CN217996165U - Laminating machine coiling mechanism - Google Patents

Abstract

The application relates to the technical field of woven bag processing, in particular to a film laminating machine winding device which comprises a base, a winding mechanism and a sliding mechanism, wherein the sliding mechanism comprises a sliding seat, a sliding rail and a power assembly, and the sliding seat is arranged on the base in a sliding manner through the sliding rail; the power component is arranged on the base, the power component is connected with the sliding seat and drives the sliding seat to slide, and the winding mechanism is arranged on the sliding seat. This application is through the glide machanism who sets up for the coiling mechanism can slide along with the skew position of surface fabric, has reduced the uneven probability of terminal surface after the surface fabric rolling, and then makes the rolling effect of surface fabric can improve.

Description

Laminating machine coiling mechanism

Technical Field

The application relates to the technical field of woven bag processing, in particular to a film laminating machine winding device.

Background

At present, a woven bag is a common package, generally plastics are used as raw materials, the woven bag is obtained after extrusion and stretching to form flat filaments and weaving, the woven bag is multipurpose for industrial use, a film laminating machine is generally needed to carry out film lamination in the production process of the woven bag, and then the woven bag subjected to film lamination is subjected to edge cutting and winding.

In the prior art, a conventional winding device generally comprises a frame and a circular rotating roller rotatably connected to the frame, wherein a motor is arranged on the frame and is connected with the circular rotating roller through a rotating shaft, and the motor rotates and drives the circular rotating roller to rotate at a constant speed and drives a flour winding drum on the circular rotating roller to rotate, so that the purpose of winding the fabric layer by layer is achieved.

In the process of realizing the application, the inventor finds that the technology at least has the following problem that the whole laminating machine is long in distance from cloth feeding to rolling, and the whole laminating machine needs to be rolled only after cloth feeding, glue feeding, pressing, ironing and cooling. The left and right positions of the fabric in each link in front of rolling can be moved, so that the end surfaces of the fabric rolled on the fabric rolling barrel are irregular.

SUMMERY OF THE UTILITY MODEL

In order to reduce the uneven probability of surface fabric terminal surface, improve the rolling effect, this application provides a laminating machine coiling mechanism.

The application provides a pair of laminating machine coiling mechanism adopts following technical scheme:

a laminating machine winding device comprises a base, a winding mechanism and a sliding mechanism, wherein the sliding mechanism comprises a sliding seat, a sliding rail and a power assembly, and the sliding seat is arranged on the base in a sliding mode through the sliding rail; the power component is arranged on the base, the power component is connected with the sliding seat and drives the sliding seat to slide, and the winding mechanism is arranged on the sliding seat.

By adopting the technical scheme, the power assembly is used for driving the sliding seat to slide according to the sliding condition of the fabric, the sliding seat drives the rolling mechanism to change position, and the rolling mechanism rolls the fabric coated with the film; through the glide machanism who sets up for the coiling mechanism can slide along with the skew position of surface fabric, has reduced the uneven probability of terminal surface after the surface fabric rolling, and then makes the rolling effect of surface fabric can improve.

Optionally, power component includes servo motor, rotates screw rod and slider, servo motor sets up on the base, it sets up to rotate the screw rod on the base, the slider sets up on the seat that slides, it passes to rotate the screw rod the slider and with slider threaded connection.

By adopting the technical scheme, according to the offset position of the fabric, the servo motor is started to drive the rotating screw to rotate, the rotating screw drives the sliding block to slide, and the sliding block drives the sliding seat to slide; the power assembly simple structure of setting is convenient for operate, and servo motor is convenient for control simultaneously.

Optionally, the sliding mechanism further includes a position detecting part, the position detecting part is disposed on the base, the position detecting part is used for detecting the position of the fabric, and the position detecting part controls the power assembly to drive the sliding seat to slide.

Through adopting above-mentioned technical scheme, the position of position detection spare real time monitoring surface fabric to the control seat that slides at the in-process of rolling, realizes the dynamic rolling of surface fabric, has reduced artifical input, reduces the manual control's delay nature simultaneously, makes the rolling effect further improve.

Optionally, two fixing plates are arranged on the sliding seat, the winding mechanism comprises a rotating frame, a connecting assembly, a winding roller and a rotating assembly, and the rotating frame is rotatably arranged on the mutually close side walls of the two fixing plates; the rotating frame is provided with a connecting assembly, and the winding roller is connected with the rotating frame through the connecting assembly; the rotating assembly is arranged on the fixed plate and connected with the rotating frame and drives the rotating frame to rotate.

By adopting the technical scheme, along with the sliding of the sliding seat, the rotating assembly drives the rotating frame to rotate, the rotating frame drives the connecting assembly and the winding roller to rotate, and the winding rotation realizes the winding of the fabric; the winding mechanism that sets up simple structure, the wind-up roll passes through coupling assembling can be dismantled on the rotating turret simultaneously, the change of the wind-up roll of being convenient for.

Optionally, the connecting assembly includes a bearing block and an insert block, the bearing block is disposed on the rotating frame, a U-shaped groove is formed in the bearing block, two ends of the wind-up roll are respectively located in the U-shaped grooves of the two bearing blocks, and the insert block is inserted into the bearing block and connected to the wind-up roll.

By adopting the technical scheme, when the fabric wound on the winding roller is enough, the winding roller is connected with the hoisting equipment, then the insertion block is pulled out, the winding roller is hoisted out by the hoisting equipment, then a new winding roller is placed in the U-shaped groove, the insertion block is inserted on the bearing block, and the winding is continued; the connecting assembly that sets up simple structure is convenient for change the wind-up roll, and then makes work efficiency obtain improving.

Optionally, coupling assembling still includes spacing bolt, spacing bolt threaded connection be in on the inserted block, spacing bolt with wind-up roll butt and restriction the wind-up roll rotates.

Through adopting above-mentioned technical scheme, after changing new wind-up roll, rotatory spacing bolt, spacing bolt supports tightly and restricts the wind-up roll with the wind-up roll and rotates, reduces the wind-up roll and takes place relative rotation with the rotating turret at the in-process of rolling, influences the rolling for the rolling effect can be kept.

Optionally, be provided with flattening mechanism on the fixed plate, flattening mechanism includes nip roll and drive assembly, nip roll's both ends are rotated respectively and are set up two on the fixed plate, drive assembly sets up on the fixed plate, drive assembly with nip roll is connected and is driven nip roll rotates.

Through adopting above-mentioned technical scheme, when carrying out the rolling of surface fabric, drive the nip roll with drive assembly and rotate, nip roll drives the surface fabric and expandes, reduces the fold of surface fabric, and then makes the paper effect obtain improving.

Optionally, an auxiliary mechanism is arranged on the sliding seat, the auxiliary mechanism includes an auxiliary roller, a rotating assembly and a jacking assembly, a plurality of auxiliary rollers are rotatably arranged between the two fixing plates, and one of the auxiliary rollers abuts against a fabric roll wound on the winding roller; the rotating assembly is arranged on the fixing plate, is connected with the auxiliary roller and drives the auxiliary roller to rotate; the jacking assembly is arranged on the sliding seat and connected with the rotating frame and drives the rotating frame to lift.

Through adopting above-mentioned technical scheme, drive the auxiliary roller with rotating assembly and rotate, the surface fabric through the auxiliary roller winding on the wind-up roll, along with the increase of the surface fabric on the wind-up roll, jacking subassembly area wind-up roll rises, and then makes the auxiliary roller support the surface fabric on the wind-up roll tightly all the time for it is more compact between the adjacent two-layer surface fabric on the wind-up roll, make the fold of surface fabric reduce, further make the rolling effect of surface fabric obtain improving.

Optionally, the jacking assembly comprises a connecting plate, a bearing support and a cylinder, the connecting plate is arranged on the fixed plate in a sliding manner along the vertical direction, the rotating frame is rotatably arranged on the connecting plate, and the rotating assembly is arranged on the connecting plate; the cylinder is arranged on the fixing plate, the bearing support is arranged on a piston rod of the cylinder, and the bearing support is connected with the connecting plate.

By adopting the technical scheme, the air cylinder is started along with the increase of the fabric on the wind-up roll, the air cylinder drives the bearing support to slide, the bearing support drives the rotating frame on the connecting plate to slide, and the rotating frame drives the wind-up roll to ascend; the jacking subassembly simple structure that sets up, the cylinder action is steady simultaneously, can reduce rocking of wind-up roll, and then makes the rolling effect of this coiling mechanism can keep.

To sum up, the application comprises the following beneficial technical effects:

1. the sliding mechanism is arranged, so that the winding device can slide along with the offset position of the fabric, the probability of the uneven end surface of the fabric after being wound is reduced, and the winding effect of the fabric is improved;

2. the position detection piece monitors the position of the fabric in real time and controls the sliding seat to slide in the winding process, so that the fabric is dynamically wound, the manual input is reduced, the manual control delay is reduced, and the winding effect is further improved;

3. the jacking subassembly simple structure that sets up, the cylinder action is steady simultaneously, can reduce rocking of wind-up roll, and then makes the rolling effect of this coiling mechanism can keep.

Drawings

FIG. 1 is a schematic view of the overall structure of a winding device of a laminator in the embodiment of the present application;

FIG. 2 is a schematic structural diagram of an assist mechanism in an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a jacking assembly in an embodiment of the present application;

fig. 4 is a schematic structural diagram of a winding mechanism in the embodiment of the present application.

Reference numerals: 100. a base; 200. a winding mechanism; 210. a rotating frame; 220. a wind-up roll; 230. a connection assembly; 231. a bearing block; 232. inserting a block; 233. a limit bolt; 234. a U-shaped groove; 240. a rotating assembly; 300. a sliding mechanism; 310. a sliding seat; 320. a slide rail; 330. a power assembly; 331. a servo motor; 332. rotating the screw; 340. a position detecting member; 400. a fixing plate; 500. a flattening mechanism; 510. flattening rollers; 520. a drive assembly; 600. an auxiliary mechanism; 610. an auxiliary roller; 620. a rotating assembly; 630. a jacking assembly; 631. a connecting plate; 632. supporting a support; 633. and a cylinder.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses laminating machine coiling mechanism.

Referring to fig. 1, the film laminating machine winding device includes a base 100, a sliding mechanism 300 disposed on the base 100, a winding mechanism 200 disposed on the sliding mechanism 300, and a flattening mechanism 500 disposed on the base 100 for flattening the fabric; when rolling the surface fabric, at first according to the skew position of surface fabric, drive winding mechanism 200 with glide mechanism 300 and slide, then the surface fabric gets into winding mechanism 200 through flattening of flattening mechanism 500 and rolls, and along with the rolling of surface fabric, glide mechanism 300 drives winding mechanism 200 and slides simultaneously, makes the untidiness that the dislocation that reduces between each layer surface fabric leads to.

Referring to fig. 1, the sliding mechanism 300 includes two sliding rails 320 fixedly connected to the base 100, the two sliding rails 320 are parallel to each other, and a sliding seat 310 is connected to the two sliding rails 320 in a sliding manner; the base 100 is provided with a power assembly 330, the power assembly 330 comprises a sliding block fixedly connected with the sliding seat 310 and close to the side wall of the base 100, the side wall of the base 100 close to the sliding seat 310 is rotatably connected with a rotating screw 332, and the rotating screw 332 penetrates through the sliding block and is in threaded connection with the sliding block; a servo motor 331 is fixedly connected to the base 100, and an output shaft of the servo motor 331 is connected to one end of the rotary screw 332; the servo motor 331 is started, the servo motor 331 drives the rotating screw rod 332 to rotate, the rotating screw rod 332 drives the sliding block to slide, and the sliding block drives the sliding seat 310 to slide.

Referring to fig. 1, a position detecting member 340 is fixedly connected to the base 100, the position detecting member 340 is an infrared sensor, the infrared sensor is used for detecting the edge of the fabric and electrically connected to the servo motor 331, and the infrared sensor controls the servo motor 331 to perform positive and negative phase switching.

Referring to fig. 1 and 2, two fixing plates 400 are fixedly connected to the base 100, the two fixing plates 400 are arranged in parallel, and the axes of the two fixing plates 400 are perpendicular to the axis of the sliding rail 320; the base 100 is provided with an auxiliary mechanism 600, the auxiliary mechanism 600 includes a plurality of auxiliary rollers 610 rotatably connected between the two fixing plates 400, preferably three in this embodiment, two ends of the auxiliary rollers 610 are respectively rotatably connected to the two fixing plates 400, and axes of the three auxiliary rollers 610 are on the same plane; be provided with rotating assembly 620 on fixed plate 400, rotating assembly 620 is the first driving motor of three fixed connection on one of them fixed plate 400, and three first driving motor is connected and drives the rotation of supplementary roller 610 with three supplementary roller 610 respectively.

Referring to fig. 1 and 3, a base 100 is provided with a jacking assembly 630, the jacking assembly 630 includes four air cylinders 633 fixedly connected to the fixing plate 400, the four air cylinders 633 are grouped in pairs, two groups of air cylinders 633 are respectively located at the sides of the two fixing plates 400 that are away from each other, and the piston rods of the two air cylinders 633 on the same side are fixedly connected to a bearing support 632 together; all seted up the groove of sliding on two fixed plates 400, the groove of sliding is seted up along vertical direction, and the inslot cunning that slides is connected with connecting plate 631, the lateral wall that two connecting plates 631 deviate from each other respectively with two bearing support 632 fixed connection.

Referring to fig. 3 and 4, the winding mechanism 200 includes two rotating frames 210 rotatably connected to the connecting plates 631, and the two rotating frames 210 are located between the two connecting plates 631; the connecting plates 631 are provided with rotating assemblies 240, each rotating assembly 240 is a rotating motor fixedly connected to one of the connecting plates 631, and an output shaft of each rotating motor penetrates through the connecting plate 631 to be connected with the rotating frame 210; the rotating frame 210 is provided with a connecting assembly 230, the connecting assembly 230 comprises bearing blocks 231 fixedly connected to one end of the rotating frame 210 far away from the rotating motor, U-shaped grooves 234 are formed in the bearing blocks 231, a winding roller 220 is arranged between the two bearing blocks 231, two ends of the winding roller 220 are respectively positioned in the U-shaped grooves 234 on the two bearing blocks 231, and the middle auxiliary roller 610 can be abutted against the winding roller 220; offer the jack that communicates with U type groove 234 on the lateral wall of bearing block 231, it has an inserted block 232 to peg graft in the jack, inserted block 232 and wind-up roll 220 butt, and wind-up roll 220 is located and has seted up the spacing groove on the lateral wall of the one end in U type groove 234, threaded connection has spacing bolt 233 on the inserted block 232, spacing bolt 233 pass the inserted block 232 stretch into the spacing inslot and with the tank bottom butt of spacing groove.

Referring to fig. 1, a fixing plate 400 is provided with a flattening mechanism 500, the flattening mechanism 500 includes flattening rollers 510, two ends of each flattening roller 510 are respectively rotatably connected to the two fixing plates 400, and an auxiliary roller 610 is on the same horizontal plane, the flattening rollers 510 are cylindrical rollers with opposite threads at two ends; the fixing plates 400 are provided with a driving assembly 520, the driving assembly 520 includes a second driving motor fixedly connected to one of the fixing plates 400, and an output shaft of the second driving motor passes through the fixing plate 400 to be connected with the nip roll 510. And starting a second driving motor, driving the flattening roller 510 to rotate by the second driving motor, and flattening the fabric by the flattening roller 510.

The implementation principle of a laminating machine winding device in the embodiment of the application is as follows: firstly, placing two ends of the winding roller 220 in two U-shaped grooves 234 respectively, then inserting the inserting block 232 into the inserting hole, and then rotating the limiting bolt 233, wherein the limiting bolt 233 extends into the limiting groove and is abutted against the groove bottom of the limiting groove; the fabric bypasses the flattening roller 510 and is tangent to one side of the three auxiliary rollers 610 far away from the take-up roller 220, and then bypasses the auxiliary rollers 610 far away from the flattening roller 510 and is wound on the take-up roller 220; the position detection piece 340 monitors the position of the edge of the fabric in real time, and controls the servo motor 331 to start, the servo motor 331 drives the rotating screw rod 332 to rotate, the rotating screw rod 332 drives the sliding block to slide, the sliding block drives the sliding seat 310 to slide, the sliding seat 310 drives the fixing plate 400, the winding roller 220, the flattening roller 510 and the auxiliary roller 610 to slide, a second driving motor is started, the second driving motor drives the flattening roller 510 to rotate, and the flattening roller 510 drives the fabric to be flattened; meanwhile, the first driving motor drives the auxiliary roller 610 to rotate, the auxiliary roller 610 drives the fabric to advance and wind the fabric on the winding roller 220 layer by layer, the cylinder 633 is started along with the increase of the fabric on the winding roller 220, the cylinder 633 drives the connecting plate 631 on the bearing support 632 to slide, and the connecting plate 631 drives the winding roller 220 on the rotating frame 210 to ascend.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The laminating machine winding device is characterized by comprising a base (100), a winding mechanism (200) and a sliding mechanism (300), wherein the sliding mechanism (300) comprises a sliding seat (310), a sliding rail (320) and a power assembly (330), and the sliding seat (310) is arranged on the base (100) in a sliding manner through the sliding rail (320); power component (330) set up on base (100), power component (330) with it connects and drives to slide seat (310) slide, winding mechanism (200) set up slide seat (310) are last.

2. A laminator rolling device according to claim 1, wherein the power assembly (330) comprises a servo motor (331), a rotating screw (332) and a slider, the servo motor (331) is disposed on the base (100), the rotating screw (332) is rotatably disposed on the base (100), the slider is disposed on the sliding seat (310), and the rotating screw (332) passes through the slider and is in threaded connection with the slider.

3. A laminating machine winding device according to claim 1, wherein the sliding mechanism (300) further comprises a position detection member (340), the position detection member (340) is disposed on the base (100), the position detection member (340) is used for detecting the position of the fabric, and the position detection member (340) controls the power assembly (330) to drive the sliding seat (310) to slide.

4. A laminating machine winding device according to claim 1, characterized in that two fixing plates (400) are arranged on the sliding seat (310), the winding mechanism (200) comprises a rotating frame (210), a connecting assembly (230), a winding roller (220) and a rotating assembly (240), and the rotating frame (210) is rotatably arranged on the mutually close side walls of the two fixing plates (400); a connecting assembly (230) is arranged on the rotating frame (210), and the winding roller (220) is connected with the rotating frame (210) through the connecting assembly (230); the rotating assembly (240) is arranged on the fixed plate (400), and the rotating assembly (240) is connected with the rotating frame (210) and drives the rotating frame (210) to rotate.

5. A laminator rolling device according to claim 4, wherein the connection assembly (230) comprises a bearing block (231) and an insertion block (232), the bearing block (231) is arranged on the rotating frame (210), a U-shaped groove (234) is formed in the bearing block (231), two ends of the rolling roller (220) are respectively located in the U-shaped grooves (234) of the two bearing blocks (231), and the insertion block (232) is inserted into the bearing block (231) and connected with the rolling roller (220).

6. A laminator rolling device according to claim 5, wherein the connection assembly (230) further includes a limiting bolt (233), the limiting bolt (233) is screwed on the insert block (232), and the limiting bolt (233) abuts against the rolling roller (220) and limits rotation of the rolling roller (220).

7. A laminating machine coiling mechanism according to claim 4, characterized in that a flattening mechanism (500) is arranged on the fixing plates (400), the flattening mechanism (500) comprises flattening rollers (510) and a driving assembly (520), two ends of each flattening roller (510) are respectively rotatably arranged on two fixing plates (400), the driving assembly (520) is arranged on the fixing plates (400), and the driving assembly (520) is connected with the flattening rollers (510) and drives the flattening rollers (510) to rotate.

8. A laminating machine coiling mechanism according to claim 4, characterized in that an auxiliary mechanism (600) is arranged on the sliding seat (310), the auxiliary mechanism (600) comprises an auxiliary roller (610), a rotating assembly (620) and a jacking assembly (630), a plurality of auxiliary rollers (610) are rotatably arranged between the two fixed plates (400), and one of the auxiliary rollers (610) abuts against a cloth roll wound on the coiling roller (220); the rotating assembly (620) is arranged on the fixing plate (400), and the rotating assembly (620) is connected with the auxiliary roller (610) and drives the auxiliary roller (610) to rotate; jacking subassembly (630) set up slide on seat (310), jacking subassembly (630) with rotating turret (210) are connected and are driven rotating turret (210) goes up and down.

9. A laminator rolling device according to claim 8, wherein the jacking assembly (630) comprises a connecting plate (631), a supporting support (632) and a cylinder (633), the connecting plate (631) is slidably disposed on the fixing plate (400) in the vertical direction, the rotating frame (210) is rotatably disposed on the connecting plate (631), and the rotating assembly (240) is disposed on the connecting plate (631); the cylinder (633) is arranged on the fixing plate (400), the bearing support (632) is arranged on a piston rod of the cylinder (633), and the bearing support (632) is connected with the connecting plate (631).

Images