CN111284773A - Bag rubbing device for plane soft thin material - Google Patents

Abstract

The invention relates to a bag twisting device for a plane soft thin material, which comprises a frame, a driving mechanism, a flattening mechanism and a bag twisting mechanism, wherein a supporting plate is also arranged in the frame, the bag twisting mechanism and the flattening mechanism are arranged along the material conveying direction and are respectively arranged at two sides of the supporting plate, the driving device comprises a power mechanism and a transmission mechanism, the power driving motor comprises a driving motor, a main shaft matched and connected with an output shaft of the driving motor and a transmission wheel unit arranged on the main shaft, the transmission wheel unit comprises an eccentric wheel, a first cam and a second cam, the transmission mechanism comprises a first transmission unit, a second transmission unit and a third transmission unit, the first transmission unit is linked with the eccentric wheel and controls the supporting plate to move relatively along the height direction of the frame, the second transmission unit is linked with the first cam and controls the flattening mechanism to flatten the material, and the third transmission unit is linked with the second cam and controls the bag rubbing mechanism to rub the materials.

Description

Bag rubbing device for plane soft thin material

Technical Field

The invention relates to the technical field of cutting equipment, in particular to a bag rolling device for a plane soft thin material.

Background

The plane soft thin material refers to paper, paperboard or plastic film material and the like which generally only has soft thin thickness.

When the woven bag body of a common plastic product needs to be cut into a required length, the woven bag body is mostly cut by a cold knife or a hot knife, the hot knife can be melted by heat, the speed is high, the cut can be parallel and level without being inclined, but the opening of the bag body is not easy to be instantly rubbed open.

In practical use, the openings of the plastic product bag before and after the cut position are often hot-melted and adhered together, which affects the subsequent automatic processing procedure, so that the plastic product bag must be manually or otherwise rubbed off, and some devices have the design of a roller for rubbing off, but have leakage and instability, which causes the rubbing-off failure rate to be too high, and affects the subsequent automatic processing procedure.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a bag twisting device for a plane soft thin material, which has a simple structure and high bag twisting efficiency and accuracy.

In order to achieve the purpose, the invention provides the following technical scheme: a bag rubbing device for a plane soft thin material comprises a rack, a driving mechanism arranged at the top surface of the rack, a flattening mechanism for flattening materials and a bag rubbing mechanism for rubbing bags, wherein a supporting plate is arranged in the rack, the bag rubbing mechanism and the flattening mechanism are arranged along the material conveying direction and are respectively arranged at two sides of the supporting plate, the driving device comprises a power mechanism and a transmission mechanism, the power driving motor comprises a driving motor, a main shaft matched and connected with an output shaft of the driving motor and a transmission wheel unit arranged on the main shaft, the transmission wheel unit comprises an eccentric wheel, a first cam and a second cam, the transmission mechanism comprises a first transmission unit, a second transmission unit and a third transmission unit, the first transmission unit is linked with the eccentric wheel and controls the supporting plate to move relatively along the height direction of the rack, the second transmission unit is linked with the first cam and controls the flattening mechanism to flatten the materials, and the third transmission unit is linked with the second cam and controls the bag rubbing mechanism to rub the materials.

By adopting the technical scheme, the driving wheel unit is arranged on the main shaft matched with the driving motor, the driving motor is matched with the transmission mechanism through the driving wheel unit to drive the flattening mechanism and the bag rubbing mechanism on the supporting plate, and the driving device adopts the driving motor to replace an air cylinder to be used as power output, so that the manufacturing cost is reduced, and meanwhile, the whole volume of the device is reduced; the main shaft drives the driving wheel unit to rotate, so that the driving wheel unit is matched with the transmission mechanism, the driving of the flattening mechanism and the bag rubbing mechanism can be realized through one driving device, and the whole structure of the equipment is more compact and the size is smaller. The invention can control the rotation of the driving wheel unit on the main shaft only by controlling the driving motor, such as controlling the rotating speed, the working time and the like of the motor, and does not need to control the action process of each air cylinder when the air cylinder is used as in the prior art, thereby greatly improving the control efficiency of the bag rolling device and facilitating the practical use of the bag rolling device. The first transmission unit is connected with the supporting plate, the eccentric wheel in the transmission wheel unit drives the supporting plate to move relatively along the height direction of the machine frame through the first transmission unit, namely the supporting plate is driven to move up and down, so that the pressing mechanism and the bag rubbing mechanism on the supporting plate are driven to move up and down, the pressing mechanism moves up and down and tensions materials so as to facilitate cutting of the external cutting device, and the bag rubbing mechanism facilitates bag rubbing action on the materials after cutting of the external cutting device. The external cutting device can be arranged on the supporting plate and is arranged at the middle position of the flattening mechanism and the bag rubbing mechanism, when the external cutting device finishes cutting, the notches of one side of the material corresponding to the flattening mechanism are mutually adhered to form sealing, the notch of one side of the material corresponding to the bag rubbing mechanism is rubbed by the bag rubbing mechanism to be rubbed open, and the mutual adhesion of the openings is avoided. When the bag rubbing device presses down along with the supporting plate, the second transmission unit is flattened by the flattening mechanism driven by the first cam, and the third transmission unit is rubbed by the bag rubbing mechanism driven by the second cam to assist the cutting of the external cutting device, so that the external cutting device is better in cutting effect and is not easy to adhere to a cutting opening.

The invention further provides that: the third transmission unit comprises a second lever seat, a second lever and a second connecting rod, the first lever seat is arranged below a second cam, two ends of the second lever are hinged to the second lever seat and the second connecting rod respectively, the second cam is matched with a matching wheel on the second lever, a sliding groove is formed in the other end of the second connecting rod opposite to the second lever, the bag rubbing mechanism comprises a bag rubbing roller, a connecting arm and a fixing support fixed on a supporting plate, the fixing support is connected with two ends of the bag rubbing roller in a matching mode, the bag rubbing roller is linked with the second connecting rod through the connecting arm, one end of the connecting arm is fixed on the bag rubbing roller, the other end of the connecting arm is arranged in the sliding groove in a sliding mode, a reset arm is further arranged on the bag rubbing roller, and the reset arm is connected with the rack through a reset spring.

Through adopting above-mentioned technical scheme, rub a bag roller with hands and be connected with the backup pad through fixed bolster, when the backup pad receives eccentric wheel and first drive unit drive to carry out up-and-down motion, rub a bag mechanism with hands and also along with carrying out up-and-down motion, realize being close to or keeping away from the effect of material. The third transmission unit is of a lever structure, the second cam is matched with a matching wheel on the second lever, the second lever is hinged to a second lever seat, and the second lever is linked with a connecting arm on the bag rubbing mechanism through a second connecting rod, so that the connecting arm and one end matched with the sliding groove can perform sliding motion in the sliding groove, and the connecting arm drives the bag rubbing roller to rub materials. The second lever tilts one end hinged with the second connecting rod under the action of a second cam so as to drive the second connecting rod to lift in the direction of force, the second connecting rod lifts the connecting arm through the sliding groove, the connecting arm is fixed on the bag rubbing roller, the bag rubbing roller is driven to rotate in a small amplitude under the drive of the second connecting rod, so that the bag rubbing roller and a bag rubbing plane rotate relatively, two layers of materials between the bag rubbing roller and the bag rubbing plane are rubbed apart, and therefore cut notches are prevented from being adhered to each other; the one end of arm that resets is fixed in on rubbing the bag roller with the hands, the other end passes through reset spring and is connected with the frame, it drives the arm that resets and rotates when rubbing the bag roller with the hands and being driven to carry out small amplitude pivoted, reset spring receives the pulling force and deforms promptly, separate with the cooperation wheel when the second cam, the effort disappears promptly, the one end that the second lever and connecting rod articulated falls down downwards, reset arm and reset spring cooperation that fix on rubbing the bag roller with the hands this moment will rub the bag roller with the hands and pull back the reseing with the hands, rethread eccentric wheel and first drive unit upwards pull-up the backup pad, drive simultaneously and rub a bag mechanism upward movement with the hands, make and rub the bag. The bag rubbing roller rotates in the direction opposite to the material conveying direction, so that two layers of materials can be effectively rubbed apart, and simultaneously the materials are tensioned.

The invention further provides that: the connecting arm is Z-shaped, and the reset arm is V-shaped or L-shaped.

By adopting the technical scheme, one end of the connecting arm is fixed on the bag rubbing roller, the other end of the connecting arm is in sliding fit with the sliding groove of the second connecting rod, and the connecting arm is Z-shaped, so that when the second connecting rod lifts one end of the connecting arm, the other end can effectively drive the bag rubbing roller to rotate, and the bag rubbing effect is realized; the reset arm is arranged in a V shape or an L shape, so that the reset arm can be well connected with the bag rubbing roller and the reset spring.

The invention further provides that: the bag rubbing mechanism further comprises sliding channels, the sliding channels are symmetrically arranged at two ends of the rack corresponding to the bag rubbing rollers, and two ends of the bag rubbing rollers are arranged in the sliding channels in a sliding mode through bearings.

By adopting the technical scheme, the sliding channel is arranged at the position, corresponding to the two ends of the bag rubbing roller, of the machine frame, the bag rubbing roller of the bag rubbing mechanism is fixed on the supporting plate through the fixing support, when the first transmission unit is driven by the driving device to drive the supporting plate to move up and down, the two ends of the bag rubbing roller slide up and down in the sliding channel through the bearings, and the bag rubbing roller is driven to slide up and down more stably.

The invention further provides that: the second transmission unit comprises a first lever seat, a first lever and a first connecting rod, the first lever seat is arranged below the first cam, two ends of the first lever are hinged to the first lever seat and the first connecting rod respectively, the first cam is matched with a matching wheel on the first lever, the flattening mechanism comprises a balance rod, a pressing plate, a balance rod and a pressing plate, the balance rod is symmetrically arranged on two sides of the balance rod, the pressing plate is arranged on the lower end face of the pressing rod, the other end of the first connecting rod is hinged to the middle of the balance rod, the flattening mechanism further comprises a supporting unit, the supporting unit comprises a fixing seat and a guide seat, the fixing seat is arranged on the fixing seat in a supporting plate in a stacking mode, the guide seat is inserted into the pressing rod, a second buffer spring is further sleeved on the pressing rod, and two ends of the second buffer spring are respectively abutted to the balance rod and.

Through adopting above-mentioned technical scheme, the mechanism that flattens is connected with the backup pad through the fixing base, and when the backup pad was carried out the up-and-down motion by eccentric wheel and the drive of first drive unit, the mechanism that flattens also was along with carrying out the up-and-down motion, realizes being close to or keeping away from the effect of material. The flattening mechanism is connected with the supporting plate through a fixing seat, a guide seat is arranged on the fixing seat, a pressing rod is inserted on the guide seat, and two ends of the pressing rod are respectively connected with the balancing rod and the flattening plate. The second transmission unit is of a lever structure, the first cam is matched with a matching wheel on the first lever, one end of the first lever is hinged to the first lever seat, the other end of the first lever is linked with a balance rod of the flattening mechanism through a first connecting rod, and the first cam is matched with the matching wheel on the first lever, so that the second transmission unit drives the pressing mechanism to move up and down, the flattening mechanism flattens the conveyed material, and the cutting of the external cutting device is assisted. The first cam and the second transmission unit are matched to control the flattening mechanism to move downwards, the pressure rod slides relatively in the guide seat, the flattening plate at one end of the bottom of the pressure rod presses downwards to flatten the material, and a second buffer spring sleeved on the pressure rod and abutted against the balance rod and the guide seat at two ends receives pressure and absorbs impact force generated during flattening so that the first cam, the second transmission unit and the pressing mechanism run more stably; the external cutting device finishes cutting, the first cam and the second transmission unit are matched to control the flattening mechanism to reset upwards, the pressing rod slides relatively in the guide seat, the flattening plate leaves materials to enable the cut materials to be conveyed, and the auxiliary pressing mechanism resets when the second buffer spring deforms and resets. The setting of guide holder makes the depression bar remain stable when the up-and-down motion to improve the stability of equipment whole operation.

The invention further provides that: the flattening mechanism further comprises an auxiliary flattening unit, the auxiliary flattening unit comprises an auxiliary pressing rod inserted on the fixing seat and an auxiliary pressing plate arranged at the bottom of the auxiliary pressing rod, a third buffer spring is further sleeved on the auxiliary pressing rod, and two ends of the third buffer spring are respectively abutted to the fixing seat and the auxiliary pressing plate.

Through adopting above-mentioned technical scheme, the eccentric wheel drives the backup pad downstream with the cooperation of first drive unit, drives the supplementary unit that flattens on the fixing base simultaneously and pushes down, and the auxiliary pressure pole is inserted and is located on the fixing base, and the auxiliary pressure board sets up in the bottom one end of auxiliary pressure pole for the auxiliary pressure board can flatten the material downwards. The third buffer spring can effectively buffer the impact force generated when the auxiliary pressing plate flattens the materials, and meanwhile, the auxiliary pressing plate is reset when the supporting plate drives the auxiliary flattening unit to reset. The auxiliary flattening unit increases the flattening area of the materials, improves the pressing force of the pressing mechanism on the materials, and avoids the situation that the bag rubbing mechanism is easy to pull the materials when in operation.

The invention further provides that: the eccentric wheel is sleeved with an eccentric wheel sleeve, a connecting section is arranged on the eccentric wheel sleeve, the first transmission unit comprises an eccentric connecting rod, a connecting guide pillar and a first buffer spring, one end of the eccentric connecting rod is in threaded connection with the connecting section, the other end of the eccentric connecting rod is hinged to the connecting guide pillar, the first buffer spring is sleeved on the connecting guide pillar and is abutted to the upper top face of the supporting plate, a sliding supporting pillar is further arranged on the supporting plate, one end of the sliding supporting pillar is fixed to the upper top face of the rack, and the other end of the sliding supporting pillar is in sliding connection with the supporting plate.

By adopting the technical scheme, the eccentric wheel sleeve is arranged on the outer circumferential wall of the eccentric wheel, the eccentric connecting rod of the first transmission unit is connected with the connecting section on the eccentric wheel sleeve, the other end of the first transmission unit is hinged with the connecting guide pillar arranged on the supporting plate, the driving motor and the main shaft drive the eccentric wheel to rotate, the eccentric wheel drives the eccentric connecting rod to start through the eccentric wheel sleeve, the eccentric connecting rod is matched with the connecting guide pillar to drive the supporting plate to move up and down along the sliding support pillar, and meanwhile, the flattening mechanism and the bag rubbing mechanism on the supporting plate are driven to move up and down, so that the effect that the bag rubbing device is close to. The buffer spring is sleeved on the connecting guide post and is abutted against the upper top surface of the supporting plate, when the supporting plate is pushed upwards under the action of the bag rubbing device contacting with the material, the buffer spring can effectively buffer, and meanwhile, the supporting plate is assisted to reset when being reset upwards.

The invention further provides that: the eccentric wheels are arranged in two groups, the first transmission units are arranged in two groups and are respectively matched with the eccentric wheels, and the sliding support columns are arranged in two groups and are symmetrically arranged.

Through adopting above-mentioned technical scheme, eccentric wheel and first drive unit set up to two sets of, can guarantee in backup pad and the backup pad that the mechanism of flattening, the bag mechanism of rubbing with the hands is steady when doing the up-and-down motion to guarantee the steady of equipment whole operation. The sliding support columns are arranged into two groups, so that powerful support is provided for the support plates, and the running stability of each transmission unit, the support plates and the bag rubbing device is ensured.

The invention is further described with reference to the following drawings and detailed description.

Drawings

FIG. 1 is a schematic structural diagram 1 according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of an embodiment of the present invention 2;

FIG. 3 is a schematic view of a partial structure of an embodiment of the present invention 1;

FIG. 4 is a schematic partial structure diagram of an embodiment of the present invention, FIG. 2;

FIG. 5 is a schematic partial structure diagram of an embodiment of the present invention, FIG. 3;

FIG. 6 is a partial schematic view of an embodiment of the present invention 4;

the reference numbers in the figures mean: a frame-1, a support plate-11, a sliding support column-12, a flattening mechanism-41, a balancing rod-4101, a pressure rod-4102, a flattening plate-4103, a buffer spring-4104, a support unit-411, a fixed seat-4111, a guide seat-4112, an auxiliary flattening unit-412, an auxiliary pressure rod-4121, an auxiliary pressure plate-4122, a buffer spring-4123, a bag rubbing mechanism-42, a bag rubbing roller-421, a connecting arm-422, a fixed support-423, a reset arm-424, a reset spring-425, a sliding channel-426, a driving device-5, a power mechanism-51, a driving motor-5101, a main shaft-5102, a transmission wheel unit-5103, an eccentric wheel-51031, an eccentric wheel sleeve-51032 and a connecting segment-51033, the device comprises a first cam-51034, a second cam-51035, a transmission mechanism-52, a first transmission unit-521, an eccentric connecting rod-5211, a connecting guide post-5212, a buffer spring-5213, a second transmission unit-522, a first lever seat-5221, a first lever-5222, a first connecting rod-5223, a third transmission unit-523, a second lever seat-5231, a second lever-5232, a second connecting rod-5233 and a chute-5234.

Detailed Description

The present embodiment is only an explanation of the present embodiment, and it is not a limitation of the present embodiment, and a person skilled in the art can make modifications without inventive contribution to the present embodiment as needed after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present embodiment.

Referring to fig. 1-6, the present embodiment provides the following technical solutions: a bag twisting device for a planar soft thin material comprises a rack 1, a driving mechanism arranged on the upper top surface of the rack 1, a flattening mechanism 41 for flattening materials and a bag twisting mechanism 42 for twisting bags, a support plate 11 is arranged in the rack 1, the bag twisting mechanism 42 and the flattening mechanism 41 are arranged along the material conveying direction and are respectively arranged on two sides of the support plate 11, the driving device 5 comprises a power mechanism 51 and a transmission mechanism 52, the power driving motor 5101 comprises a driving motor 5101, a main shaft 5102 in matched connection with an output shaft of the driving motor 5101 and a transmission wheel unit 5103 arranged on the main shaft 5102, the transmission wheel unit 5103 comprises an eccentric wheel 51031, a first cam 51034 and a second cam 51035, the transmission mechanism 52 comprises a first transmission unit 521, a second transmission unit 522 and a third transmission unit 523, the first transmission unit 521 is linked with the eccentric wheel 51031 and controls the support plate 11 to move relatively along the height direction of the rack 1, the second transmission unit 522 is linked with the first cam 51034 and controls the flattening mechanism 41 to flatten the materials, and the third transmission unit 523 is linked with the second cam 51035 and controls the bag twisting mechanism 42 to twist the materials. By adopting the technical scheme, the driving wheel unit 5103 is arranged on the main shaft 5102 matched with the driving motor 5101, the driving motor 5101 is matched with the transmission mechanism 52 through the driving wheel unit 5103 to drive the flattening mechanism 41 and the bag rolling mechanism 42 on the supporting plate 11, and the driving device 5 adopts the driving motor 5101 to replace an air cylinder to be used as power output, so that the manufacturing cost is reduced, and meanwhile, the whole volume of the device is reduced; the main shaft 5102 drives the driving wheel unit 5103 to rotate, so that the driving wheel unit 5103 is matched with the transmission mechanism 52, the driving device 5 can drive the flattening mechanism 41 and the bag rubbing mechanism 42, and the whole device is more compact in structure and smaller in size. The rotation of the driving wheel unit 5103 on the main shaft 5102 can be controlled only by controlling the driving motor 5101, such as the rotating speed, the working time and the like of the motor, and the action process of each air cylinder is not required to be controlled when the air cylinder is used in the prior art, so that the control efficiency of the bag rolling device is greatly improved, and the bag rolling device is convenient to use practically. The first transmission unit 521 is connected with the support plate 11, the eccentric wheel 51031 in the transmission wheel unit 5103 drives the support plate 11 to move relatively along the height direction of the frame 1 through the first transmission unit 521, namely, the supporting plate 11 is driven to move up and down, so as to drive the flattening mechanism 41 and the bag rolling mechanism 42 on the supporting plate 11 to move up and down, the flattening mechanism 41 moves up and down and tensions the material to facilitate the cutting of the external cutting device, the bag rolling mechanism 42 facilitates the bag rolling action of the material after the cutting of the external cutting device, the external cutting device can be arranged on the supporting plate 11, and is arranged at the middle position between the flattening mechanism 41 and the bag rubbing mechanism 42, when the external cutting device finishes cutting, the notches of the material corresponding to the side of the flattening mechanism 41 are mutually adhered to form a seal, and the notches of the material corresponding to the side of the bag rubbing mechanism 42 are rubbed and opened by the bag rubbing mechanism 42, so that the mutual adhesion of the openings is avoided. When the bag rolling device presses down along with the support plate 11, the second transmission unit 522 is driven by the first cam 51034 to control the flattening mechanism 41 to flatten materials, and the third transmission unit 523 is driven by the second cam 51035 to control the bag rolling mechanism 42 to rub the materials, so that the cutting of the external cutting device is assisted, the cutting effect of the external cutting device is better, and the cutting openings are not easy to adhere.

The embodiment further provides that: the third transmission unit 523 includes a second lever seat 5231, a second lever 5232 and a second link 5233, the first lever seat 5221 is disposed under the second cam 51035, two ends of the second lever 5232 are hinged to the second lever seat 5231 and the second connecting rod 5233 respectively, the second cam 51035 is engaged with an engaging wheel of the second lever 5232, the other end of the second link 5233 opposite to the second lever 5232 is provided with a sliding groove 5234, the bag rubbing mechanism 42 includes a bag rubbing roller 421, a connecting arm 422 and a fixing bracket 423 fixed to the supporting plate 11, the fixing bracket 423 is connected with two ends of the bag rolling roller 421 in a matching way, the bag rolling roller 421 is linked with the second connecting rod 5233 through the connecting arm 422, one end of the connecting arm 422 is fixed on the bag rubbing roller 421, the other end is slidably arranged in the chute 5234, the bag rubbing roller 421 is further provided with a reset arm 424, and the reset arm 424 is connected with the machine frame 1 through a reset spring 425. By adopting the above technical scheme, the bag rubbing roller 421 is connected with the supporting plate 11 through the fixing support 423, and when the supporting plate 11 is driven by the eccentric wheel 51031 and the first transmission unit 521 to move up and down, the bag rubbing mechanism 42 also moves up and down along with the movement, so as to achieve the effect of approaching or leaving away from the material. The third transmission unit 523 is a lever structure, the second cam 51035 is matched with a matching wheel on the second lever 5232, the second lever 5232 is hinged to the second lever seat 5231, and the second lever 5232 is linked with the connecting arm 422 on the bag twisting mechanism 42 through the second connecting rod 5233, so that the end, matched with the sliding groove 5234, of the connecting arm 422 can slide in the sliding groove 5234, and the connecting arm 422 drives the bag twisting roller 421 to twist the material. The second lever 5232 is tilted at one end hinged to the second connecting rod 5233 under the action of the second cam 51035, so that the second connecting rod 5233 is driven to lift in the direction of the force, the second connecting rod 5233 lifts the connecting arm 422 through the chute 5234, the connecting arm 422 is fixed on the bag rubbing roller 421, the bag rubbing roller 421 is driven to rotate in a small amplitude under the drive of the second connecting rod 5233, the bag rubbing roller 421 and a bag rubbing plane rotate relatively, two layers of materials between the bag rubbing roller 421 and the bag rubbing plane are rubbed apart, and therefore cut notches are prevented from being adhered to each other; one end of the reset arm 424 is fixed on the bag rubbing roller 421, the other end is connected with the frame 1 through the reset spring 425, when the bag rubbing roller 421 is driven to rotate in a small range, the reset arm 424 is driven to rotate, the reset spring 425 deforms when receiving a pulling force, when the second cam 51035 is separated from the matching wheel, the acting force disappears, the end of the second lever 5232 hinged to the connecting rod falls downwards, at the moment, the reset arm 424 fixed on the bag rubbing roller 421 is matched with the reset spring 425 to pull back the bag rubbing roller 421 to reset, the supporting plate 11 is pulled upwards through the eccentric wheel 51031 and the first transmission unit 521, and the bag rubbing mechanism 42 is driven to move upwards, so that the bag rubbing roller 421 leaves the material. The rotation direction of the bag rubbing roller 421 is the opposite direction of the material conveying direction, so that two layers of materials can be effectively rubbed apart, and simultaneously the materials can be tensioned.

The embodiment further provides that: the connecting arm 422 is Z-shaped, and the reset arm 424 is V-shaped or L-shaped. By adopting the above technical scheme, one end of the connecting arm 422 is fixed on the bag rubbing roller 421, the other end is in sliding fit with the chute 5234 of the second connecting rod 5233, and the connecting arm 422 is Z-shaped, so that when the second connecting rod 5233 lifts one end of the connecting arm 422, the other end can effectively drive the bag rubbing roller 421 to rotate, and a bag rubbing effect is realized; the reset arm 424 is provided in a V-shape or an L-shape so that the reset arm 424 can be well connected with the pouch rubbing roller 421 and the reset spring 425.

The embodiment further provides that: the bag rubbing mechanism 42 further comprises sliding rails 426, the sliding rails 426 are symmetrically arranged at two ends of the frame 1 corresponding to the bag rubbing rollers 421, and two ends of the bag rubbing rollers 421 are slidably arranged in the sliding rails 426 through bearings. By adopting the above technical scheme, the sliding channel 426 is arranged at the position of the frame 1 corresponding to the two ends of the bag rubbing roller 421, the bag rubbing roller 421 of the bag rubbing mechanism 42 is fixed on the support plate 11 through the fixing support 423, when the first transmission unit 521 is driven by the driving device 5 to drive the support plate 11 to move up and down, the two ends of the bag rubbing roller 421 slide up and down in the sliding channel 426 through the bearing, so that the bag rubbing roller 421 is driven to slide up and down more stably.

The embodiment further provides that: the second transmission unit 522 includes a first lever seat 5221, a first lever 5222 and a first link 5223, the first lever seat 5221 is disposed under the first cam 51034, two ends of the first lever 5222 are hinged to the first lever seat 5221 and the first connecting rod 5223 respectively, the first cam 51034 is engaged with an engaging wheel on the first lever 5222, the flattening mechanism 41 includes a balancing bar 4101, pressing bars 4102 symmetrically arranged on both sides of the balancing bar 4101, and a flattening plate 4103 arranged on the lower end surface of the pressing bar 4102, the other end of the first link 5223 is hinge-fitted with the middle portion of the balancing lever 4101, and the flattening mechanism 41 further includes a supporting unit 411, the supporting unit 411 includes a fixing base 4111 stacked on the supporting plate 11, a guiding base 4112 arranged on the fixing base 4111, the pressing rod 4102 is inserted into the guide base 4112, a second buffer spring 4104 is further sleeved on the pressing rod 4102, two ends of the second buffer spring 4104 are respectively abutted against the balancing rod 4101 and the guide base 4112. By adopting the above technical scheme, the flattening mechanism 41 is connected with the supporting plate 11 through the fixing seat 4111, and when the supporting plate 11 is driven by the eccentric wheel 51031 and the first transmission unit 521 to move up and down, the flattening mechanism 41 also moves up and down, so that the effect of approaching or keeping away from materials is realized. The pressing mechanism 41 is connected to the supporting plate 11 through a fixing base 4111, the fixing base 4111 is provided with a guiding base 4112, the pressing rod 4102 is inserted into the guiding base 4112, and two ends of the pressing rod 4102 are connected to the balancing rod 4101 and the pressing plate 4103 respectively. The second transmission unit 522 is of a lever structure, the first cam 51034 is matched with a matching wheel on the first lever 5222, one end of the first lever 5222 is hinged to the first lever seat 5221, the other end of the first lever 5222 is linked with the balance rod 4101 of the flattening mechanism 41 through the first connecting rod 5223, and the first cam 51034 is matched with the matching wheel on the first lever 5222, so that the second transmission unit 522 drives the pressing mechanism to move up and down, the flattening mechanism 41 flattens the conveyed materials, and the cutting of the external cutting device is assisted. The first cam 51034 and the second transmission unit 522 are matched to control the flattening mechanism 41 to move downwards, the pressing rod 4102 slides relatively in the guide seat 4112, the pressing plate 4103 at one end of the bottom of the pressing rod 4102 presses downwards to flatten materials, and the second buffer spring 4104 which is sleeved on the pressing rod 4102 and has two ends abutting against the balancing rod 4101 and the guide seat 4112 bears pressure and absorbs impact force generated during flattening so that the first cam 51034, the second transmission unit 522 and the pressing mechanism can run more stably; after the external cutting device finishes cutting, the first cam 51034 and the second transmission unit 522 are matched to control the flattening mechanism 41 to reset upwards, the pressing rod 4102 slides relatively in the guide base 4112, the flattening plate 4103 leaves materials to convey the cut materials, and the second buffer spring 4104 assists the pressing mechanism to reset while deforming and resetting. The guide base 4112 is provided to stabilize the pressing rod 4102 during up-and-down movement, thereby improving the stability of the overall operation of the apparatus.

The embodiment further provides that: the flattening mechanism 41 further comprises an auxiliary flattening unit 412, the auxiliary flattening unit 412 comprises an auxiliary pressure lever 4121 inserted into the fixed seat 4111 and an auxiliary pressure plate 4122 arranged at the bottom of the auxiliary pressure lever 4121, a buffer spring tri-4123 is further sleeved on the auxiliary pressure lever 4121, and two ends of the buffer spring tri-4123 are respectively abutted to the fixed seat 4111 and the auxiliary pressure plate 4122. Through adopting above-mentioned technical scheme, eccentric wheel 51031 and the cooperation of first drive unit 521 drive backup pad 11 downstream, drive the supplementary unit 412 that flattens on the fixing base 4111 simultaneously and push down, and supplementary depression bar 4121 inserts and locates on fixing base 4111, and supplementary clamp plate 4122 sets up in the bottom one end of supplementary depression bar 4121 for supplementary clamp plate 4122 can flatten the material downwards. The arrangement of the buffer springs 4123 can effectively buffer the impact force generated when the auxiliary pressing plate 4122 flattens the material, and meanwhile, the auxiliary pressing plate 4122 is reset when the supporting plate 11 drives the auxiliary flattening unit 412 to reset. The auxiliary flattening unit 412 increases the flattening area of the material, improves the pressing force of the pressing mechanism on the material, and avoids the situation that the bag rubbing mechanism 42 is easy to pull the material during operation.

The embodiment further provides that: the eccentric wheel 51031 is sleeved with an eccentric wheel sleeve 51032, a connecting section 51033 is arranged on the eccentric wheel sleeve 51032, the first transmission unit 521 comprises an eccentric connecting rod 5211, a connecting guide pillar 5212 and a first buffer spring 5213, one end of the eccentric connecting rod 5211 is in threaded connection with the connecting section 51033, the other end of the eccentric connecting rod 5211 is hinged to the connecting guide pillar 5212, the first buffer spring 5213 is sleeved on the connecting guide pillar 5212 and abuts against the upper top face of the supporting plate 11, the supporting plate is further provided with a sliding supporting column 12, one end of the sliding supporting column 12 is fixed with the upper top face of the rack, and the other end of the sliding supporting column is in sliding connection with the supporting plate. By adopting the above technical scheme, the eccentric wheel 51032 is arranged on the outer circumferential wall of the eccentric wheel 51031, the eccentric connecting rod 5211 of the first transmission unit 521 is connected with the connecting section 51033 on the eccentric wheel 51032, the other end of the eccentric connecting rod 5211 is hinged with the connecting guide post 5212 arranged on the supporting plate 11, the driving motor 5101 and the main shaft 5102 drive the eccentric wheel 51031 to rotate, the eccentric wheel 51031 drives the eccentric connecting rod 5211 to start through the eccentric wheel 51032, the eccentric connecting rod 5211 is matched with the connecting guide post 5212 to drive the supporting plate 11 to move up and down along the sliding supporting column 12, and simultaneously drives the flattening mechanism 41 and the bag rolling mechanism 42 on the supporting plate 11 to move up and down, so that the bag rolling device is close to or far away from materials. The first buffer spring 5213 is sleeved on the connecting guide post 5212 and abuts against the upper top surface of the support plate 11, and when the support plate 11 is pushed upwards under the action of the bag rubbing device contacting with the material, the first buffer spring 5213 can effectively buffer and assist in resetting when the support plate 11 resets upwards.

The embodiment further provides that: the eccentric wheels 51031 are arranged in two groups, the first transmission units 521 are arranged in two groups and are respectively matched with the eccentric wheels 51031, and the sliding support columns 12 are arranged in two groups and are symmetrically arranged. By adopting the above technical scheme, the eccentric wheels 51031 and the first transmission unit 521 are arranged into two groups, so that the support plate 11, the flattening mechanism 41 and the bag rubbing mechanism 42 on the support plate 11 can be ensured to be stable during up-and-down movement, and the stability of the whole operation of the device can be ensured. The two groups of sliding support columns 12 are arranged to provide powerful support for the support plate 11, and the running stability of each transmission unit, the support plate 11 and the bag twisting device is ensured.

Although a frame-1, a support plate-11, a sliding support column-12, a flattening mechanism-41, a balancing rod-4101, a pressing rod-4102, a pressing plate-4103, a buffer spring two-4104, a support unit-411, a fixed seat-4111, a guide seat-4112, an auxiliary flattening unit-412, an auxiliary pressing rod-4121, an auxiliary pressing plate-4122, a buffer spring three-4123, a bag rubbing mechanism-42, a bag rubbing roller-421, a connecting arm-422, a fixed support-423, a reset arm-424, a reset spring-425, a sliding channel-426, a driving device-5, a power mechanism-51, a driving motor-5101, a main shaft-5102, a transmission wheel unit-5103, an eccentric wheel-51031, an eccentric wheel sleeve-51032 are more frequently used in the present document, a connecting section-51033, a first cam-51034, a second cam-51035, a transmission mechanism-52, a first transmission unit-521, an eccentric link-5211, a connecting guide post-5212, a buffer spring-5213, a second transmission unit-522, a first lever seat-5221, a first lever-5222, a first link-5223, a third transmission unit-523, a second lever seat-5231, a second lever-5232, a second link-5233 and a chute-5234, but the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present embodiments; they are to be construed as being without limitation to any one of the additional limitations which are within the spirit of the present embodiments.

Claims (8)

1. The utility model provides a device of rubbing bag of soft sheet material in plane, includes the frame, sets up the actuating mechanism of top surface department in the frame, its characterized in that: also comprises a flattening mechanism for flattening materials and a bag rubbing mechanism for rubbing bags, a support plate is also arranged in the machine frame, the bag rubbing mechanism and the flattening mechanism are arranged along the material conveying direction and are respectively arranged at the two sides of the supporting plate, the driving device comprises a power mechanism and a transmission mechanism, the power driving motor comprises a driving motor, a main shaft which is matched and connected with an output shaft of the driving motor and a driving wheel unit which is arranged on the main shaft, the transmission wheel unit comprises an eccentric wheel, a first cam and a second cam, the transmission mechanism comprises a first transmission unit, a second transmission unit and a third transmission unit, the first transmission unit is linked with the eccentric wheel and controls the supporting plate to move relatively along the height direction of the frame, the second transmission unit is linked with the first cam and controls the flattening mechanism to flatten the material, and the third transmission unit is linked with the second cam and controls the bag rubbing mechanism to rub the materials.

2. The bag rolling device for plane soft thin material as claimed in claim 1, wherein: the third transmission unit comprises a second lever seat, a second lever and a second connecting rod, the first lever seat is arranged below a second cam, two ends of the second lever are hinged to the second lever seat and the second connecting rod respectively, the second cam is matched with a matching wheel on the second lever, a sliding groove is formed in the other end of the second connecting rod opposite to the second lever, the bag rubbing mechanism comprises a bag rubbing roller, a connecting arm and a fixing support fixed on a supporting plate, the fixing support is connected with two ends of the bag rubbing roller in a matching mode, the bag rubbing roller is linked with the second connecting rod through the connecting arm, one end of the connecting arm is fixed on the bag rubbing roller, the other end of the connecting arm is arranged in the sliding groove in a sliding mode, a reset arm is further arranged on the bag rubbing roller, and the reset arm is connected with the rack through a reset spring.

3. The bag rolling device for plane soft thin material as claimed in claim 2, wherein: the connecting arm is Z-shaped, and the reset arm is V-shaped or L-shaped.

4. The bag rolling device for plane soft thin material as claimed in claim 2, wherein: the bag rubbing mechanism further comprises sliding channels, the sliding channels are symmetrically arranged at two ends of the rack corresponding to the bag rubbing rollers, and two ends of the bag rubbing rollers are arranged in the sliding channels in a sliding mode through bearings.

5. The bag rolling device for plane soft thin material as claimed in claim 1, wherein: the second transmission unit comprises a first lever seat, a first lever and a first connecting rod, the first lever seat is arranged below the first cam, two ends of the first lever are hinged to the first lever seat and the first connecting rod respectively, the first cam is matched with a matching wheel on the first lever, the flattening mechanism comprises a balance rod, a pressing plate, a balance rod and a pressing plate, the balance rod is symmetrically arranged on two sides of the balance rod, the pressing plate is arranged on the lower end face of the pressing rod, the other end of the first connecting rod is hinged to the middle of the balance rod, the flattening mechanism further comprises a supporting unit, the supporting unit comprises a fixing seat and a guide seat, the fixing seat is arranged on the fixing seat in a supporting plate in a stacking mode, the guide seat is inserted into the pressing rod, a second buffer spring is further sleeved on the pressing rod, and two ends of the second buffer spring are respectively abutted to the balance rod and.

6. The bag rolling device for plane soft thin material as claimed in claim 5, wherein: the flattening mechanism further comprises an auxiliary flattening unit, the auxiliary flattening unit comprises an auxiliary pressing rod inserted on the fixing seat and an auxiliary pressing plate arranged at the bottom of the auxiliary pressing rod, a third buffer spring is further sleeved on the auxiliary pressing rod, and two ends of the third buffer spring are respectively abutted to the fixing seat and the auxiliary pressing plate.

7. The bag rolling device for plane soft thin material as claimed in claim 1, wherein: the eccentric wheel is sleeved with an eccentric wheel sleeve, a connecting section is arranged on the eccentric wheel sleeve, the first transmission unit comprises an eccentric connecting rod, a connecting guide pillar and a first buffer spring, one end of the eccentric connecting rod is in threaded connection with the connecting section, the other end of the eccentric connecting rod is hinged to the connecting guide pillar, the first buffer spring is sleeved on the connecting guide pillar and is abutted to the upper top face of the supporting plate, a sliding supporting pillar is further arranged on the supporting plate, one end of the sliding supporting pillar is fixed to the upper top face of the rack, and the other end of the sliding supporting pillar is in sliding connection with the supporting plate.

8. The bag rolling device for plane soft thin material as claimed in claim 7, wherein: the eccentric wheels are arranged in two groups, the first transmission units are arranged in two groups and are respectively matched with the eccentric wheels, and the sliding support columns are arranged in two groups and are symmetrically arranged.

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