Non-woven bag machine coiled material feed mechanism
Technical Field
The invention relates to the technical field of coiled material feeding devices, in particular to a coiled material feeding mechanism of a non-woven fabric bag machine.
Background
The non-woven fabric bag machine consists of an ultrasonic generator and a roller, wherein the ultrasonic generator releases heat to destroy molecular combination in materials, the melting of the materials is caused on a bonding point, two or more layers of the materials are bonded together under lower static force by using mechanical pressure, and finally the non-woven fabric bag is produced, wherein the coiled materials are heavier, and a special feeding mechanism is required to be used for automatically feeding the coiled materials before the non-woven fabric bag is bonded.
Because part non-woven fabrics sack processing technology is complicated, need bond multiple different materials, and the automatic feeding of coiled material can only be realized mostly to current non-woven fabrics sack coiled material feed mechanism, and be difficult to carry out quick replacement to the coiled material in the difference in a flexible way, cause the change of coiled material still to need staff's manual implementation, lead to current material loading structural functionality not enough, degree of automation is limited, consequently, for solving above-mentioned problem, this application has provided a non-woven fabrics sack coiled material feed mechanism.
Disclosure of Invention
An object of this application is to provide a non-woven fabrics bag machine coiled material feed mechanism to solve the problem that proposes among the above-mentioned background art.
In order to achieve the above purpose, the present application provides the following technical solutions: the utility model provides a non-woven fabrics bag machine coiled material feed mechanism, including feed mechanism base, fixed connection in the conversion support at feed mechanism base top, set up in the coiled material reel at feed mechanism base top, it is connected with coiled material conversion roller to rotate on the conversion support, install the automatic feeding portion that is used for different coiled material loadings on the lateral wall of conversion support, automatic feeding portion with the feed mechanism base the coiled material conversion roller the coiled material reel is connected, the coiled material reel the position of automatic feeding portion is corresponding, blowing unit and pay-off unit are installed at the top of feed mechanism base, the blowing unit with the pay-off unit is located respectively the both sides of conversion support and all with the coiled material reel is connected.
Borrow by above-mentioned structure, through the coiled material conversion roller, the setting of automatic feeding portion, make automatic feeding portion can be so that place the coiled material on the device fast accurately, accessible drive coiled material conversion roller is rotatory again carries out the position transform to filling the coiled material on the coiled material conversion roller, thereby change the coiled material of different kind in a flexible way, and utilize the high automatic type of automatic feeding portion to realize the automatic feeding of coiled material, accelerate the production process of non-woven bag, be convenient for carry out blowing and pay-off to the coiled material through the setting of blowing unit and pay-off unit.
Preferably, automatic feeding portion include fixed connection in conversion motor on the conversion support lateral wall, the output drive of conversion motor is connected with the conversion transmission shaft, install the conversion roller reduction gear on the conversion transmission shaft, the conversion roller reduction gear with coiled material conversion roller fixed connection, a plurality of evenly distributed's coiled material conversion unit is installed to the week side of coiled material conversion roller, blowing unit and pay-off unit are installed at the top of feed mechanism base, the blowing unit with the pay-off unit is located respectively the both sides of conversion support, coiled material conversion unit the blowing unit with the pay-off unit all with the coiled material reel is connected.
Further, through the conversion motor, the conversion transmission shaft, the conversion roller reduction gear, coiled material conversion unit, the blowing unit, feeding unit's setting, make on can having the coiled material reel transport blowing unit of coiled material by the staff with the winding, and transport the coiled material to one side of coiled material conversion roller by the blowing unit, recycle coiled material conversion unit and install, make different kinds of coiled materials load on the coiled material conversion roller, thereby before the material loading, conversion motor drive coiled material conversion roller is rotatory, thereby drive coiled material conversion roller rotation at a slow speed through the conversion roller reduction gear, thereby it shifts to feeding unit one side and carries out the material loading to drive the coiled material that needs the material loading, thereby realize the nimble conversion between the different kinds of coiled material.
Preferably, coiled material conversion unit include fixed connection in two single coiled material installing supports on the coiled material conversion roller lateral wall, rotate on the single coiled material installing support and be connected with the packing lead screw, two fixedly connected with power pole between the packing lead screw, one of them fixedly connected with inserted bar control motor on the lateral wall of single coiled material installing support, inserted bar control motor's output with be located the homonymy the packing lead screw drive is connected, the spiro union has the packing thread bush on the packing lead screw, fixedly connected with packing connecting rod on the lateral wall of packing thread bush, sliding connection has spacing slide bar on the single coiled material installing support, the square inserted bar of one end fixedly connected with of spacing slide bar is located the homonymy the one end fixed connection of packing connecting rod is in on the lateral wall of square inserted bar, the both sides of coiled material reel all rotate and are connected with reel installation pole, square slot has been seted up to the one end of reel installation pole.
Further, through single coiled material installing support, the packing lead screw, the packing thread bush, the filler link, spacing slide bar, square inserted bar, inserted bar control motor, the power pole, the reel installation pole, square slot's setting, make when the coiled material climbs to coiled material converting roller one side, the reel installation pole this moment, square slot just is corresponding with the square inserted bar of this position department, the inserted bar control motor drive of corresponding position department fills the lead screw rotatory, thereby drive two square inserted bars through the packing thread bush and the filler link and be close to each other and insert in the square slot, thereby make the coiled material break away from on the rack and change and install on the coiled material converting roller, thereby accomplish and load.
Preferably, the blowing unit includes the power inclined rail that climbs that sets up in feed mechanism base top, the equal sliding connection in both sides of the power inclined rail that climbs has the slider that climbs, the top fixedly connected with of slider that climbs the connecting rod, the top fixedly connected with rack of connecting rod that climbs.
Further, through the setting of the power rail chute that climbs, the slider that climbs, the connecting rod that climbs, the rack for before the material loading, the staff places the coiled material transport on the power rail chute that climbs, thereby make the power rail chute that climbs drive the slider that climbs through the connecting rod that climbs, the rack drives the coiled material and climbs, thereby be convenient for load and change different kinds of coiled materials, the rack is close with the high ground potential difference of coiled material, but furthest saves staff's physical power, thereby reduce staff's intensity of labour.
Preferably, the pay-off unit include fixed connection in two lift power slide rails at feed mechanism base top, two sliding connection has the lift slide bar between the lift power slide rail, two pay-off supports of fixedly connected with on the lateral wall of lift slide bar, two rotate on the pay-off support and be connected with pay-off stud lead screw, the equal spiro union in both ends of pay-off stud lead screw has pay-off thread bush, fixedly connected with pay-off connecting rod on the lateral wall of pay-off thread bush, fixedly connected with pay-off slide bar on the one end lateral wall of pay-off connecting rod, the bottom fixedly connected with pay-off slip jack catch of pay-off slide bar, fixedly connected with C shape picture peg on the lateral wall of reel installation pole, fixedly connected with pay-off motor on the lateral wall of lift slide bar, pay-off motor's output with the one end drive of pay-off stud lead screw is connected.
Further, through the arrangement of the lifting power slide rail, the lifting slide bar, the feeding support, the feeding double-ended lead screw, the feeding thread sleeve, the feeding connecting rod, the feeding slide bar, the feeding sliding jaw and the feeding motor, when the coiled material rotates to one side of the lifting power slide rail, the C-shaped inserting plate on the winding drum mounting rod moves to the top along with the winding drum mounting rod, the lifting power slide rail drives the lifting slide bar to slide downwards to drive the feeding sliding jaw to be sleeved at the top of the winding drum mounting rod, then the feeding motor drives the feeding double-ended lead screw to rotate, the feeding sliding jaws on two sides are driven by the feeding thread sleeve and the feeding connecting rod to slide into the C-shaped inserting plate, the inserting rod control motor drives the square inserting rod to be drawn out from the square inserting groove at the moment, the coiled material is transferred onto the feeding sliding jaw and ascends along with the sliding of the lifting slide bar, so that the automatic feeding is completed, and the coiled material feeding is very convenient.
Preferably, both sides of the climbing power inclined rail are rotatably connected with a plurality of guide rollers, the top of the feeding mechanism base is provided with two guide grooves, and the guide rollers positioned on the same side are positioned in the guide grooves.
Furthermore, through the arrangement of the guide rollers and the guide grooves, the guide rollers can be convenient for workers to push the climbing power inclined rail, the phenomenon that the distance between the climbing power inclined rail and other devices is too close to influence the conversion of coiled materials is avoided, the guide grooves can limit and guide the motion of the guide rollers and the climbing power inclined rail, and the position deviation of the climbing power inclined rail is avoided.
Preferably, the top of the feeding mechanism base is fixedly connected with a positioning baffle, a C-shaped positioning groove is formed in the side wall of the winding drum installation rod, and the C-shaped positioning groove located on the same side corresponds to the position of the placing frame.
Further, through the setting of C shape constant head tank, rack for C shape constant head tank and rack have played the positioning action, make the staff can place the coiled material on the rack more fast accurately, can prevent simultaneously that the coiled material from causing the coiled material skew to influence the material loading at the in-process lateral sliding that climbs on climbing power inclined rail.
Preferably, a limiting jaw is fixedly connected to the side wall of the feeding threaded sleeve, and the limiting jaw is slidably connected with the lifting slide rod.
Furthermore, through the arrangement of the limiting clamping jaws, the limiting clamping jaws can limit the movement of the feeding threaded sleeve, so that the feeding threaded sleeve can smoothly and transversely move.
Preferably, a connecting rod passing groove is formed in the inner wall of the top of the C-shaped inserting plate, and the connecting rod passing groove located on the same side corresponds to the feeding sliding rod.
Furthermore, through the setting of connecting rod through the groove for when installing the material loading with the coiled material, the pay-off slide bar can slide in the connecting rod passes through the groove and can not blockked by C shape picture peg, avoids the installation of coiled material to receive the hindrance.
In conclusion, the technical effects and advantages of the invention are as follows:
1. according to the invention, when the coiled material rises to one side of the coiled material conversion roller, the insertion rod control motor drives the two square insertion rods to mutually approach and insert into the square insertion grooves, so that the coiled material can be separated from the placing frame and is installed on the coiled material conversion roller, the coiled material conversion roller is driven to rotate to other positions by the conversion motor through the conversion transmission shaft and the conversion roller speed reducer, and the next coiled material filling is continued, so that the flexible conversion among different coiled materials is realized.
2. According to the invention, before loading, a worker carries the coiled material winding drum wound with coiled materials, and the C-shaped positioning groove on the winding drum mounting rod is aligned with the placing frame, so that the coiled materials are placed on the climbing power inclined rail, the climbing power inclined rail drives the coiled materials to climb, different kinds of coiled materials are conveniently loaded on the coiled material conversion roller, the climbing power inclined rail can be pushed after a single coiled material is loaded, and the phenomenon that the climbing power inclined rail is too close to the coiled material conversion roller, so that the coiled material conversion and the next filling are hindered is prevented.
3. According to the automatic feeding device, during feeding, the conversion motor drives the coiled materials to rotate, the C-shaped inserting plate moves to the top along with the winding drum mounting rod, the lifting power slide rail feeding sliding clamping claw is sleeved at the top of the winding drum mounting rod, then the feeding motor drives the feeding sliding clamping claws on the two sides to slide into the C-shaped inserting plate, the inserting rod controls the motor to drive the square inserting rod to be drawn out, the coiled materials are transferred to the feeding sliding clamping claw and ascend along with the sliding of the lifting slide rod, and therefore automatic feeding is achieved, and the automatic feeding is very convenient.
4. According to the automatic feeding structure, the automatic feeding structure is high in automation degree, automatic replacement, filling and automatic feeding of coiled materials can be completed, a worker only needs to put the coiled materials on the automatic feeding structure when the placing frame moves to the bottom of the climbing power inclined rail, the placing frame is close to the high ground level of the coiled materials, physical strength of the worker can be saved to the maximum extent, labor intensity of the worker is reduced, feeding speed of the coiled materials is increased through high automation, and production process of the non-woven cloth bag is accelerated.
5. According to the invention, the feeding structure adopts the mode that the square insertion rods and the square insertion grooves are mutually inserted and the feeding sliding clamping jaws and the C-shaped insertion plates are mutually inserted to install the coiled materials, so that the stability is higher compared with the traditional clamping jaw clamping mode, the accident that the coiled materials fall can be effectively reduced, the C-shaped positioning grooves and the placing rack play a role in positioning, the coiled materials can be placed on the placing rack more quickly and accurately by workers, and meanwhile, the influence on feeding due to the position deviation of the coiled materials can be prevented.
Drawings
In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.
FIG. 1 is a schematic perspective view of a feeding mechanism;
FIG. 2 is a schematic view of a matched enlarged three-dimensional structure of a climbing power ramp and a coiled material drum;
FIG. 3 is a schematic view of a matched enlarged three-dimensional structure of a climbing power inclined rail and a placing rack;
FIG. 4 is an enlarged perspective view of a roll of coiled material;
FIG. 5 is a schematic view of an enlarged three-dimensional configuration of the converting bracket and the web converting roller;
FIG. 6 is an enlarged schematic view of the structure at A in FIG. 5;
FIG. 7 is a schematic view of a matched enlarged three-dimensional structure of a lifting power slide rail and a feeding slide jaw;
fig. 8 is a schematic view of a matched enlarged three-dimensional structure of a feeding motor and a feeding sliding jaw.
Reference numerals: 1. a feed mechanism base; 2. a conversion bracket; 3. a web transfer roller; 4. a switching motor; 5. converting a transmission shaft; 6. a change-over roller reducer; 7. a single coil mounting bracket; 8. filling a screw rod; 9. filling the thread bushing; 10. filling the connecting rod; 11. a limiting slide bar; 12. a square inserted link; 13. the inserted link controls the motor; 14. a power rod; 15. climbing a power ramp; 16. climbing a sliding block; 17. climbing connecting rods; 18. placing a rack; 19. a roll of coiled material; 20. a reel mounting rod; 21. a square slot; 22. a C-shaped positioning groove; 23. a C-shaped plug board; 24. a guide roller; 25. a guide groove; 26. positioning a baffle plate; 27. lifting the power slide rail; 28. lifting the sliding rod; 29. a feeding support; 30. feeding a double-head screw rod; 31. feeding a threaded sleeve; 32. a feeding connecting rod; 33. a feeding slide bar; 34. feeding sliding clamping jaws; 35. a feeding motor; 36. and a limiting jaw.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
The embodiment is as follows: refer to a non-woven fabrics bag machine coiled material feed mechanism shown in fig. 1-8, including feed mechanism base 1, fixed connection is in the conversion support 2 at 1 top of feed mechanism base, set up in coiled material reel 19 at 1 top of feed mechanism base, it is connected with coiled material conversion roller 3 to rotate on the conversion support 2, install the automatic feeding portion that is used for different coiled material loadings on the lateral wall of conversion support 2, automatic feeding portion and feed mechanism base 1, coiled material conversion roller 3, coiled material reel 19 is connected, coiled material reel 19, the position of automatic feeding portion is corresponding, blowing unit and pay-off unit are installed at the top of feed mechanism base 1, blowing unit and pay-off unit are located the both sides of conversion support 2 respectively and all are connected with coiled material reel 19.
Borrow by above-mentioned structure, through coiled material conversion roller 3, the setting of automatic feeding portion, make automatic feeding portion can be so that place the coiled material on the device fast accurately, accessible drive coiled material conversion roller 3 is rotatory again carries out the position transform to filling the coiled material on coiled material conversion roller 3, thereby change the coiled material of different kinds in a flexible way, and utilize the high automatic type of automatic feeding portion to realize the automatic feeding of coiled material, accelerate the production process of non-woven bags, be convenient for carry out blowing and pay-off to the coiled material through blowing unit and pay-off unit's setting.
As a preferred embodiment of this embodiment, as shown in fig. 1 and 5, the automatic feeding part includes a switching motor 4 fixedly connected to a sidewall of the switching bracket 2, the switching motor 4 may be any servo motor in the prior art, for example, a servo motor with the model of 80st-m02430, the conversion motor 4 can be fixedly connected with the side wall of the conversion bracket 2 in a screw connection mode, the output end of the conversion motor 4 is connected with a conversion transmission shaft 5 in a driving mode, the conversion transmission shaft 5 can be any straight rod in the prior art, for example, a metal straight rod, a conversion transmission shaft 5 can be in driving connection with the output end of a conversion motor 4 in a coupling connection mode, a conversion roller reducer 6 is installed on the conversion transmission shaft 5, the conversion roller reducer 6 is fixedly connected with a coiled material conversion roller 3, a plurality of coiled material conversion units which are uniformly distributed are installed on the peripheral side of the coiled material conversion roller 3, a discharging unit and a feeding unit are installed at the top of a feeding mechanism base 1, the discharging unit and the feeding unit are respectively positioned on two sides of a conversion bracket 2, and the coiled material conversion unit, the discharging unit and the feeding unit are all connected with a coiled material winding drum 19, the coil reel 19 wound with the coil is carried to the discharging unit by the worker, the coil is conveyed to one side of the coil converting roller 3 by the discharging unit, and then the coil converting unit is used for installation, so that different types of coils are loaded on the coil converting roller 3, so that, before feeding, the web-changing roller 3 is driven to rotate by the changing motor 4, thereby driving the web-changing roller 3 to rotate at a reduced speed by the changing-roller reducer 6, thereby the coiled material that drives the material loading needs shifts to feeding unit one side and carries out the material loading to realize the nimble conversion between the different kinds of coiled material.
As a preferred embodiment of this embodiment, as shown in fig. 5 and 6, the coil converting unit includes two single coil mounting brackets 7 fixedly connected to the side wall of the coil converting roller 3, a filling screw 8 is rotatably connected to the single coil mounting brackets 7, the filling screw 8 can be any one of the screws in the prior art, such as a metal screw, the filling screw 8 can be rotatably connected to the single coil mounting brackets 7 by means of a bearing connection, a power rod 14 is fixedly connected between the two filling screws 8, an inserting rod control motor 13 is fixedly connected to the side wall of one of the single coil mounting brackets 7, the inserting rod control motor 13 can be any one of the servo motors in the prior art, such as a servo motor with a model of 80st-m02430, the inserting rod control motor 13 can be fixedly connected to the side wall of the single coil mounting bracket 7 by means of a screw connection, the output end of the inserting rod control motor 13 is drivingly connected to the filling screw 8 located on the same side, threaded sleeve 9 of packing has gone up the spiro union of packing on the packing lead screw 8, fixedly connected with packing connecting rod 10 on the lateral wall of packing threaded sleeve 9, sliding connection has spacing slide bar 11 on single coil stock installing support 7, the square inserted bar 12 of one end fixedly connected with of spacing slide bar 11, the one end fixed connection of the packing connecting rod 10 that is located the homonymy is on the lateral wall of square inserted bar 12, coil reel 19's both sides are all rotated and are connected with reel installation pole 20, square slot 21 has been seted up to the one end of reel installation pole 20, the benefit that sets up like this, when the coiled material climbs to coiled material change-over roll 3 one side, reel installation pole 20 this moment, square slot 21 just is corresponding with the square inserted bar 12 of this position department, it is rotatory to correspond the inserted bar control motor 13 drive packing lead screw 8 of position department, thereby drive two square inserted bars 12 through packing threaded sleeve 9 and packing connecting rod 10 and be close to each other and insert square inserted bar 12 and go into square inserted bar 12 In the slot 21 so that the roll can be removed from the rack 18 and mounted on the roll 3 for completing the filling.
As a preferred embodiment of the present embodiment, as shown in fig. 2 and fig. 3, the discharging unit includes a climbing power ramp 15 disposed on the top of the feeding mechanism base 1, climbing sliders 16 are slidably connected to both sides of the climbing power ramp 15, a climbing connecting rod 17 is fixedly connected to the top of the climbing slider 16, the climbing connecting rod 17 may be any straight rod in the prior art, such as a metal straight rod, the climbing connecting rod 17 may be fixedly connected to the top of the climbing slider 16 by welding, and a placing frame 18 is fixedly connected to the top end of the climbing connecting rod 17, which is advantageous in that before feeding, a worker places a coil on the climbing power ramp 15 in a conveying manner, so that the climbing power ramp 15 drives the climbing slider 16 to climb the coil through the climbing connecting rod 17 and the placing frame 18, thereby facilitating loading and switching of different types of coils, and the placing frame 18 is close to a difference in a high place of the coil, which can maximally save physical strength of the worker, thereby reducing labor intensity of the worker.
As a preferred embodiment of the present embodiment, as shown in fig. 7 and fig. 8, the feeding unit includes two lifting power slide rails 27 fixedly connected to the top of the feeding mechanism base 1, a lifting slide bar 28 is slidably connected between the two lifting power slide rails 27, two feeding brackets 29 are fixedly connected to the side wall of the lifting slide bar 28, a feeding double-headed lead screw 30 is rotatably connected to the two feeding brackets 29, the feeding double-headed lead screw 30 may be any double-headed lead screw in the prior art, such as a metal double-headed lead screw, the feeding double-headed lead screw 30 may be rotatably connected to the feeding brackets 29 by way of bearing connection, feeding thread sleeves 31 are respectively screwed to both ends of the feeding double-headed lead screw 30, a feeding connecting rod 32 is fixedly connected to the side wall of the feeding thread sleeve 31, a feeding slide bar 33 is fixedly connected to the side wall of one end of the feeding connecting rod 32, and a feeding slide jaw 34 is fixedly connected to the bottom end of the feeding slide bar 33, the side wall of the winding drum mounting rod 20 is fixedly connected with a C-shaped inserting plate 23, the side wall of the lifting slide rod 28 is fixedly connected with a feeding motor 35, the output end of the feeding motor 35 is in driving connection with one end of a feeding double-headed screw rod 30, and the arrangement is beneficial in that when a coiled material rotates to one side of the lifting power slide rail 27, the C-shaped inserting plate 23 on the winding drum mounting rod 20 moves to the top along with the winding drum mounting rod 20, the lifting power slide rail 27 drives the lifting slide rod 28 to slide downwards to drive a feeding slide clamping jaw 34 to be sleeved on the top of the winding drum mounting rod 20, then the feeding motor 35 drives the feeding double-headed screw rod 30 to rotate, the feeding slide clamping jaws 34 on two sides are driven by a feeding threaded sleeve 31 and a feeding connecting rod 32 to slide into the C-shaped inserting plate 23, at the moment, the inserting rod control motor 13 drives the square inserting rod 12 to be drawn out from the square slot 21, so that the coiled material is transferred onto the feeding slide clamping jaw 34, and the lifting slide bar 28 is lifted along with the sliding of the lifting slide bar, thereby completing the automatic feeding, which is very convenient.
As a preferred embodiment of this embodiment, as shown in fig. 1 and fig. 2, both sides of the climbing power ramp 15 are rotatably connected with a plurality of guide rollers 24, the top of the feeding mechanism base 1 is provided with two guide grooves 25, and the plurality of guide rollers 24 located on the same side are all located in the guide grooves 25, so that the guide rollers 24 can facilitate a worker to push the climbing power ramp 15, and prevent the climbing power ramp 15 from being too close to other devices to affect coil conversion, and the guide grooves 25 can limit and guide the movement of the guide rollers 24 and the climbing power ramp 15, so as to prevent the climbing power ramp 15 from being shifted in position.
As a preferred implementation manner of this embodiment, as shown in fig. 1 and 4, a positioning baffle 26 is fixedly connected to the top of the feeding mechanism base 1, a C-shaped positioning slot 22 is formed in the side wall of the reel installation rod 20, and the C-shaped positioning slot 22 located on the same side corresponds to the position of the placing rack 18, so that the C-shaped positioning slot 22 and the placing rack 18 have a positioning function, so that a worker can place a coil on the placing rack 18 more quickly and accurately, and can prevent the coil from sliding laterally in the process of climbing on the climbing power ramp 15 to cause coil deviation and affect feeding.
As a preferred embodiment of this embodiment, as shown in fig. 8, a limit jaw 36 is fixedly connected to a side wall of the feeding threaded sleeve 31, and the limit jaw 36 is slidably connected to the lifting slide rod 28, so that the limit jaw 36 can limit the movement of the feeding threaded sleeve 31, so that the feeding threaded sleeve 31 can smoothly move laterally.
As a preferable embodiment of this embodiment, as shown in fig. 4, the top inner wall of the C-shaped inserting plate 23 is provided with a connecting rod passing slot, and the connecting rod passing slot located on the same side corresponds to the position of the feeding slide bar 33, so that the feeding slide bar 33 can slide into the connecting rod passing slot and cannot be blocked by the C-shaped inserting plate 23 when the coiled material is loaded, thereby avoiding the coiled material from being blocked.
The working principle of the invention is as follows: when the coil feeding mechanism is used, as shown in fig. 2, firstly, a worker carries a coil winding drum 19 wound with coils, the C-shaped positioning groove 22 on a drum mounting rod 20 is aligned to the placing frame 18, so that the coils are placed on the climbing power inclined rail 15, the climbing power inclined rail 15 drives the climbing slider 16 to climb through the climbing connecting rod 17, and the placing frame 18 drives the coils to climb, so that different types of coils are conveniently filled and converted, the climbing power inclined rail 15 can be pushed after a single coil is filled, the climbing power inclined rail 15 is prevented from being far away from the conversion support 2, and the coil conversion roller 3 is prevented from being too close to cause obstruction to the conversion and the next filling of the coils.
When a coiled material climbs to the top of the climbing power inclined rail 15, as shown in fig. 1, 5 and 6, the climbing power inclined rail 15 is pushed to enable the climbing power inclined rail 15 to be in contact with a positioning baffle 26 for positioning, at the moment, the winding drum installation rod 20 and the square slot 21 just correspond to the square insertion rod 12 at the position, the insertion rod control motor 13 at the corresponding position drives the filling screw rod 8 to rotate, so that the two square insertion rods 12 are driven to be close to each other through the filling threaded sleeve 9 and the filling connecting rod 10 and are inserted into the square slot 21, the coiled material can be separated from the placing frame 18 to rotate and installed on the coiled material conversion roller 3, the coiled material conversion roller 3 is driven to rotate to other positions through the conversion transmission shaft 5 and the conversion roller reducer 6 by the conversion motor 4, the next coiled material filling is continued, and the flexible conversion among different coiled materials is realized.
The conversion motor 4 drives the coil material conversion roller 3 to drive a coil material to be fed to be transferred to one side of the lifting power slide rail 27, as shown in fig. 7 and fig. 8, at this time, the C-shaped inserting plate 23 on the reel mounting rod 20 moves to the top along with the reel mounting rod 20, the lifting power slide rail 27 drives the lifting slide rod 28 to slide downwards to drive the feeding slide clamping jaws 34 to be sleeved on the top of the reel mounting rod 20, then the feeding motor 35 drives the feeding double-headed lead screw 30 to rotate, the feeding slide clamping jaws 34 on the two sides are driven to slide into the C-shaped inserting plate 23 through the feeding threaded sleeve 31 and the feeding connecting rod 32, at this time, the inserting rod control motor 13 drives the square inserting rod 12 to be drawn out from the square inserting slot 21, so that the coil material is transferred to the feeding slide clamping jaws 34 and ascends along with the sliding of the lifting slide rod 28, thereby completing automatic feeding, which is very convenient.
This automatic feeding structure degree of automation is high, can accomplish the automatic change of coiled material, the automatic feeding of packing and coiled material, and the staff only need move when climbing power inclined rail 15 bottoms at rack 18 with the coiled material put can, this moment rack 18 is close with the high ground potential difference of coiled material, can save staff's physical power by furthest to reduce staff's intensity of labour, and utilize the automation of height to promote the material loading speed of coiled material, and then accelerate the production process of non-woven fabrics bag.
This material loading structure adopts square inserted bar 12, the mode of square slot 21 mutual grafting carries out the conversion installation of coiled material, adopt pay-off slip jack catch 34, the mode of C shape picture peg 23 mutual grafting carries out the material loading installation to the coiled material, these two kinds of mounting means have higher stability than the mode in traditional clamping jaw centre gripping, can effectively reduce the occurence of failure that the coiled material dropped, as shown in figure 3, fig. 4, C shape constant head tank 22 and rack 18 have played the positioning action, make the staff can place the coiled material on rack 18 more accurately fast, can prevent the in-process lateral sliding that the coiled material climbed on climbing power inclined rail 15 simultaneously, cause the coiled material skew to influence the material loading.
Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still make modifications to the technical solutions described in the foregoing embodiments, or make equivalent substitutions and improvements to part of the technical features of the foregoing embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.