16, the membrane drawing transmission rod 163 is driven by the membrane drawing motor 162 to drive the membrane drawing slide rail 161 to carry out transmission so as to drive the membranes to draw back, after the membranes are drawn to a fixed position, the adhesive tape roller downward pressing air cylinder 1375 drives the adhesive tape roller mounting plate 1376 and the adhesive tape roller 1377 connected with the surface of the adhesive tape roller slide block 1374 to move up and down so as to enable the adhesive tape to be moved to a proper position so as to enable the adhesive tape to be tightly attached to the surfaces of the membranes, then the adhesive tape is driven by the adhesive tape attaching slide block 136 to move along the adhesive tape attaching slide rail 134, the adhesive tape is attached to the surfaces of the RO membranes to be used as a mark and a protective layer at a folding position, then the RO adhesive tape is continuously pulled by the membrane drawing mechanism 16 to move back until the attached position is positioned above the grid membrane welding mechanism 145, the grid traction cutting and laminating mechanism 13 is started, a traction driven wheel 1434 on the surface of a driven wheel adjusting slide block 1437 is driven by a driven wheel adjusting cylinder 1435 to approach to a traction driving wheel 1433 until the grid is clamped, a traction motor 1431 is started to drive the traction driving wheel 1433 to rotate, the grid is subjected to traction conveying, the grid is continuously moved downwards until the grid passes through a gap between a cutting mechanism mounting plate 14407 and a cutting mounting base plate 14406 until the grid is conveyed into a grid guide channel 144111 of a grid guide folding plate 14411, then a cutting slide rail 14402 is driven by a sliding driving motor 14403 to drive a cutting slide block 14404 to move upwards and downwards, the grid after traction and the RO membrane group which is pasted with the adhesive tape are assembled through the grid guide channel, the pasting of the RO membrane is pressed downwards by the grid guide folding plate 14411 to finish folding, and after the folding of the adhesive tape is finished, the cutting motor 14412 drives the cutting blade 14410 at the bottom of the cutting movable slide rail 14408 to transversely move, so that the grid is cut and cut, and the film cutting motor 187 drives the film cutting slide rail 184 to drive the film cutting blade 186 mounted on the film cutting slide block 185 to move to cut the RO membrane; after cutting, when grid guide folding plate 14411 drives the grid to pass through and fold the RO membrane, the membrane after folding and holding the grid passes through the gap in the middle of indentation transverse plate 1512 and is located indentation vertical plate 1513 the place ahead, rethread indentation cylinder 1525 drives indentation wheel 1527 to shrink back, the indentation wheel 1527 of installation on driving indentation slider 1523 through indentation slide rail motor 1522 moves along indentation slide rail 1521, compress tightly the membrane after folding and finalize the design, RO membrane and grid after will folding are welded and fixed through ultrasonic welding gun 1514 at both ends at last, the folding membrane after fixed moulding is held by the transport clamping jaw 176 of its below, transport membrane finished product collecting vehicle 19 and collect the membrane cutting and folding process that can accomplish the membrane.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides an industry is cut out membrane laminator, includes core structure and quick-witted case structure, its characterized in that:

the machine core structure comprises a grid feeding roller and a membrane feeding roller which are respectively arranged at the front end up and down and are respectively used for feeding grids and RO membranes, a membrane adhesive tape sticking mechanism and a grid traction cutting and laminating mechanism are sequentially arranged behind the grid feeding roller, the membrane adhesive tape sticking mechanism is used for sticking adhesive tapes at the pre-folding position of the RO membranes and preventing the surfaces of the RO membranes from being damaged during membrane lamination, the grid traction cutting and laminating mechanism is used for transferring grids to enable the grids to be matched with the RO membranes to be folded, a membrane laminating and impressing mechanism is further arranged below the grid traction cutting and laminating mechanism and is used for impressing and ultrasonically welding the grids and the RO membranes after being combined in a folding mode, a membrane pulling mechanism and a membrane cutting mechanism are arranged on the same horizontal plane behind the membrane adhesive tape sticking mechanism and used for pulling the RO membranes wound on the membrane feeding roller to a preset position and cutting, a set of membrane transfer mechanism is arranged below the membrane pulling and parallel to the membrane cutting mechanism and is used for transferring the membranes after the membrane is folded, and a finished product collecting and transferring mechanism is arranged below a membrane collecting and used for transferring the finished product after the membrane;

the film adhesive tape sticking mechanism comprises a film guide roller positioned at the front end, an adhesive tape pressing plate is arranged behind the film guide roller and parallel to the film guide roller, and is used for enabling an adhesive tape to be tightly stuck to the surface of the film, an adhesive tape sticking mechanism is fixedly arranged on the surface of one end of the adhesive tape pressing plate and is used for sticking the adhesive tape to enable the adhesive tape to be tightly tensioned so as to be convenient to stick, an adhesive tape sticking sliding rail is further arranged above the adhesive tape pressing plate along the horizontal direction, an adhesive tape sticking motor is arranged at one end of the adhesive tape sticking sliding rail, an adhesive tape sticking sliding block is further sleeved on the surface of the adhesive tape sticking sliding rail, an adhesive tape sticking mechanism is arranged on the front surface of the adhesive tape sticking sliding block, and the adhesive tape is rotatably arranged on the surface of the adhesive tape sticking mechanism;

the film folding and impressing mechanism comprises a film folding mechanism and an impressing mechanism, the film folding mechanism comprises two film supporting rolls which are arranged in parallel, the gap width between the two film supporting rolls is larger than the thickness of the grid guiding folding plate, the grid is driven by the grid guiding folding plate to penetrate through the RO film to be folded, an impressing transverse plate with a long-strip gap in the middle is arranged below the two film supporting rolls, the length of the long-strip gap in the middle of the impressing transverse plate is matched with the width of the grid, the width of the long-strip gap is larger than the thickness of the grid guiding folding plate, an impressing vertical plate is vertically connected below the impressing transverse plate, the impressing vertical plate is arranged on one side of the gap in the middle of the impressing transverse plate and is used for propping the film and the grid by impressing, two ends of the impressing vertical plate are respectively and fixedly connected with an ultrasonic welding gun and is used for welding and fixing and forming the folded RO film and the grid;

the indentation mechanism includes the indentation slide rail with indentation diaphragm parallel arrangement, indentation slide rail motor is installed to the one end of indentation slide rail, transmission is connected between indentation slide rail motor and the indentation slide rail, indentation slider has been cup jointed to slidable on indentation slide rail surface, surface fixedly connected with indentation wheel mounting panel on the indentation slider, position fixedly connected with indentation cylinder at indentation wheel mounting panel surface and indentation slide rail looks vertically, indentation cylinder output and indentation wheel mounting bar transmission are connected, terminal rotatable indentation wheel that is connected with of indentation wheel mounting bar, when graticule mesh direction folded sheet drives graticule mesh and passes and fold the RO membrane, the diaphragm after folding centre gripping graticule mesh is located indentation riser the place ahead after passing the gap in the middle of the indentation diaphragm, rethread indentation wheel drives the indentation wheel and contracts, the indentation wheel of installation on driving the indentation slider through indentation slide rail motor moves along the indentation slide rail, compress tightly the diaphragm after will folding and stereotype, at last through the ultrasonic wave at both ends with welder's RO diaphragm and graticule mesh welding fixed shaping.

2. The industrial film cutting and laminating machine according to claim 1, characterized in that: the tape pasting mechanism comprises a pressing cylinder and a pressing film pressing sheet which are installed on the right side of the surface of a tape pasting sliding block, the pressing film pressing sheet is hinged to the surface of the tape pasting sliding block, the pressing cylinder is hinged to the tail end of the pressing film pressing sheet, a tape roller sliding rail is fixedly installed on the left side of the surface of the tape pasting sliding block, a tape roller sliding block is sleeved on the surface of the tape roller sliding rail, the tape roller sliding block is connected with the output end of a tape roller pressing cylinder, the bottom end of the tape roller pressing cylinder is fixedly connected with the surface of the tape roller sliding block, a tape roller mounting plate is fixedly installed on the surface of the tape roller sliding block, a tape roller is fixedly connected to the bottom of the tape roller mounting plate, a cutter cylinder is fixedly installed on the surface of the tape roller mounting plate, and the output end of the cutter cylinder is connected with a cutter.

3. The industrial film cutting and laminating machine according to claim 1, characterized in that: grid draws tailors and folds membrane mechanism and includes from the past backward, by the first deflector roll of the graticule mesh and the graticule mesh second deflector roll that height set up to low, has set gradually graticule mesh drive mechanism and graticule mesh tailors from last to down along vertical direction in graticule mesh second deflector roll rear side, and graticule mesh tailors and still is provided with graticule mesh diaphragm welding mechanism below.

4. An industrial film cutting and laminating machine according to claim 3, characterized in that: graticule mesh drive mechanism includes the support that pulls that two bilateral symmetry set up, rotationally install between two support of pulling and pull the action wheel, pull action wheel one end and traction motor transmission and connect, it adjusts the slide rail to be equipped with from the driving wheel on every rear end surface of pulling the support, adjust slide rail surface slidable cup joint from the driving wheel and adjust the slider from the driving wheel, adjust slider surface rotatable installation from the driving wheel and pull from the driving wheel, adjust the rear end of slider and the output transmission of actuating cylinder from the driving wheel and connect.

5. An industrial film cutting and laminating machine according to claim 3, characterized in that: grid cutting mechanism includes the support of tailorring of longmen shape, it is provided with two slide rails of tailorring along vertical direction to tailor support both ends bottom, every slide rail surface of tailorring all slidable is connected with cuts out the slider, it installs slide driving motor to tailor support one end, slide driving motor and the slide rail transmission of tailorring are connected, two install the fixed profile steel of tailorring between the slider, surface mounting has the mounting substrate of tailorring before fixed profile steel, it is connected with the mounting panel of tailorring mechanism to tailor mounting substrate surface, cut out the mounting panel of mounting substrate and tailor and leave the clearance between the mounting substrate, be used for the graticule mesh to pass, along horizontal direction fixed mounting on the mounting panel of tailorring mechanism cut out the removal slide rail, what cut out removal slide rail surface horizontal slip has cup jointed cuts out the removal slider, it installs and tailors the blade to cut out removal slider bottom surface, be used for tailorring the graticule mesh, mounting substrate back fixed mounting has the removal motor of tailorring, it connects with tailorring the removal slide rail transmission, it installs grid direction folded sheet to tailor mounting substrate both ends symmetry, the distance between two grid direction folded sheet far-end edge equals with the width of graticule mesh, two grid guide folded sheet all are hollow interlayer structure, constitute grid direction passageway.

6. An industrial film cutting and laminating machine according to claim 1, characterized in that: cut out membrane mechanism and draw membrane mechanism to be located same horizontal plane, it installs shaped steel to cut out membrane mechanism including cutting out the membrane, it cuts out the membrane mainboard to cut out membrane installation shaped steel top fixed mounting, it installs the vice board of cutting out the membrane to cut out membrane mainboard top interval, it is greater than the thickness of RO diaphragm to cut out the gap width between membrane mainboard and the vice board of cutting out the membrane, be used for the RO diaphragm to be drawn through, it cuts out the membrane slide rail to cut out membrane vice board top fixed mounting, it has the membrane of cutting out the membrane slider to cut out membrane slide rail surface slidable cup joints, it has the membrane of cutting out blade to cut out membrane slider front surface along vertical direction fixed mounting, it has the membrane of cutting out driving motor to cut out membrane mainboard below fixed mounting, it connects to cut out the transmission between membrane of driving motor and the membrane of cutting out slide rail, it removes the membrane of cutting out to cut out the RO diaphragm to cut out the membrane of installation on the membrane slider to drive through the membrane of cutting out motor of cutting out membrane.

7. An industrial film cutting and laminating machine according to claim 1, characterized in that: draw diaphragm mechanism to include two mutual parallel arrangement draw the diaphragm slide rail, draw the diaphragm slide rail tail end to install at one of them and draw the diaphragm motor, two draw and connect through drawing the transmission of diaphragm drive lever between the diaphragm slide rail, draw the surface of diaphragm slide rail at two respectively synchronous gliding cup joints and draw the diaphragm slider, two draw fixed mounting to draw the diaphragm shaped steel between the diaphragm slider, draw the diaphragm shaped steel anterior segment to be fixed with a plurality of diaphragm clamping jaws that draw, draw the diaphragm clamping jaw to clip the diaphragm after, draw the diaphragm drive lever to drive through drawing the diaphragm motor to draw the diaphragm slide rail to carry out the transmission, drive the diaphragm and draw back, play and draw the diaphragm effect.

8. An industrial film cutting and laminating machine according to claim 1, characterized in that: the diaphragm transport mechanism comprises two transport slide rails which are arranged in parallel, a transport motor is installed at the head end of one of the transport slide rails, the two transport slide rails are connected through a transport transmission rod in a transmission mode, the surfaces of the two transport slide rails are respectively sleeved with transport slide blocks capable of sliding synchronously, transport profile steel is fixedly installed between the two transport slide blocks, and a plurality of transport clamping jaws are fixedly installed on the top surface of the transport profile steel.

Images