CN108694772B - Ironing and rolling device and method for sheet-shaped flexible material - Google Patents

Abstract

The invention discloses an ironing and rolling device for flaky flexible materials, which comprises an outer frame, a large conveyor belt mechanism and a small conveyor belt mechanism, wherein the large conveyor belt mechanism and the small conveyor belt mechanism are arranged in the outer frame, and the ironing and rolling device comprises: the large conveying belt mechanism comprises a large conveying belt driving roller, a large conveying belt driven roller, a large tensioning roller and a large conveying belt which are fixed between the left baffle and the right baffle; the small conveying belt mechanism comprises a small conveying belt driving roller, a small conveying belt driven roller, a small tensioning roller and a small conveying belt which are fixed between a left baffle and a right baffle, the small conveying belt mechanism supports against the large conveying belt from one side, so that the large conveying belt mechanism is V-shaped, the large conveying belt and the small conveying belt form a common opposite surface with an inlet wedge angle, an upper heating plate is arranged behind the small conveying belt at the inlet wedge angle, and a lower heating plate is arranged behind the small conveying belt between the small conveying belt driven roller and the small tensioning roller, so that flattening synchronous ironing operation is realized. The invention can realize the rapid and efficient drying, ironing and rolling operation of the flaky flexible material.

Description

Ironing and rolling device and method for sheet-shaped flexible material

Technical Field

The invention belongs to the field of finishing of flexible materials, and particularly relates to a device and a method for ironing and rolling sheet-shaped flexible materials.

Background

Public transport company often accumulates the paper currency that a large amount of book feet and fold and need arrange in order, and most companies all select the manpower to sort paper currency, and in whole letter sorting process, must roll up the arrangement to paper currency earlier, just can classify after the processing, check, it is loaded down with trivial details to work, the inefficiency and human cost are high, some paper currency that slightly roll up the foot, the fold can be handled to current paper currency flattening device, but can only expand it to the paper currency of fold by the manual work, but can't accomplish the flattening of ironing formula, and current flattening device can only handle a paper currency once, the treatment effeciency is lower, consequently, need not be applicable to the public transport company of arrangement to have a large amount of paper currency.

Disclosure of Invention

The purpose of the invention is as follows: the invention aims to solve the defects in the prior art, and provides an ironing and rolling device for a sheet-shaped flexible material, which can realize the operations of drying, ironing and rolling the sheet-shaped flexible material quickly and efficiently.

The technical scheme is as follows: the invention relates to an ironing and rolling device for sheet-shaped flexible materials, which comprises an outer frame, a large conveyor belt mechanism and a small conveyor belt mechanism, wherein the large conveyor belt mechanism and the small conveyor belt mechanism are arranged in the outer frame, and the ironing and rolling device comprises:

the outer frame is a rectangular frame structure formed by four mounting beams matched with the left baffle and the right baffle;

the large conveyor belt mechanism comprises a large conveyor belt driving roller and a large conveyor belt driven roller which are fixed between a left baffle and a right baffle through roller bearing seats, a large tensioning roller which is fixed between the left baffle and the right baffle through a self-adaptive adjusting mechanism, and a large conveyor belt which is coated outside the three rollers, wherein the large conveyor belt driving roller and the large conveyor belt driven roller are positioned on one side of an inlet corresponding to the left baffle and the right baffle, and the large tensioning roller is positioned on the other side of the left baffle and the right baffle;

the small conveyor belt mechanism comprises a small conveyor belt driving roller and a small conveyor belt driven roller which are fixed between the left baffle and the right baffle through roller bearing seats, a small tensioning roller which is fixed between the left baffle and the right baffle through a self-adaptive adjusting mechanism, and a small conveyor belt which is coated outside the three rollers;

the small conveyor belt mechanism props against the large conveyor belt from one side to form a V-shaped large conveyor belt mechanism, wherein the small conveyor belt driving roller and the large conveyor belt driven roller are positioned on the same vertical straight line, a feeding opening with the width of 20mm is formed between the small conveyor belt driving roller and the large conveyor belt driven roller, the small conveyor belt driving roller, the small conveyor belt driven roller and the large tensioning roller are positioned on the same horizontal straight line, the small conveyor belt driven roller props against the large conveyor belt, the large conveyor belt and the small conveyor belt form a common face, an inlet wedge angle of 2.5 degrees is formed at an initial contact part, the small tensioning roller props against the large conveyor belt from the lower part, the large conveyor belt and the small conveyor belt between the small conveyor belt driven roller and the small tensioning roller are mutually jointed to form a flattening channel, and an upper heating plate is arranged behind the small conveyor belt between the small conveyor belt driving roller and the small conveyor belt driven roller, the upper heating plate extends to the wedge angle of the inlet, and the lower heating plate is arranged behind the small conveying belt between the driven roller and the small tensioning roller of the small conveying belt, so that the synchronous ironing operation of flattening is realized.

Preferably, one end of each of the large conveyor belt driving roller and the small conveyor belt driving roller is connected with a driving motor, one end of each of the large conveyor belt driven rollers is provided with a spur gear which is mutually meshed with a spur gear arranged at the end part of the lower small conveyor belt driving roller, the small driving roller and the small driven roller are connected at the other end through a cylindrical roller chain, the driving motor drives the small driving roller to rotate reversely, the small driven roller rotates synchronously under the action of chain transmission, thereby driving the small conveyor belt to synchronously rotate and enabling the small tensioning roller to reversely rotate, enabling the driven roller of the large conveyor belt to synchronously rotate forwards under the action of the rotation of the straight gear, meanwhile, the driving motor drives the driving roller of the large conveying belt to rotate synchronously in the positive direction, the large conveying belt rotates under the synchronous rotation action of the driving roller of the large conveying belt and the driven roller of the large conveying belt, the large tensioning roller rotates in the positive direction, and the rolling effect is formed at the feeding opening.

Preferably, the self-adaptive adjusting mechanism comprises a slide rail fixing seat, two parallel slide rails, a plurality of extension springs and a fixing bottom plate, the slide rail fixing seat is installed at two ends of the small tensioning roller and the large tensioning roller, the two slide rails are fixed on baffle plates at two sides of the slide rail fixing seat in parallel, the slide blocks at two sides of the slide rail fixing seat are embedded in the slide rails to slide back and forth, the fixing bottom plate is installed on the baffle plates and is parallel to the slide rail fixing seat, the upper surface of the fixing bottom plate and the bottom surface of the slide rail fixing seat are respectively provided with a plurality of spring hook holes, and two ends of.

Preferably, the tension spring load force value is changed according to the tension requirement.

Preferably, the upper heating plate and the lower heating plate are disposed in parallel with the small conveyor belt, and have a distance of 20 mm.

Preferably, the large conveyor belt and the small conveyor belt are teflon conveyor belts.

An ironing and rolling method for sheet-shaped flexible materials comprises the following steps:

A. feeding the sheet-shaped flexible material subjected to the preliminary treatment into a feeding opening formed by a large conveyor belt driven roller and a small conveyor belt driving roller, feeding the sheet-shaped flexible material under the action of suction force, and performing preliminary drying and ironing treatment on the sheet-shaped flexible material by an upper heating plate;

B. the flexible material after preliminary drying and ironing enters a wedge angle inlet, and preliminary rolling operation is carried out under the extrusion force of a driven roller of a small conveyor belt and a large conveyor belt;

C. the primarily rolled flexible material turns to enter the lower heating plate area under the action of the extrusion force of the driven roller of the small conveyor belt, and secondary rolling and ironing operations are simultaneously carried out in the area;

D. and discharging the secondarily rolled and ironed flexible material from a position between the small tensioning roller and the large conveying belt driving roller.

Has the advantages that: the ironing and rolling device for the flaky flexible material disclosed by the invention has the following beneficial effects:

the continuous conveying of the sheet-shaped flexible material is realized by adopting the structural matching of two groups of conveying belts, and the structural design is carried out on the joint positions of the two groups of conveying belts, so that a wedge-angle opening is formed at the initial contact part of the two groups of common opposite surfaces, and the fed corrugated material conveniently enters from the opening and is rolled into the two conveyed common opposite surfaces under the extrusion of a driven roller of a small conveying belt;

for the arrangement of the structure, an upper heating plate is arranged at the front end of an inlet to primarily dry and iron the folded materials, then the folded materials enter a wedge angle position to be extruded and rolled, and the driven roller of the small conveying belt and the driving roller of the large tensioning roller are positioned on the same straight line, so that the stress of two conveying belts on the opposite surface is in the horizontal direction, the entering paper money can not shift when the conveying direction is changed, the smoothness of the paper money in the opposite surface is further ensured, and a lower heating plate is arranged below the paper money to realize secondary ironing while rolling the rolled paper money for shaping;

in transmission, the two groups of conveyor belts are controlled to rotate in opposite directions, so that the corrugated material can be fed efficiently, the two groups of conveyor belts have the same rotating speed, the common opposite surfaces are in a relatively static conveying mode, and the material is guaranteed to be not changed in the flattening state in the whole conveying process;

in material use, a heat-resistant conveyor belt is adopted, so that the working environment of-70 ℃ to 260 ℃ can be met;

the self-adaptive adjusting mechanism is adopted for fixing the tensioning roller, the change of various tensioning forces can be realized in the early stage of work according to the tensioning force of the conveying belt and the joint degree of the common opposite surface without the elastic tension of the stretching spring, and the self-adjusting mechanism can automatically adjust the upper position and the lower position (left position and right position) of the tensioning roller when the flexible material passes through the self-adjusting mechanism by adopting the structure that the sliding rail fixing seat is matched with the sliding rail, so that the self-adaptive adjusting mechanism is suitable for flexible materials with different thicknesses and layers.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of another embodiment of the present invention;

FIG. 3 is a side cross-sectional view of the present invention;

FIG. 4 is a diagram of the operation of the present invention;

FIG. 5 is a drawing showing the force applied to the roller and the turning direction of the roller according to the present invention.

Detailed Description

The technical solution of the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention.

The ironing and rolling device for the sheet-shaped flexible material as shown in fig. 1 to 5 realizes rolling, ironing and drying of the sheet-shaped flexible material, wherein the flexible material can be paper money, small cloth and the like, and can be applied to continuous roll-type cloth.

The concrete structure includes outer frame 1, installs big conveyer belt mechanism 2 and little conveyer belt mechanism 3 in outer frame inside, little conveyer belt mechanism 3 supports big conveyer belt mechanism from one side and forms the common opposite face as the conveying passageway.

The outer frame 1 has a rectangular frame structure formed by four mounting beams 4 and left and right baffles 5, and the baffles can be mounted at the top, bottom, front or rear of the frame for dust prevention (not shown) according to requirements.

Big conveyer belt mechanism includes big conveyer belt initiative cylinder 7, big conveyer belt driven roll 8, big tensioning roller 9 and big conveyer belt 10, big conveyer belt initiative cylinder 7 and big conveyer belt driven roll 8 pass through roller bearing 11 to be fixed about between the baffle, and be located one side and distribute from top to bottom, and big tensioning roller passes through self-adaptation adjustment mechanism 6 to be fixed about the opposite side between the baffle, and be located big conveyer belt initiative cylinder and big conveyer belt driven roll's axis, big conveyer belt cladding is outside at three cylinder, adjust the tensile force of conveyer belt through big tensioning roller.

The small conveyor belt mechanism is positioned between a large conveyor belt main roller and a large conveyor belt slave roller and supports against the large conveyor belt from the outer side, so that the whole large conveyor belt mechanism is in a V shape, and specifically comprises a small conveyor belt driving roller 12, a small conveyor belt driven roller 13, a small tensioning roller 14 and a small conveyor belt 15, wherein the small conveyor belt driving roller 12 is fixed between a left baffle and a right baffle through a roller bearing seat 11 and is positioned under the large conveyor belt driven roller (on the same vertical straight line with the large conveyor belt driven roller), a flexible material feeding port is formed at the outer frame together with the large conveyor belt driven roller, the opening size of the feeding port is 20mm (specifically, the distance between the large conveyor belt and the small conveyor belt surface at the position point), the small conveyor belt driven roller 13 is fixed at the other side between the left baffle and the right baffle through a roller bearing seat and is positioned on the same horizontal straight line with the small conveyor belt driving roller and the large, the small tensioning roller is fixed between the left baffle and the right baffle through a self-adaptive adjusting mechanism, is positioned on a central axis of the small driving roller and the small driven roller, and is abutted against the large conveying belt from the lower part, the small conveying belt is coated outside the three rollers and forms a common opposite surface with the large conveying belt at the position of the small driven roller, and the common opposite surface forms an inlet wedge angle of 2.5 degrees at an initial contact part, so that a flexible material is conveniently rolled in, in addition, the small conveying belt and the large conveying belt form a flexible material delivery port at the position of the small tensioning roller, and the delivery port are positioned at the same side and distributed up and down.

An upper heating plate 16 is arranged behind the small conveying belt between the small conveying belt driving roller and the small conveying belt driven roller, the upper heating plate extends to an inlet wedge angle position and has a distance of 20mm with the small conveying belt support, primary drying and ironing of the flexible materials are achieved, the drying and ironing process extends until the flexible materials are fed into the wedge angle position to be flattened, a lower heating plate 17 is arranged behind the small conveying belt between the small conveying belt driven roller and the small tensioning roller and also has a distance of 20mm with the small conveying belt support, and secondary flattening and ironing of the flexible materials conveyed by the small conveying belt driven roller are achieved.

One end of the large conveyor belt driving roller and one end of the small conveyor belt driving roller are both connected with a driving motor (a direct current motor, not shown), one end of the large conveyor belt driven roller is provided with a straight gear 18 which is meshed with the straight gear 18 arranged at the end part of the small conveyor belt driving roller below, the small conveyor belt driving roller and the small conveyor belt driven roller are connected at the other end through a chain wheel 19, the driving motor drives the small conveyor belt driving roller to rotate reversely, the small conveyor belt driven roller rotates synchronously under the action of chain transmission, so that the small conveyor belt is driven to rotate synchronously and the small tensioning roller rotates reversely, the large conveyor belt driven roller rotates synchronously under the action of gear rotation, the driving motor drives the large conveyor belt driving roller to rotate synchronously and the large tensioning roller rotates synchronously, the large conveyor belt rotates under the action of synchronous rotation of the large conveyor belt driving roller and the large conveyor belt driven roller rotates synchronously, the entanglement effect is formed at the feed opening.

The self-adaptive adjusting mechanism comprises a slide rail fixing seat 20, two parallel slide rails 21, a plurality of extension springs 22 and a fixed bottom plate 23, the slide rail fixing seat is arranged at two ends of a small tensioning roller and a large tensioning roller, the two slide rails are fixed on baffle plates at two sides of the slide rail fixing seat in parallel, the sliding blocks at the two sides of the sliding rail fixing seat are embedded in the sliding rail to realize the back and forth sliding, the fixed bottom plate is arranged on the baffle plate and is parallel to the sliding rail fixing seat, the upper surface of the fixed bottom plate and the bottom surface of the slide rail fixed seat are both provided with a plurality of spring hook holes, two ends of the extension spring are hooked in the spring hook holes, the tension for the large conveyor belt or the small conveyor belt is controlled by the load value of the tension spring, therefore, the tension can be adjusted by replacing different extension springs, so that the fit clearance of the large and small transmission belts can be adjusted, and the tension is adjusted more simply by the structural form.

Because the upper heating plate and the lower heating plate are used, the large conveying belt and the small conveying belt need to resist certain high temperature, and the Teflon conveying belt can meet the high temperature of 260 ℃ at most.

From the stress angle (as shown in fig. 5), since the large tensioning roller, the small driving belt driving roller and the small driving belt driven roller are positioned on the same horizontal straight line, the large tensioning roller is positioned on the central axis of the large driving belt roller and the large driving belt roller, and the small tensioning roller is positioned on the central axis of the small driving belt roller and the small driving belt roller, the stress direction of the resultant force of the large tensioning roller on the large driving belt is the angular bisector (inner angle) direction (horizontal direction) of the large driving belt roller and the large driving belt roller, which is consistent with the direction of the horizontally arranged slide rails in the self-adaptive adjusting mechanism, and the resultant force direction of the small tensioning roller on the small driving belt is the angular bisector direction (vertical direction) of the small driving belt roller and the small driving belt roller, which is consistent with the direction of the vertically arranged slide rails in the other corresponding self-adaptive adjusting mechanisms, therefore, the self-adaptive adjusting mechanism can perform self-adaptive adjustment according to different thicknesses and layers of the fed flexible materials, and the adjusting direction is the same as the direction of the sliding rail, so that the whole device has the advantages of stable operation, long service life, reliable adjustment and the like.

In addition, the invention also relates to an ironing and rolling method of the sheet-shaped flexible material, which comprises the following steps:

A. feeding the sheet-shaped flexible material subjected to the preliminary treatment into a feeding opening formed by a large conveyor belt driven roller and a small conveyor belt driving roller, feeding the sheet-shaped flexible material under the action of a winding force, and performing preliminary drying and ironing treatment on the sheet-shaped flexible material by an upper heating plate;

B. the flexible material after preliminary drying and ironing enters a wedge angle inlet, and preliminary rolling operation is carried out under the extrusion force of a driven roller of a small conveyor belt and a large conveyor belt;

C. the primarily rolled flexible material turns to enter the lower heating plate area under the action of the extrusion force of the driven roller of the small conveyor belt, and secondary rolling and ironing operations are simultaneously carried out in the area;

D. and discharging the secondarily rolled and ironed flexible material from a position between the small tensioning roller and the large conveying belt driving roller.

Although the present invention has been described with reference to a preferred embodiment, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (5)

1. An ironing and rolling device for sheet flexible materials is characterized in that: including outer frame, install big conveyor belt mechanism and little conveyor belt mechanism outside frame inside, wherein:

the outer frame is a rectangular frame structure formed by four mounting beams matched with the left baffle and the right baffle;

the large conveyor belt mechanism comprises a large conveyor belt driving roller and a large conveyor belt driven roller which are fixed between a left baffle and a right baffle through roller bearing seats, a large tensioning roller which is fixed between the left baffle and the right baffle through a self-adaptive adjusting mechanism, and a large conveyor belt which is coated outside the three rollers, wherein the large conveyor belt driving roller and the large conveyor belt driven roller are positioned on one side of an inlet corresponding to the left baffle and the right baffle, and the large tensioning roller is positioned on the other side of the left baffle and the right baffle;

the small conveyor belt mechanism comprises a small conveyor belt driving roller and a small conveyor belt driven roller which are fixed between the left baffle and the right baffle through roller bearing seats, a small tensioning roller which is fixed between the left baffle and the right baffle through a self-adaptive adjusting mechanism, and a small conveyor belt which is coated outside the three rollers;

the small conveyor belt mechanism supports against the large conveyor belt from one side to form a V-shaped large conveyor belt mechanism, wherein the small conveyor belt driving roller and the large conveyor belt driven roller are positioned on the same vertical straight line, a feeding opening with the width of 20mm is formed between the small conveyor belt driving roller and the large conveyor belt driven roller, the small conveyor belt driving roller, the small conveyor belt driven roller and the large tensioning roller are positioned on the same horizontal straight line, the small conveyor belt driven roller supports against the large conveyor belt, the large conveyor belt and the small conveyor belt form a common face, an inlet wedge angle of 2.5 degrees is formed at an initial contact part, the bottom of the small tensioning roller supports against the large conveyor belt, the large conveyor belt and the small conveyor belt between the small conveyor belt driven roller and the small tensioning roller are mutually attached to form a flattening channel, and an upper heating plate is arranged behind the small conveyor belt between the small conveyor belt driving roller and the small conveyor belt driven roller, the upper heating plate extends to the wedge angle of the inlet, and the lower heating plate is arranged behind the small conveying belt between the small conveying belt driven roller and the small tensioning roller, so that the rolling and synchronous ironing operation are realized;

one end of the large conveying belt driving roller and one end of the small conveying belt driving roller are both connected with a driving motor, one end of the large conveying belt driven roller is provided with a spur gear which is mutually meshed with a spur gear arranged at the end part of the lower small conveying belt driving roller, the small driving roller and the small driven roller are connected at the other end through a cylindrical roller chain, the driving motor drives the small driving roller to rotate reversely, the small driven roller rotates synchronously under the action of chain transmission, thereby driving the small conveyor belt to synchronously rotate and enabling the small tensioning roller to reversely rotate, enabling the driven roller of the large conveyor belt to synchronously rotate forwards under the action of the rotation of the straight gear, meanwhile, the driving motor drives the driving roller of the large conveying belt to synchronously rotate forwards, the large conveying belt rotates under the synchronous rotation action of the driving roller of the large conveying belt and the driven roller of the large conveying belt, and the large tensioning roller rotates forwards to form a rolling-in effect at the feeding opening;

the self-adaptive adjusting mechanism comprises a slide rail fixing seat, two parallel slide rails, a plurality of extension springs and a fixing bottom plate, wherein the slide rail fixing seat is installed at two ends of a small tensioning roller and a large tensioning roller, the two slide rails are fixed on baffle plates at two sides of the slide rail fixing seat in parallel, the slide blocks at two sides of the slide rail fixing seat are embedded in the slide rails to slide back and forth, the fixing bottom plate is installed on the baffle plates and is parallel to the slide rail fixing seat, the upper surface of the fixing bottom plate and the bottom surface of the slide rail fixing seat are respectively provided with a plurality of spring hook holes, and two.

2. An ironing and rolling apparatus for sheet-like flexible material as claimed in claim 1, wherein: and the load force value of the extension spring is changed according to different tension requirements.

3. An ironing and rolling apparatus for sheet-like flexible material as claimed in claim 1, wherein: the upper heating plate and the lower heating plate are arranged in parallel with the small conveyor belt and have a distance of 20 mm.

4. An ironing and rolling apparatus for sheet-like flexible material as claimed in claim 1, wherein: the large conveyor belt and the small conveyor belt are Teflon conveyor belts.

5. An ironing and rolling method for flexible sheet materials, which is realized based on the device of claim 1, and is characterized by comprising the following steps:

A. feeding the sheet-shaped flexible material subjected to the preliminary treatment into a feeding opening formed by a large conveyor belt driven roller and a small conveyor belt driving roller, feeding the sheet-shaped flexible material under the action of a winding force, and performing preliminary drying and ironing treatment on the sheet-shaped flexible material by an upper heating plate;

B. the flexible material after preliminary drying and ironing enters a wedge angle inlet, and preliminary rolling operation is carried out under the extrusion force of a driven roller of a small conveyor belt and a large conveyor belt;

C. the primarily rolled flexible material turns to enter the lower heating plate area under the action of the extrusion force of the driven roller of the small conveyor belt, and secondary rolling and ironing operations are simultaneously carried out in the area;

D. and discharging the secondarily rolled and ironed flexible material from a position between the small tensioning roller and the large conveying belt driving roller.

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