CN216335628U - Inclined material receiving type slitting device - Google Patents

Abstract

The utility model belongs to the technical field of film slitting equipment, and particularly relates to an inclined material receiving type slitting device which comprises a machine base, a slitting mechanism, a leveling mechanism and an inclined material receiving mechanism; the splitting mechanism is arranged on the base and is used for splitting the film body to be split; the leveling mechanism is arranged on the machine base and is used for leveling the edge of the end face of the film body cut and molded by the cutting mechanism; the inclined material receiving mechanism comprises an installation support, a first transmission roller and a material receiving assembly; the installing support includes installing frame and connecting axle, and the installing frame is fixed to be set up on the lateral wall of frame and the installing frame is the tilt state setting, and the quantity of connecting axle equals with first drive roll, and the multiunit connecting axle sets gradually in the installing frame, and the length of first drive roll is far less than the connecting axle. Divide the material through the feed cylinder that the slope distributes and set up, make single slitting can export alone, avoid the skew of slitting and overlap back mutual interference, influence the slitting, improved the slitting effect effectively, guarantee the membrane body quality, be favorable to enterprise development.

Description

Inclined material receiving type slitting device

Technical Field

The utility model belongs to the technical field of film slitting equipment, and particularly relates to an inclined material receiving type slitting device.

Background

A slitting machine is a device for longitudinally slitting wide roll materials. Therefore, the word is used in all industries, and people can understand the use range.

For the section paper category: this is also the mainstream product in current packaging equipment, and the packaging market is often seen; for slitting metal coils: such as strip steel, stainless steel and copper … …, which are mainly used in steel processing factories (steel market operators, steel rolling factories, electrical appliance industry, automobiles, stamping parts and the like); the method is used for industries needing sectional leather, cloth, plastic, thin film and the like.

The slitting machine is a device comprising uncoiling (unreeling), guiding and positioning, slitting and slitting, coiling (reeling) and the like. The main function is to cut the wide coil material into narrow coils with certain size along the length direction, and prepare for other processing procedures in the future; the device has the advantages of reasonable layout, convenient operation, high automation degree, high production efficiency and high working precision, and can be used for processing various cold-rolled and hot-rolled coil plates, silicon steel plates, stainless steel plates, color plates, aluminum plates and various electroplated or coated metal plates; the method is widely applied to the metal plate processing industries of automobiles, agricultural vehicles, containers, household appliances, packaging, building materials and the like.

However, the winding mechanisms corresponding to the plurality of groups of film bodies cut and formed in the traditional slitting machine are arranged at intervals in parallel, the gaps are small, when the film bodies slightly deviate, the two adjacent formed film bodies are mutually interfered, the winding effect is seriously influenced, and the enterprise development is not facilitated.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an inclined material receiving type slitting device, and aims to solve the technical problems that in the slitting device in the prior art, when a film body slightly deviates, two adjacent rolled film bodies interfere with each other, the rolling effect is seriously influenced, and the enterprise development is not facilitated.

In order to achieve the above purpose, the embodiment of the utility model provides an inclined material receiving type slitting device, which comprises a machine base, a slitting mechanism, a leveling mechanism and an inclined material receiving mechanism, wherein the slitting mechanism is arranged on the machine base; the slitting mechanism is arranged on the machine base and is used for slitting the film bodies to be slit; the leveling mechanism is arranged on the machine base and is used for leveling the edge of the end face of the film body cut and molded by the cutting mechanism; the inclined material receiving mechanism comprises an installation support, a plurality of groups of first transmission rollers and a material receiving assembly, wherein the installation support is arranged on the base, the plurality of groups of first transmission rollers are rotatably connected to the installation support, and the material receiving assembly is arranged at the bottom of the base and is positioned below the installation support; wherein, the installing support includes installing frame and connecting axle, the installing frame is fixed to be set up just on the lateral wall of frame the installing frame is the tilt state setting, the quantity of connecting axle with first drive roll equals, and the multiunit the connecting axle sets gradually in the installing frame, the length of first drive roll is far less than the connecting axle, all first drive roll is echelonment dislocation one by one and rotates the connection and correspond on the connecting axle.

Optionally, the first driving roller comprises a first pushing piece, a first connecting sleeve, a first telescopic assembly and a first driving conical ring, the first connecting sleeve is tightly matched and connected with a preset position of the connecting shaft, the first telescopic assembly is arranged on the first connecting sleeve, the output end of the first telescopic component can move back to the first connecting sleeve in a linear way so as to be abutted against the side wall of the inner ring of the film rolling body, the first driving conical ring is connected on the first connecting sleeve in a sliding manner, one end of the first driving conical ring is connected with the output end of the first pushing piece, the other end of the first driving conical ring is abutted against the output end of the first telescopic component, a containing groove for containing the first driving conical ring is formed between the output end of the first telescopic component and the body, the output end of the first telescopic component and the moving direction of the first driving conical ring are arranged in a staggered mode.

Optionally, the first telescopic assembly includes a first fixing column, a first elastic unit, a first limiting block and a first abutting seat, the first fixing column is fixedly disposed on the first connecting sleeve, the first limiting block is fixedly disposed at an end portion of the first fixing column far away from the first connecting sleeve, the first abutting seat is slidably connected to the first fixing column, and two ends of the first elastic unit are abutted to the first abutting seat and the first limiting block respectively; the first abutting base comprises a first connecting block and a first abutting block, the first connecting block is connected to the first fixing column in a sliding mode, the number of the first abutting blocks is two, the first abutting blocks are arranged at two ends of the first connecting block respectively, and a sliding groove used for containing the first fixing column, the first elastic unit and the first limiting block is formed between the first abutting blocks.

Optionally, the number of the first fixing columns is multiple, multiple groups of the first fixing columns are sequentially connected to the first connecting sleeve at intervals, and the first abutting seat is slidably connected to all the first fixing columns.

Optionally, an end of the first abutting block close to the first driving conical ring is provided with a first inclined end surface, an end of the first driving conical ring close to the first abutting block is provided with a second inclined end surface, and the first inclined end surface and the second inclined end surface are parallel to each other.

Optionally, the number of the first telescopic assemblies is at least two, all the first telescopic assemblies surround the circumferential side wall of the first connecting sleeve and are uniformly distributed, and a movable gap is formed between every two adjacent groups of the first telescopic assemblies.

Optionally, leveling mechanism includes first compression roller, second compression roller, drive assembly and synchronous driving source, first compression roller with the second compression roller rotates to be connected on the frame and is located the upper and lower both sides in film body removal route, the setting of synchronous driving source is in on the frame, the output of synchronous driving source with first compression roller drive is connected, drive assembly's input and output respectively with first compression roller with the second compression roller is connected.

Optionally, the transmission assembly comprises a mounting substrate, a first synchronous wheel, a second synchronous wheel, a transfer synchronous wheel, a transmission shaft, a first synchronous belt and a second synchronous belt, the mounting substrate is fixedly arranged on the base and positioned at one end of the first pressing roller and one end of the second pressing roller, the mounting substrate is rotationally connected to the first press roller and the second press roller, the number of the transfer synchronizing wheels is two, the two transfer synchronizing wheels are rotationally connected to the mounting substrate through a transmission shaft in sequence, the first synchronizing wheel and the second synchronizing wheel are respectively connected with the end parts of the first pressing roller and the second pressing roller in a tight fit manner, the first synchronous belt is rotationally connected between the first synchronous road and a transfer synchronous wheel, the second synchronous belt is rotatably connected between the second synchronous wheel and the other transfer synchronous wheel.

Optionally, the transmission subassembly includes mounting substrate, first transmission ring gear, second transmission ring gear and transfer drive gear, first transmission ring gear with second transmission ring gear tight fit connection respectively is in first compression roller with on the second compression roller, mounting substrate sets up just be located on the frame first compression roller with the one end of second compression roller, mounting substrate rotates to be connected first compression roller with the second compression roller, transfer drive gear rotates to be connected on the mounting substrate, first transmission ring gear with second transmission ring gear respectively with transfer drive gear meshes.

Optionally, receive the material subassembly including receiving material driving source, support frame and receiving the material axle, the quantity of receiving the material axle is the multiunit, and the multiunit it connects to receive the material axle to rotate on the support frame, receive the quantity of material axle with the quantity of first driving roller equals and is used for the rolling to correspond the membrane body of first driving roller output, receive the material driving source with receive the material axle drive and connect.

One or more technical solutions in the oblique material-receiving type slitting device provided by the embodiment of the present invention have at least one of the following technical effects: the film bodies are cut into preset sizes by the cutting mechanism, the edges of the cut film bodies with multiple groups of small sizes are leveled by the leveling mechanism, and the leveled film bodies are respectively conveyed to the material receiving assembly one by the first driving rollers arranged on the inclined mounting frame of each group; compared with the technical problem that winding is affected due to the fact that winding parts of the slitting equipment are sequentially arranged and adjacent coiled materials interfere with each other when a winding roller deflects in the prior art, the inclined material receiving type slitting device provided by the embodiment of the utility model divides materials through the obliquely distributed material dividing cylinders, so that single slitting can be output independently, the influence on slitting due to the fact that the slitting deflects and is overlapped and then interfered with each other is avoided, the slitting effect is effectively improved, the quality of a film body is guaranteed, and the development of enterprises is facilitated.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a schematic structural view of an inclined material receiving type slitting device provided in an embodiment of the present invention.

Fig. 2 is a plan view along the inclined take-up slitting device in fig. 1.

Fig. 3 is a schematic structural diagram of a first driving roller according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of the first driving roller provided by the embodiment of the utility model when being tensioned.

Fig. 5 is a schematic structural diagram of a tensioning mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a transmission assembly according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a transmission assembly according to another embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

10-machine base 20-slitting mechanism 30-leveling mechanism

40-inclined material receiving mechanism 41-mounting bracket 42-first driving roller

43-material receiving assembly 411-mounting frame 412-connecting shaft

413-connecting rod 421-first connecting sleeve 422-first telescopic component

423-first driving cone ring 424-first fixed column 425-first elastic unit

426-first stopper 427-first abutting seat 428-first connecting block

429-first abutment block 31-first press roll 32-second press roll

331-mounting base plate 332-first synchronizing wheel 333-second synchronizing wheel

334-transfer synchronizing wheel 335-first synchronous belt 336-second synchronous belt

431-support frame 432-material receiving shaft 50-tensioning mechanism

51-second connecting sleeve 52-second telescopic component 53-second driving conical ring

54-pressure sensor 521-second fixed column 522-second elastic unit

523-second limiting block 524-second abutting seat 525-second connecting block

526-second abutment block 33-transmission assembly.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to fig. 1-7 are exemplary and intended to be used to illustrate embodiments of the utility model, and should not be construed as limiting the utility model.

In the description of the embodiments of the present invention, it should be understood that the terms "length", "width", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the embodiments of the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," "fixed," and the like are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. Specific meanings of the above terms in the embodiments of the present invention can be understood by those of ordinary skill in the art according to specific situations.

In one embodiment of the present invention, as shown in fig. 1 to 7, an inclined material collecting type slitting device is provided, which includes a machine base 10, a slitting mechanism 20, a leveling mechanism 30 and an inclined material collecting mechanism 40; the slitting mechanism 20 is arranged on the machine base 10 and is used for slitting the film bodies to be slit; the leveling mechanism 30 is arranged on the machine base 10 and is used for leveling the edge of the end face of the film body cut and molded by the slitting mechanism 20; the inclined material receiving mechanism 40 comprises an installation support 41, a plurality of groups of first driving rollers 42 and material receiving assemblies 43, wherein the installation support 41 is arranged on the machine base 10, the plurality of groups of first driving rollers 42 are rotatably connected to the installation support 41, and the material receiving assemblies 43 are arranged at the bottom of the machine base 10 and below the installation support 41; wherein, installing support 41 includes installing frame 411 and connecting axle 412, installing frame 411 is fixed to be set up on the lateral wall of frame 10 just installing frame 411 is the tilt state setting, the quantity of connecting axle 412 with first drive roller 42 equals, the multiunit connecting axle 412 sets gradually in the installing frame 411, the length of first drive roller 42 is far less than connecting axle 412, all first drive roller 42 is the echelonment dislocation one-by-one and rotates the connection and correspond on the connecting axle 412.

In this embodiment, the both ends of installing frame 411 are provided with respectively and are used for connecting the connecting rod 413 of frame 10 lateral wall, connecting rod 413 with the border intermediate position fixed connection of installing frame 411, cut the device including the tradition of dividing cutter wheel and driving roller axle of mechanism 20, cut the structure that the device is technological shaping and technological maturity, and this embodiment is no longer repeated.

Specifically, the working principle of the slitting device is as follows: the splitting mechanism 20 splits the film body into preset sizes, the leveling mechanism 30 levels the edges of the split groups of small-size film bodies, and the first driving rollers 42 arranged on the inclined mounting frame 411 respectively convey the leveled film bodies to the material receiving assembly 43 one by one; compared with the technical problem that winding is affected due to the fact that winding parts of the slitting equipment are sequentially arranged and adjacent coiled materials interfere with each other when a winding roller deflects in the prior art, the inclined material receiving type slitting device provided by the embodiment of the utility model divides materials through the obliquely distributed material dividing cylinders, so that single slitting can be output independently, the influence on slitting due to the fact that the slitting deflects and is overlapped and then interfered with each other is avoided, the slitting effect is effectively improved, the quality of a film body is guaranteed, and the development of enterprises is facilitated.

As shown in fig. 3 to 4, in another embodiment of the present invention, the first driving roller 42 includes a first pushing member, a first connecting sleeve 421, a first telescopic assembly 422 and a first driving cone 423, the first connecting sleeve 421 is tightly fitted and connected to a predetermined position of the connecting shaft 412, the first telescopic assembly 422 is disposed on the first connecting sleeve 421, an output end of the first telescopic assembly 422 can move linearly away from the first connecting sleeve 421 to abut against an inner ring side wall of a film roll body, the first driving cone 423 is slidably connected to the first connecting sleeve 421, one end of the first driving cone 423 is connected to the output end of the first pushing member, the other end of the first driving cone 423 abuts against the output end of the first telescopic assembly 422, an accommodating groove for accommodating the first driving cone 423 is formed between the output end of the first telescopic assembly 422 and the body, the output end of the first telescopic assembly 422 and the moving direction of the first driving conical ring 423 are arranged in a staggered manner, in this embodiment, the first pushing member is a cylinder, and meanwhile, an arc-shaped end surface is formed at the output end of the first telescopic assembly 422, which is close to the end surface of the membrane body, so that the output end of the first telescopic assembly 422 is prevented from puncturing the membrane body.

In particular, the tensioning principle of the first drive roller 42: when the film body needs to be tensioned, the first driving conical ring 423 drives the first telescopic assembly 422 to move, the first driving conical ring 423 is abutted against and drives the output end of the first telescopic assembly 422 to move back to the first connecting sleeve 421, so that the shaft diameter of the whole first transmission roller 42 is increased, and tensioning is realized; compared with the technical problems that the traditional transmission structure of the splitting device is fixedly arranged, and the shaft diameter adjustment cannot be realized aiming at the looseness of the film body during the transmission, so that the film body transmission effect is poor, the splitting process is not facilitated to be carried out, and the development of enterprises is influenced.

In other embodiments, the first drive roller 42 may be an inflatable shaft structure consisting of an air bag, an aluminum tab, and a hollow shaft body.

As shown in fig. 3 to 4, in another embodiment of the present invention, the first telescopic assembly 422 includes a first fixing post 424, a first elastic unit 425, a first limiting block 426 and a first abutting seat 427, the first fixing post 424 is fixedly disposed on the first connecting sleeve 421, the first limiting block 426 is fixedly disposed on an end portion of the first fixing post 424 far from the first connecting sleeve 421, the first abutting seat 427 is slidably connected to the first fixing post 424, and two ends of the first elastic unit 425 abut against the first abutting seat 427 and the first limiting block 426 respectively; the first abutting seats 427 include first connecting blocks 428 and first abutting blocks 429, the first connecting blocks 428 are slidably connected to the first fixing posts 424, the number of the first abutting blocks 429 is two, the two first abutting blocks 429 are respectively disposed at two ends of the first connecting blocks 428, sliding grooves for accommodating the first fixing posts 424, the first elastic units 425 and the first limiting blocks 426 are formed between the two first abutting blocks 429, and the first abutting seats 427 are integrally disposed in a concave structure, in this embodiment, the arc-shaped end surfaces are formed on the first abutting blocks 429.

As shown in fig. 3 to 4, in another embodiment of the present invention, the number of the first fixing posts 424 is multiple, the multiple sets of the first fixing posts 424 are sequentially connected to the first connecting sleeve 421 at intervals, and the first abutting seats 427 are slidably connected to all the first fixing posts 424, so as to improve the moving stability of the first abutting seats 427.

In another embodiment of the present invention, as shown in fig. 3-4, the end of the first abutment block 429 adjacent to the first drive cone 423 is provided with a first angled end surface, the end of the first driving cone 423 near the first abutment block 429 is provided with a second inclined end surface, the first inclined end surface and the second inclined end surface are parallel to each other, specifically, the end of the first driving cone ring 423 close to the first abutting block 429 is gradually narrowed to form the second inclined end surface, the end of the first abutting block 429 close to the first connecting sleeve 421 is gradually narrowed to form the first inclined end surface, in this embodiment, a fixed cone ring is further fixedly disposed at an end of the first connection sleeve 421 away from the first driving cone ring 423, the end portion of the first fixed cone ring close to the first abutting block 429 is gradually narrowed to form a fifth inclined end face which is used for being tightly attached to the first inclined end face.

As shown in fig. 3 to 4, in another embodiment of the present invention, the number of the first telescopic assemblies 422 is at least two, all the first telescopic assemblies 422 are uniformly distributed around the circumferential side wall of the first connecting sleeve 421, a movable gap is provided between two adjacent sets of the first telescopic assemblies 422, and in this embodiment, the number of the first telescopic assemblies 422 is three.

As shown in fig. 6 to 7, in another embodiment of the present invention, the leveling mechanism 30 includes a first pressing roller 31, a second pressing roller 32, a transmission assembly 33 and a synchronous driving source, the first pressing roller 31 and the second pressing roller 32 are rotatably connected to the frame 10 and located at the upper and lower sides of the moving path of the film body, the synchronous driving source is disposed on the frame 10, the output end of the synchronous driving source is drivingly connected to the first pressing roller 31, the input end and the output end of the transmission assembly 33 are respectively connected to the first pressing roller 31 and the second pressing roller 32, and in this embodiment, the gap between the first pressing roller 31 and the second pressing roller 32 is slightly smaller than the thickness of the film body.

Specifically, the synchronous driving source drives the first pressing roller 31 to rotate, the first pressing roller 31 drives the second pressing roller 32 to rotate through the transmission assembly 33, and the first pressing roller 31 and the second pressing roller 32 simultaneously act on the film body output by the slitting mechanism 20; compared with the technical problem that the slit film body is curled and still rolled to be formed due to wrinkling of the edge of the slit film body after the film body is slit by a traditional slitting device directly, the technical problem that the quality of the film body is seriously affected is solved.

As shown in fig. 6 to 7, in another embodiment of the present invention, the transmission assembly 33 includes a mounting substrate 331, a first synchronizing wheel 332, a second synchronizing wheel 333, a transfer synchronizing wheel 334, a transmission shaft, a first synchronizing belt 335 and a second synchronizing belt 336, the mounting substrate 331 is fixedly disposed on the machine base 10 and is located at one end of the first pressing roller 31 and one end of the second pressing roller 32, the mounting substrate 331 is rotatably connected to the first pressing roller 31 and the second pressing roller 32, the number of the transfer synchronizing wheels 334 is two, the two transfer synchronizing wheels 334 are rotatably connected to the mounting substrate 331 through the transmission shaft, the first synchronizing wheel 332 and the second synchronizing wheel 333 are respectively tightly fitted to the ends of the first pressing roller 31 and the second pressing roller 32, the first synchronizing belt 335 is rotatably connected between the first synchronizing path and the transfer synchronizing wheel 334, the second timing belt 336 is rotatably connected between the second timing wheel 333 and another of the transfer timing wheels 334.

As shown in fig. 6 to 7, in another embodiment of the present invention, the transmission assembly 33 includes a mounting base 331, a first transmission gear ring 337, a second transmission gear ring 338, and a middle transmission gear, the first transmission gear ring 337 and the second transmission gear ring 338 are respectively tightly fitted on the first pressing roller 31 and the second pressing roller 32, the mounting base 331 is disposed on the machine base 10 and located at one end of the first pressing roller 31 and the second pressing roller 32, the mounting base 331 is rotatably connected to the first pressing roller 31 and the second pressing roller 32, the middle transmission gear is rotatably connected to the mounting base 331, and the first transmission gear ring 337 and the second transmission gear ring 338 are respectively engaged with the middle transmission gear.

Specifically, the synchronous driving source is a driving motor.

As shown in fig. 1 and 5, in another embodiment of the present invention, the material receiving assembly 43 includes a material receiving driving source, a supporting frame 431 and a material receiving shaft 432, the number of the material receiving shafts 432 is multiple, the multiple groups of the material receiving shafts 432 are rotatably connected to the supporting frame 431, the number of the material receiving shafts 432 is equal to the number of the first driving rollers 42 and is used for receiving the film bodies output by the first driving rollers 42, and the material receiving driving source is drivingly connected to the material receiving shaft 432.

In another embodiment of the present invention, as shown in fig. 1 and 5, the take-up shaft 432 is provided with a tensioning mechanism 50, the tensioning mechanism 50 comprises a second pushing part, a second connecting sleeve 51, a second telescopic assembly 52, a second driving taper ring 53 and a pressure sensing control assembly, the second connecting sleeve 51 is tightly matched and connected with a preset position of the material receiving shaft 432, the second telescopic assembly 52 is arranged on the second connecting sleeve 51, the output end of the second telescopic assembly 52 can move back to the second connecting sleeve 51 for abutting against the inner ring side wall of the film rolling body, the second driving conical ring 53 is connected to the second connecting sleeve 51 in a sliding manner, one end of the second driving conical ring 53 is connected with the output end of the second pushing member, the other end of the second driving conical ring 53 is abutted with the output end of the second telescopic assembly 52; the pressure sensing control assembly comprises a pressure sensor 54 and a control unit, the pressure sensor 54 is arranged at the output end of the second telescopic assembly 52 and is located on the end surface of the output end of the second telescopic assembly 52, which is abutted to the inner wall of the film rolling body, the control unit is arranged in the machine base 10, the input end of the control unit is connected with the pressure sensor 54, the output end of the control unit is electrically connected with the second pushing piece, in this embodiment, an accommodating groove for accommodating the second driving conical ring 53 is formed between the output end of the second telescopic assembly 52 and the body, the output end of the second telescopic assembly 52 and the moving direction of the second driving conical ring 53 are arranged in a staggered mode, and the control unit is a digital control system.

Specifically, when the pressure of the rolling film acting on the sensing end of the pressure sensor 54 is smaller than a preset pressure parameter value, the control unit controls the second pushing member to drive the second driving conical ring 53 to move along the second connecting sleeve 51 toward the second telescopic assembly 52, so that the output end of the second telescopic assembly 52 moves back to the second connecting sleeve 51, the axial diameter of the integral material receiving shaft 432 is increased, and tensioning is realized; compared with the prior art that the winding part of the slitting device only has the function of rotating, pulling and winding, when the film bodies are slit, a plurality of groups of film bodies are dispersedly conveyed, the winding tension of each winding part is different, and the fixedly arranged winding parts lack shaft diameter adjustment aiming at different tensions, so that the winding effect of the film bodies is poor and the technical problem of being not beneficial to enterprise development is solved.

As shown in fig. 1 and 5, in another embodiment of the present invention, the second telescopic assembly 52 includes a second fixed column 521, a second elastic unit 522, a second limit block 523 and a second abutting seat 524, the second fixed column 521 is fixedly disposed on the second connecting sleeve 51, the second limit block 523 is fixedly disposed at an end of the second fixed column 521 far away from the second connecting sleeve 51, the second abutting seat 524 is slidably connected to the second fixed column 521, and two ends of the second elastic unit 522 abut against the second abutting seat 524 and the second limit block 523 respectively; the second abutting seat 524 includes a second connecting block 525 and a second abutting block 526, the second connecting block 525 is slidably connected to the second fixing column 521, the number of the second abutting blocks 526 is two, the two sets of the second abutting blocks 526 are respectively disposed at two ends of the second connecting block 525, a sliding groove for accommodating the second fixing column 521, the second elastic unit 522 and the second limiting block 523 is formed between the two sets of the second abutting blocks 526, and the pressure sensor 54 is fixedly disposed on an end surface of the second abutting block 526 close to the membrane body.

The first elastic unit 425 and the second elastic unit 522 are compression springs

As shown in fig. 1 and 5, in another embodiment of the present invention, the number of the second fixing columns 521 is multiple, the multiple sets of the second fixing columns 521 are sequentially connected to the second connection sleeve 51 at intervals, and the second abutting seat 524 is slidably connected to all the second fixing columns 521.

In another embodiment of the present invention, as shown in fig. 1 and 5, a third inclined end surface is disposed at an end of the second abutment block 526 close to the second driving cone ring 53, a fourth inclined end surface is disposed at an end of the second driving cone ring 53 close to the second abutment block 526, and the fourth inclined end surface and the third inclined end surface are parallel to each other.

As shown in fig. 1 and 5, in another embodiment of the present invention, the number of the second telescopic assemblies 52 is at least two, all the second telescopic assemblies 52 are uniformly distributed around the circumferential sidewall of the second connecting sleeve 51, and a movable gap is provided between two adjacent sets of the second telescopic assemblies 52.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides an incline and receive material type slitting device which characterized in that includes:

a machine base;

the splitting mechanism is arranged on the machine base and is used for splitting the film body to be split;

the leveling mechanism is arranged on the machine base and is used for leveling the edge of the end face of the film body cut and molded by the cutting mechanism;

the inclined material receiving mechanism comprises an installation support, a plurality of groups of first transmission rollers and a material receiving assembly, wherein the installation support is arranged on the base, the plurality of groups of first transmission rollers are rotatably connected to the installation support, and the material receiving assembly is arranged at the bottom of the base and is positioned below the installation support;

wherein, the installing support includes installing frame and connecting axle, the installing frame is fixed to be set up just on the lateral wall of frame the installing frame is the tilt state setting, the quantity of connecting axle with first drive roll equals, and the multiunit the connecting axle sets gradually in the installing frame, the length of first drive roll is far less than the connecting axle, all first drive roll is echelonment dislocation one by one and rotates the connection and correspond on the connecting axle.

2. The inclined material receiving type slitting device as claimed in claim 1, wherein: the first driving roller comprises a first pushing piece, a first connecting sleeve, a first telescopic assembly and a first driving conical ring, the first connecting sleeve is tightly matched and connected with a preset position of the connecting shaft, the first telescopic assembly is arranged on the first connecting sleeve, the output end of the first telescopic component can move back to the first connecting sleeve in a linear way so as to be abutted against the side wall of the inner ring of the film rolling body, the first driving conical ring is connected on the first connecting sleeve in a sliding manner, one end of the first driving conical ring is connected with the output end of the first pushing piece, the other end of the first driving conical ring is abutted against the output end of the first telescopic component, a containing groove for containing the first driving conical ring is formed between the output end of the first telescopic component and the body, the output end of the first telescopic component and the moving direction of the first driving conical ring are arranged in a staggered mode.

3. The inclined material receiving type slitting device as claimed in claim 2, wherein: the first telescopic assembly comprises a first fixing column, a first elastic unit, a first limiting block and a first abutting seat, the first fixing column is fixedly arranged on the first connecting sleeve, the first limiting block is fixedly arranged at the end part, far away from the first connecting sleeve, of the first fixing column, the first abutting seat is connected to the first fixing column in a sliding mode, and two ends of the first elastic unit are abutted to the first abutting seat and the first limiting block respectively;

the first abutting base comprises a first connecting block and a first abutting block, the first connecting block is connected to the first fixing column in a sliding mode, the number of the first abutting blocks is two, the first abutting blocks are arranged at two ends of the first connecting block respectively, and a sliding groove used for containing the first fixing column, the first elastic unit and the first limiting block is formed between the first abutting blocks.

4. The inclined material receiving type slitting device as claimed in claim 3, wherein: the first fixing columns are in multiple groups, the multiple groups of first fixing columns are sequentially connected to the first connecting sleeve at intervals, and the first abutting seats are connected with all the first fixing columns in a sliding mode.

5. The inclined material receiving type slitting device as claimed in claim 3, wherein: the first butt piece is close to the tip of first drive awl ring is provided with first slope terminal surface, first drive awl ring is close to the tip of first butt piece is provided with the second slope terminal surface, first slope terminal surface with the second slope terminal surface is parallel to each other.

6. The inclined material receiving type slitting device as claimed in claim 2, wherein: the quantity of first flexible subassembly is at least two sets ofly, all first flexible subassembly centers on the circumference lateral wall evenly distributed of first connecting sleeve, adjacent two sets of be provided with the clearance between the first flexible subassembly.

7. The inclined material receiving and slitting device as claimed in any one of claims 1 to 6, wherein: leveling mechanism includes first compression roller, second compression roller, drive assembly and synchronous drive source, first compression roller with the second compression roller rotates the upper and lower both sides of connecting on the frame and being located the diaphragm body removal route, synchronous drive source sets up on the frame, the output of synchronous drive source with first compression roller drive is connected, drive assembly's input and output respectively with first compression roller with the second compression roller is connected.

8. The inclined material receiving type slitting device as claimed in claim 7, wherein: the transmission assembly comprises a mounting substrate, a first synchronizing wheel, a second synchronizing wheel, a transfer synchronizing wheel, a transmission shaft, a first synchronizing belt and a second synchronizing belt, the mounting substrate is fixedly arranged on the machine base and located at one end of the first compression roller and one end of the second compression roller, the mounting substrate is rotatably connected to the first compression roller and the second compression roller, the number of the transfer synchronizing wheels is two, the transfer synchronizing wheels are connected to the mounting substrate in a rotating mode through the transmission shaft, the first synchronizing wheel and the second synchronizing wheel are respectively connected to the end portions of the first compression roller and the end portions of the second compression roller in a tight fit mode, the first synchronizing belt is rotatably connected to the first synchronizing path and the second synchronizing wheel, and the second synchronizing wheel is rotatably connected to the second synchronizing wheel and the other transfer synchronizing wheel.

9. The inclined material receiving type slitting device as claimed in claim 7, wherein: the transmission assembly comprises a mounting substrate, a first transmission toothed ring, a second transmission toothed ring and a transfer transmission gear, the first transmission toothed ring is connected with the second transmission toothed ring in a close-fitting mode respectively on the first compression roller and the second compression roller, the mounting substrate is arranged on the machine base and located on the first compression roller and one end of the second compression roller, the mounting substrate is connected in a rotating mode through the first compression roller and the second compression roller, the transfer transmission gear is connected on the mounting substrate in a rotating mode, and the first transmission toothed ring is connected with the second transmission toothed ring respectively in a meshing mode through the transfer transmission gear.

10. The inclined material receiving type slitting device as claimed in claim 2, wherein: receive the material subassembly including receiving material driving source, support frame and receipts material axle, the quantity of receiving the material axle is the multiunit, the multiunit it connects to receive the material axle to rotate on the support frame, receive the material axle the quantity with the quantity of first drive roll equals and is used for the rolling to correspond the film body of first drive roll output, receive the material driving source with it connects to receive the material axle drive.

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