CN112520463A - Polyvinyl chloride crimping production facility - Google Patents

Abstract

The invention discloses a polyvinyl chloride hemming production device which structurally comprises a control button, a rotator and a rolling device, wherein the control button is embedded on the surface of the rotator, the rolling device is embedded on the inner side surface of the rotator, a sliding mechanism compresses an elastic plate through a rubber ring in the process of laminating the surface of a coiled material to avoid generating sliding resistance on the coiled material, so that the uneven coiled material acts on a sliding plate to cut the deformed and uneven part on the side surface of the coiled material, the rolling of the coiled material is prevented from being influenced, meanwhile, a larger acting force is prevented from being generated on the flat part on the side surface of the coiled material, the coiled material is clamped through the part penetrating through the middle of the rubber ring and a clamping hole, the coiled material is laminated on the outer side, the coiled material is compressed through a sealing groove, meanwhile, the friction force between the coiled material and a rolling plate is enhanced through a friction groove, the coiled material is, the problem of temperature difference caused by shutdown and rolling is prevented, and the thickness of the coiled material is influenced.

Description

Polyvinyl chloride crimping production facility

Technical Field

The invention relates to the field of polyvinyl chloride, in particular to polyvinyl chloride hemming production equipment.

Background

The waterproof coiled material is a high-molecular waterproof material with excellent performance, polyvinyl chloride resin is used as a main raw material, the polyvinyl chloride material has the functions of high tensile strength and small shrinkage rate, the polyvinyl chloride material is cooled and formed after being heated and melted to form the coiled material with the waterproof function, but the polyvinyl chloride material coiled material shrinks under stretching after being cooled and formed and falls down under the influence of weight, so that the coiled material is easy to sag and tighten and slightly deform, the side surface of the coiled material is easy to be uneven when being formed, the use of the coiled material is influenced, the outer side of a rolling plate in a rolling device is in a smooth shape, the coiled material is easy to idle on the rolling plate when just starting rolling, the problem of low bonding force is caused, one end of the coiled material which is cooled needs to be stopped to be fixed, the temperature difference between the cooling end and the hot melting end of the coiled material is too large, and the tensile force is different, the coil thickness is easily affected.

Disclosure of Invention

The invention is realized by the following technical scheme: the utility model provides a polyvinyl chloride turn-up production facility, its structure includes control button, circulator, coiling mechanism, control button inlays admittedly at the circulator surface, the coiling mechanism inlays admittedly in the inside side of circulator, the coiling mechanism is equipped with axis of rotation, swivel becket, block hole, atress mechanism, laminating mechanism, the laminating mechanism welds in the axis of rotation outside, the laminating in block hole is in the swivel becket outside, atress mechanism block is inside the swivel becket, the inboard of atress mechanism inlays admittedly in the axis of rotation outside, the axis of rotation inlays admittedly inside the circulator, the block hole is the slot-like structure, and runs through with atress mechanism.

As a further improvement of the invention, the laminating mechanism is provided with a sliding mechanism, a fixed block and three first spring rods, the sliding mechanism is welded on the right side of the fixed block, the first spring rods are arranged at the lower end of the fixed block, the lower end of each first spring rod is embedded and fixed on the outer side of the rotating shaft, and the three first spring rods are vertically laminated and distributed with each other.

As a further improvement of the invention, the sliding mechanism is provided with an elastic plate, a bearing, a rubber ring and a cutting structure, the elastic plate is attached to the outer side of the bearing, the rubber ring and the elastic plate are positioned on the same central axis, the cutting structure is positioned at the lower end of the bearing, the bearing is mounted on the surface of a fixed block, the elastic plate is of an arc-shaped structure, and the rubber ring and the bearing are positioned on the same central axis.

The cutting structure is further improved by the aid of the rubber plate, the supporting plate, the sliding plate and the cutter, the rubber plate is attached to the inner side face of the supporting plate, the cutter is welded to the right side of the supporting plate, the sliding plate is mounted on the surface of the cutter, the supporting plate is located at the lower end of the bearing, a blade is arranged in the middle of the sliding plate, and the cutter is of an arc-shaped structure and has elasticity.

As a further improvement of the invention, the stress mechanism is provided with a second spring rod, a gap plate and a friction mechanism, the gap plate is attached to the inner side of the friction mechanism, the second spring rod is welded in the gap plate, the gap plate and the friction mechanism are positioned on the same central axis, the second spring rod is installed on the outer side of the rotating shaft, and the number of the gap plates is six, and the gap plates are distributed in a circular manner by taking the rotating shaft as the central axis.

As a further improvement of the invention, the friction mechanism is provided with a stress plate, a rolling plate, a sealing groove and a friction groove, the friction groove is positioned at the outer side of the rolling plate, the sealing groove is embedded and fixed in the middle of the inner part of the rolling plate, the rolling plate is attached to the outer side of the stress plate, the stress plate is in clearance fit with the gap plate, the rolling plate is in a continuous bending shape, and the friction groove is in a semicircular groove-shaped structure.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

1. when coiled material rolling thickness increase, slide mechanism is the big more to the slip laminating power on coiled material surface, and laminating in-process is passed through the rubber ring and is driven the bearing rotation to the compression of elastic plate, avoids producing sliding resistance to the coiled material, makes the coiled material side slide from the cutterbar, thereby the coiled material and the sliding plate of unevenness act on, make and cut the part of coiled material side deformation unevenness, avoid influencing the rolling of coiled material, prevent to produce great effort to coiled material side roughness simultaneously.

2. In the rolling in-process, the axis of rotation drives the swivel becket and rotates for the coiled material in the atress mechanism outside carries out the rolling, carries out the block to the coiled material through the part that runs through with the block hole in the middle of the rubber ring, and the outside that the coiled material laminating is in simultaneously compresses through the seal groove, and the frictional force of friction groove reinforcing coiled material and receipts board simultaneously prevents that the coiled material from idling in the rolling board outside, avoids laminating power lower, prevents the difference in temperature problem that the rolling of stopping caused, influences coiled material thickness.

Drawings

Fig. 1 is a schematic structural diagram of a polyvinyl chloride hemming production apparatus of the present invention.

Fig. 2 is a schematic side view of a winding device according to the present invention.

Fig. 3 is a schematic side view of a bonding mechanism according to the present invention.

Fig. 4 is a schematic side view of a sliding mechanism according to the present invention.

Fig. 5 is a schematic perspective view of a cutting structure according to the present invention.

Fig. 6 is a partial h enlarged structural diagram of a force-receiving mechanism according to the present invention.

FIG. 7 is a side view of a friction mechanism according to the present invention.

In the figure: the device comprises a control button-1, a rotator-2, a winding device-3, a rotating shaft-31, a rotating ring-32, a clamping hole-33, a stress mechanism-34, a fitting mechanism-35, a sliding mechanism-51 a, a fixed block-52 a, a first spring rod-53 a, an elastic plate-a 1, a bearing-a 2, a rubber ring-a 3, a cutting structure-a 4, a rubber plate-a 41, a supporting plate-a 42, a sliding plate-a 43, a cutter-a 44, a second spring rod-w 1, a gap plate-w 2, a friction mechanism-w 3, a stress plate-w 31, a winding plate-w 32, a sealing groove-w 33 and a friction groove-w 34.

Detailed Description

The technology of the present invention is further described with reference to the accompanying drawings:

example 1:

as shown in fig. 1-5:

the invention relates to a polyvinyl chloride hemming production device which structurally comprises a control button 1, a rotator 2 and a winding device 3, wherein the control button 1 is embedded in the surface of the rotator 2, the winding device 3 is embedded in the side face of the inside of the rotator 2, the winding device 3 is provided with a rotating shaft 31, a rotating ring 32, a clamping hole 33, a stress mechanism 34 and a laminating mechanism 35, the laminating mechanism 35 is welded on the outer side of the rotating shaft 31, the clamping hole 33 is attached to the outer side of the rotating ring 32, the stress mechanism 34 is clamped in the rotating ring 32, the inner side of the stress mechanism 34 is embedded and fixed on the outer side of the rotating shaft 31, the rotating shaft 31 is embedded and fixed in the rotator 2, the clamping hole 33 is of a groove-shaped structure and penetrates through the stress mechanism 34, so that one end of a coiled material is fixed.

Wherein, laminating mechanism 35 is equipped with slide mechanism 51a, fixed block 52a, first spring beam 53a, slide mechanism 51a welds on the fixed block 52a right side, first spring beam 53a is installed in fixed block 52a lower extreme, the lower extreme of first spring beam 53a is inlayed and is fixed in the axis of rotation 31 outside, first spring beam 53a is equipped with threely, vertical mutual laminating distribution, and when coiled material rolling thickness increase, slide mechanism 51a slides coiled material surface to first spring beam 53a stretches, guarantees that fixed block 52a produces the laminating effort to the coiled material side.

The sliding mechanism 51a is provided with an elastic plate a1, a bearing a2, a rubber ring a3 and a cutting structure a4, the elastic plate a1 is attached to the outer side of the bearing a2, the rubber ring a3 and the elastic plate a1 are located on the same central axis, the cutting structure a4 is located at the lower end of the bearing a2, the bearing a2 is installed on the surface of a fixed block 52a, the elastic plate a1 is of an arc-shaped structure, the rubber ring a3 and the bearing a2 are located on the same central axis, the rubber ring a3 is attached to and slides on the surface of a coil, and the elastic plate a1 is squeezed, so that the bearing a2 rotates along with the elastic plate to generate a certain acting force, and the phenomenon that the attaching force to the coil is too small to generate deviation is prevented.

The cutting structure a4 is provided with a rubber plate a41, a supporting plate a42, a sliding plate a43 and a cutter a44, the rubber plate a41 is attached to the inner side face of the supporting plate a42, the cutter a44 is welded to the right side of the supporting plate a42, the sliding plate a43 is installed on the surface of the cutter a44, the supporting plate a42 is located at the lower end of the bearing a2, a blade is arranged in the middle of the sliding plate a43, the cutter a44 is of an arc-shaped structure and has elasticity, so that the side face of the coiled material slides over the cutter a44, the uneven coiled material acts on the sliding plate a43, the deformed and uneven part of the side face of the coiled material is cut, the rolling of the coiled material is prevented from being influenced, and meanwhile.

The embodiment has the following specific use modes and functions:

in the invention, the rotating shaft 31 drives the rotating ring 32 to rotate, so that the coiled material outside the stress mechanism 34 is coiled, and is attached to the lower end of the sliding mechanism 51a, when the coiled material coiling thickness is increased, the sliding attachment force of the sliding mechanism 51a to the surface of the coiled material is larger, so that the first spring rod 53a is stretched, the fixed block 52a keeps generating the attachment acting force to the side surface of the coiled material, the elastic plate a1 is compressed by the rubber ring a3 in the attachment process, the bearing a2 is driven to rotate, the sliding resistance to the coiled material is avoided, meanwhile, the side surface of the coiled material is acted by the sliding plate a43 in the cutting structure a4, so that the rubber plate a41 is buffered by the cutter a44, the side surface of the coiled material slides over the cutter a44, the uneven coiled material acts on the sliding plate a43, the part of the side surface of the coiled material which is not deformed is, while preventing large forces from being applied to the flat side portions of the web.

Example 2:

as shown in fig. 6-7:

wherein, atress mechanism 34 is equipped with second spring pole w1, clearance board w2, friction mechanism w3, clearance board w2 laminates in friction mechanism w3 inboard, second spring pole w1 welds inside clearance board w2, clearance board w2 and friction mechanism w3 are located same central axis, second spring pole w1 is installed in the axis of rotation 31 outside, clearance board w2 is equipped with six to axis of rotation 31 is the circular distribution of central axis, strengthens the effort to friction mechanism w3, avoids friction mechanism w3 to drop.

Wherein, friction mechanism w3 is equipped with atress board w31, rolling board w32, seal groove w33, friction groove w34, friction groove w34 is located the rolling board w32 outside, seal groove w33 is inlayed in the middle of rolling board w32 is inside, rolling board w32 laminating is in atress board w31 outside, atress board w31 and clearance board w2 clearance fit, rolling board w32 is continuous bending shape, friction groove w34 is semi-circular slot-shaped structure, compresses through seal groove w33 when rolling board w32 atress, and friction groove w34 has the effect of reinforcing friction force simultaneously, and the sliding force is too big when avoiding the atress, prevents to produce the problem of idle running.

The embodiment has the following specific use modes and functions:

in the invention, the control button 1 controls the rolling device 3 to rotate, so that the coiled material is linearly rolled, in the rolling process, one end of the coiled material is fixed inside the clamping hole 33, the rotating shaft 31 drives the rotating ring 32 to rotate, so that the coiled material outside the stress mechanism 34 is rolled, the friction mechanism w3 is fixed through the elasticity of the second spring rod w1 when the coiled material is just rolled, the coiled material is clamped through the part penetrating through the clamping hole 33 in the middle of the rubber ring a3, the coiled material is attached to the outer side of the a32 and is compressed through the sealing groove w33, meanwhile, the friction force between the coiled material and the rolling plate w32 is enhanced through the friction groove w34, the coiled material is prevented from idling outside the rolling plate w32, the low attaching force is avoided, the temperature difference problem caused by shutdown is prevented, and the thickness of the coiled.

The technical scheme of the invention is utilized, or a similar technical scheme is designed by a person skilled in the art based on the inspiration of the technical scheme of the invention, so that the technical effects are achieved, and the technical scheme and the method fall into the protection scope of the invention.

Claims (6)

1. The utility model provides a polyvinyl chloride turn-up production facility, its structure includes control button (1), circulator (2), coiling mechanism (3), control button (1) inlays admittedly on circulator (2) surface, coiling mechanism (3) inlays admittedly in circulator (2) inside side, its characterized in that:

coiling mechanism (3) are equipped with axis of rotation (31), rotating ring (32), block hole (33), atress mechanism (34), laminating mechanism (35) welding is in axis of rotation (31) outside, block hole (33) laminating is in the rotating ring (32) outside, atress mechanism (34) block is inside rotating ring (32), the inboard of atress mechanism (34) is inlayed and is fixed in axis of rotation (31) outside, axis of rotation (31) are inlayed and are fixed inside circulator (2).

2. A polyvinyl chloride hemming production apparatus according to claim 1 wherein: laminating mechanism (35) are equipped with slide mechanism (51a), fixed block (52a), first spring beam (53a), slide mechanism (51a) welding is on fixed block (52a) right side, first spring beam (53a) are installed in fixed block (52a) lower extreme, the lower extreme of first spring beam (53a) is inlayed and is fixed in axis of rotation (31) outside.

3. A polyvinyl chloride hemming production apparatus according to claim 2 wherein: slide mechanism (51a) are equipped with elastic plate (a1), bearing (a2), rubber ring (a3), cutting structure (a4), the laminating of elastic plate (a1) is in the bearing (a2) outside, rubber ring (a3) is located same central axis with elastic plate (a1), cutting structure (a4) is located bearing (a2) lower extreme, bearing (a2) is installed on fixed block (52a) surface.

4. A polyvinyl chloride hemming production apparatus according to claim 3 wherein: the cutting structure (a4) is provided with a rubber plate (a41), a supporting plate (a42), a sliding plate (a43) and a cutter (a44), the rubber plate (a41) is attached to the inner side face of the supporting plate (a42), the cutter (a44) is welded to the right side of the supporting plate (a42), the sliding plate (a43) is installed on the surface of the cutter (a44), and the supporting plate (a42) is located at the lower end of the bearing (a 2).

5. A polyvinyl chloride hemming production apparatus according to claim 1 wherein: atress mechanism (34) is equipped with second spring rod (w1), gap plate (w2), friction mechanism (w3), gap plate (w2) laminating is inboard at friction mechanism (w3), second spring rod (w1) welding is inside gap plate (w2), gap plate (w2) and friction mechanism (w3) are located same central axis, second spring rod (w1) are installed in axis of rotation (31) outside.

6. A polyvinyl chloride hemming production apparatus according to claim 5 wherein: friction mechanism (w3) is equipped with atress board (w31), rolling board (w32), seal groove (w33), friction groove (w34), friction groove (w34) are located rolling board (w32) outside, seal groove (w33) are inlayed and are fixed in rolling board (w32) inside centre, rolling board (w32) laminating is in atress board (w31) outside, atress board (w31) and clearance plate (w2) clearance fit.

Images