阅读说明：本技术 一种生产聚丙烯纤维的机械设备 (Mechanical equipment for producing polypropylene fiber ) 是由 闫玉飞 于 2020-12-30 设计创作，主要内容包括：本发明提供一种生产聚丙烯纤维的机械设备,其结构包括：进料口、机身、万向轮、支架、输送装置、电箱,进料口的右侧与机身的左侧进行电焊接,万向轮的中间活动卡合于支架的下方,输送装置的左侧嵌套于机身的内部,电箱的左侧螺栓连接于机身的右侧,本发明通过对物料进行切断时,电箱中的驱动设备能够驱动齿轮旋转,则带动裁刀上下移动,从而对物料进行切断,同时吸附至裁刀表面的物料,通过清洁块在裁刀表面进行来回擦拭,能够将物料推动至传送带中,进行传送,从而能够将产生静电在裁刀表面的物料擦除,且在使用完成后能够移动杆向两端移动,则裁刀能够移动至机身内,避免裁刀裸露在外,而灰尘杂质等吸附至裁刀表面的现象。(The invention provides a mechanical device for producing polypropylene fibers, which structurally comprises: the invention relates to a material cutting machine, which comprises a feeding hole, a machine body, a universal wheel, a support, a conveying device and an electric box, wherein the right side of the feeding hole is electrically welded with the left side of the machine body, the middle of the universal wheel is movably clamped below the support, the left side of the conveying device is nested in the machine body, and the left side of the electric box is connected to the right side of the machine body through a bolt. Thereby cutting off the materials, simultaneously wiping the materials adsorbed to the surface of the cut-off knife back and forth through the cleaning block, pushing the materials into the conveyor belt for conveying, thereby being capable of wiping off the materials on the surface of the cutter and moving the movable rod to two ends after the use is finished, the cut-off knife can move into the machine body, so that the phenomenon that the cut-off knife is exposed outside and dust, impurities and the like are adsorbed to the surface of the cut-off knife is avoided.)

1. A mechanical device for producing polypropylene fiber, which structurally comprises: feed inlet (1), fuselage (2), universal wheel (3), support (4), conveyor (5), electronic box (6), the right side of feed inlet (1) carries out electric welding with the left side of fuselage (2), the middle activity block of universal wheel (3) is in the below of support (4), the left side of conveyor (5) is nested in the inside of fuselage (2), the left side bolted connection of electronic box (6) is in the right side of fuselage (2), its characterized in that:

fuselage (2) include sleeve (21), shifting chute (22), slider (23), worm (24), a gear (25), disjunctor (26), carriage release lever (27), telescopic link (28), fixed connection is carried out with worm (24) to the both sides of sleeve (21), shifting chute (22) and fuselage (2) structure as an organic whole, slider (23) nestification is in the inboard of sleeve (21), the both ends and a gear (25) of worm (24) mesh mutually, the below in carriage release lever (27) is installed in the centre of disjunctor (26), swing joint is carried out with slider (23) in the upper end of carriage release lever (27), the inboard in fuselage (2) is installed to the lower extreme of telescopic link (28).

2. The mechanical equipment for producing polypropylene fiber according to claim 1, wherein: the cutter (26) comprises a buckle (a1), a moving device (a2), a shell (a3), a cut-off knife (a4), a fixing plate (a5), a connecting rod (a6) and a cleaning block (a7), wherein two sides of the buckle (a1) are fixedly connected to the lower portion of the connecting rod (a6), two ends of the moving device (a2) are nested in the inner side of the shell (a3), the shell (a3) and the fixing plate (a5) are of an integrated structure, the upper portion of the cut-off knife (a4) is in interference fit with the fixing plate (a5), the upper portion of the connecting rod (a6) is nested in the inner side of the moving device (a2), and one side of the cleaning block (a7) is clamped in the middle of the buckle (a 1).

3. The mechanical equipment for producing polypropylene fiber according to claim 2, wherein: the moving device (a2) comprises a driver (b1), a sliding rail (b2), a rope (b3) and a fixing rod (b4), wherein the right end of the driver (b1) is bonded with the upper end of the rope (b3), the rope (b3) is nested in the sliding rail (b2), and the left end of the fixing rod (b4) is fixedly connected with the lower end of the rope (b 3).

4. The mechanical equipment for producing polypropylene fiber according to claim 1, wherein: the conveying device (5) comprises an air bag (51), a conveying belt (52), a fixing block (53), a positioning plate (54) and a rotating device (55), wherein the air bag (51) is bonded on the concave surface of the fixing block (53), the conveying belt (52) is mounted in the middle of the positioning plate (54) through movable clamping, two sides of the fixing block (53) are connected to the inner side of the positioning plate (54) through bolts, and two ends of the rotating device (55) are movably clamped in the middle of the positioning plate (54).

5. The mechanical equipment for producing polypropylene fiber according to claim 4, wherein: the rotating device (55) comprises a baffle plate (c1), a second gear (c2), a rack (c3) and a straight shaft (c4), wherein the baffle plate (c1) is fixedly connected with the second gear (c2) through the straight shaft (c4), and the second gear (c2) is matched on the right side of the rack (c3) through meshing.

6. The mechanical equipment for producing polypropylene fiber according to claim 5, wherein: baffle (c1) include through-hole (d1), sponge piece (d2), pivot (d3), blade (d4), stopper (d5), micro motor (d6), through-hole (d1) and baffle (c1) are the integral structure, the top of sponge piece (d2) is glued in the inboard of baffle (c1), pivot (d3) run through in stopper (d5) and with micro motor (d6) inlay solid and be connected, blade (d4) pass through bolted connection in the both sides of pivot (d3), stopper (d5) are installed in the both sides of baffle (c 1).

Technical Field

The invention relates to the field of polypropylene equipment, in particular to mechanical equipment for producing polypropylene fibers.

Background

As is known, polypropylene fibers are produced by a series of steps of mixing polypropylene master batches, polypropylene chips and burr materials, then carrying out melt spinning, stretching, curling, heat setting, cutting and packaging, and the polypropylene fibers have high strength and good toughness, so the polypropylene fibers are widely used, but have the defects of easy accumulation, large static electricity and the like.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide mechanical equipment for producing polypropylene fibers, which has the advantages that in the process of cutting off the polypropylene fibers, the polypropylene fibers are adsorbed on the surfaces of a conveyor belt and a cutter due to the defect of high static electricity of the polypropylene fibers, the next process cannot be carried out, the cutter is difficult to remove, the polypropylene fibers are exposed outside and stand still after being used, impurities covered on the surface of the cutter are caused, and the impurities cover the polypropylene fibers when the polypropylene fibers are used next time, so that the impurities and the polypropylene fibers are packed together, and the cleanliness of the polypropylene fibers is reduced.

In order to achieve the purpose, the invention is realized by the following technical scheme: a mechanical device for producing polypropylene fiber, which structurally comprises: the electric box comprises a feeding hole, a machine body, a universal wheel, a support, a conveying device and an electric box, wherein the right side of the feeding hole is electrically welded with the left side of the machine body, the middle of the universal wheel is movably clamped below the support, the left side of the conveying device is nested in the machine body, the left side of the electric box is connected to the right side of the machine body through a bolt,

the fuselage includes sleeve, shifting chute, slider, worm, a gear, disjunctor, carriage release lever, telescopic link, telescopic both sides carry out fixed connection with the worm, shifting chute and fuselage structure as an organic whole, the slider nestification is in telescopic inboard, the both ends and the gear of worm mesh mutually, the centre of disjunctor is installed in the below of carriage release lever, swing joint is carried out with the slider in the upper end of carriage release lever, the lower extreme of telescopic link is installed in the inboard of fuselage.

Preferably, the cutter comprises a buckle, a moving device, a shell, a cutter, a fixing plate, a connecting rod and a cleaning block, wherein two sides of the buckle are fixedly connected below the connecting rod, two ends of the moving device are nested in the inner side of the shell, the shell and the fixing plate are of an integrated structure, the upper part of the cutter is in interference fit with the fixing plate, the upper part of the connecting rod is nested in the inner side of the moving device, one side of the cleaning block is clamped in the middle of the buckle, and the moving track of the cleaning block coincides with the cutter.

Preferably, the moving device comprises a driver, a sliding rail, a rope and a fixing rod, the right end of the driver is bonded with the upper end of the rope, the rope is nested in the sliding rail, the left end of the fixing rod is fixedly connected with the lower end of the rope, and the sliding rail is parallel to the cut-off knife.

Preferably, conveyor includes gasbag, conveyer belt, fixed block, locating plate, rotary device, the gasbag bonds at the concave surface of fixed block, the conveyer belt passes through movable block to be installed in the centre of locating plate, the both sides bolted connection of fixed block is in the inboard of locating plate, rotary device's both ends activity block is in the centre of locating plate, the gasbag adopts the rubber material.

Preferably, the rotating device comprises a baffle, a second gear, a rack and a straight shaft, the baffle is fixedly connected with the second gear through the straight shaft, the second gear is engaged on the right side of the rack, and the baffle can rotate by 0-90 degrees.

As preferred, the baffle includes through-hole, sponge piece, pivot, blade, stopper, micro motor, through-hole and baffle structure as an organic whole, the top of sponge piece is glued in the inboard of baffle, the pivot runs through in the stopper and with micro motor inlay solid be connected, the blade passes through bolted connection in the both sides of pivot, the stopper is installed in the both sides of baffle, the sponge piece has moisture, and the blade of sponge piece and pivot top is laminated mutually.

Compared with the prior art, the invention has the following advantagesAdvantageous effects：

1. When the material is cut off, the driving device in the electric box can drive the gear to rotate, so that the cutter is driven to move up and down, the material is cut off, the material adsorbed to the surface of the cutter is wiped back and forth on the surface of the cutter through the cleaning block, the material can be pushed into the conveying belt to be conveyed, the material generated static electricity on the surface of the cutter can be wiped, the movable rod can move towards the two ends after the material is used, the cutter can move into the machine body, the phenomenon that the cutter is exposed outside, dust and impurities are adsorbed to the surface of the cutter is avoided, and the cleanliness of the material is guaranteed.

2. According to the invention, materials are conveyed on the conveying belt, and the gear drives the baffle to move at the tail end of the conveying belt, so that the materials can be pushed by the blades in the baffle when the materials are at the tail end of the conveying belt, the surfaces of the blades are provided with moisture, the materials can be prevented from being adsorbed onto the blades, the materials are conveyed, and the materials can be prevented from generating static electricity through the baffle and being adsorbed onto the surface of the conveying belt, so that the next process cannot be carried out.

Drawings

FIG. 1 is a schematic structural diagram of a mechanical apparatus for producing polypropylene fibers according to the present invention.

Fig. 2 is a schematic cross-sectional structure of the fuselage of the present invention.

Fig. 3 is a side cross-sectional structural view of the cutter of the present invention.

Fig. 4 is a partially enlarged cross-sectional structure of the mobile device of the present invention.

Fig. 5 is a schematic structural diagram of the conveying device of the present invention.

Fig. 6 is a partially enlarged cross-sectional structural view of the rotating device of the present invention.

Fig. 7 is a schematic front view of the baffle of the present invention.

In the figure: feed inlet-1, machine body-2, universal wheel-3, support-4, conveying device-5, electric box-6, sleeve-21, moving groove-22, slide block-23, worm-24, first gear-25, cutter-26, moving rod-27, telescopic rod-28, buckle-a 1, moving device-a 2, shell-a 3, cut-off knife-a 4, fixed plate-a 5, connecting rod-a 6, cleaning block-a 7, driver-b 1, slide rail-b 2, rope-b 3, fixed rod-b 4, air bag-51, conveyor belt-52, fixed block-53, positioning plate-54, rotating device-55, baffle-c 1, second gear-c 2, rack-c 3, straight shaft-c 4, A through hole-d 1, a sponge block-d 2, a rotating shaft-d 3, a blade-d 4, a limiting block-d 5 and a micro motor-d 6.

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.

Example 1

As shown in figures 1 to 4:

the invention provides a mechanical device for producing polypropylene fibers, which structurally comprises: feed inlet 1, fuselage 2, universal wheel 3, support 4, conveyor 5, electronic box 6, the right side of feed inlet 1 carries out electric welding with the left side of fuselage 2, the middle activity block of universal wheel 3 is in the below of support 4, conveyor 5's left side is nested in the inside of fuselage 2, electronic box 6's left side bolted connection is in the right side of fuselage 2.

Fuselage 2 includes sleeve 21, shifting chute 22, slider 23, worm 24, a gear 25, disjunctor 26, carriage release lever 27, telescopic link 28, sleeve 21's both sides and worm 24 carry out fixed connection, shifting chute 22 and fuselage 2 be the integral structure, slider 23 nests in sleeve 21's inboard, worm 24's both ends and a gear 25 mesh mutually, install in the below of carriage release lever 27 in the middle of the disjunctor 26, the upper end and the slider 23 of carriage release lever 27 carry out swing joint, the inboard in fuselage 2 is installed to the lower extreme of telescopic link 28.

The cutter 26 comprises a buckle a1, a moving device a2, a housing a3, a cutter a4, a fixed plate a5, a connecting rod a6 and a cleaning block a7, wherein two sides of the buckle a1 are fixedly connected to the lower portion of the connecting rod a6, two ends of the moving device a2 are nested on the inner side of the housing a3, the housing a3 and the fixed plate a5 are of an integrated structure, the upper portion of the cutter a4 is in interference fit with the fixed plate a5, the upper portion of the connecting rod a6 is nested on the inner side of the moving device a2, one side of the cleaning block a7 is clamped in the middle of the buckle a1, the moving track of the cleaning block a7 is overlapped with the cutter a4, and the polypropylene fibers adsorbed on the surface of the cutter a4 can be pushed to the upper portion of the conveyor belt 52.

The moving device a2 comprises a driver b1, a sliding rail b2, a rope b3 and a fixed rod b4, the right end of the driver b1 is bonded with the upper end of the rope b3, the rope b3 is nested in the sliding rail b2, the left end of the fixed rod b4 is fixedly connected with the lower end of the rope b3, the sliding rail b2 is parallel to the cutting knife a4, and then the rope c3 can move along the sliding rail b2, so that the moving track of the cleaning block a7 is overlapped with the surface of the cutting knife d 4.

The specific use mode and function of the embodiment are as follows:

according to the invention, materials enter the conveyor belt 52 from the feed inlet 1 by starting the equipment, the driving equipment in the electric box 6 can drive the first gear 25 to rotate, the first gear 25 is meshed with the worm 24, so that the worm 24 moves back and forth, the moving rod 27 is driven to move back and forth on the moving groove 22, the cutter 26 is driven to move up and down, the materials are cut off, the materials adsorbed to the surface of the cut-off knife a4 are simultaneously, the rope b3 is driven by the driver b1 to move along the sliding rail b2, the cleaning block a7 can wipe back and forth on the surface of the cut-off knife c4, the materials can be pushed into the conveyor belt 52 to be conveyed, the materials on the surface of the cut-off knife a4 can be wiped, the moving rod 27 moves towards two ends after the use is finished, the cut-off knife a4 can move into the machine body 2, the phenomenon that the cut-off knife a4 is exposed outside and dust and impurities are adsorbed to the surface of the cut, thereby guaranteeing the cleanliness of the materials.

Example 2

As shown in fig. 5 to 7:

the invention provides mechanical equipment for producing polypropylene fibers, wherein a conveying device 5 comprises an air bag 51, a conveyor belt 52, a fixed block 53, a positioning plate 54 and a rotating device 55, the air bag 51 is adhered to the concave surface of the fixed block 53, the conveyor belt 52 is installed in the middle of the positioning plate 54 through movable clamping, two sides of the fixed block 53 are connected to the inner side of the positioning plate 54 through bolts, two ends of the rotating device 55 are movably clamped in the middle of the positioning plate 54, and the air bag 51 is made of rubber materials and can buffer a baffle plate c 1.

The rotating device 55 comprises a baffle c1, a second gear c2, a rack c3 and a straight shaft c4, wherein the baffle c1 is fixedly connected with the second gear c2 through the straight shaft c4, the second gear c2 is matched on the right side of the rack c3 through meshing, and the baffle c1 can rotate by 0-90 degrees, so that the baffle c1 can move on the conveyor belt 52.

The baffle c1 comprises a through hole d1, a sponge block d2, a rotating shaft d3, a blade d4, a limiting block d5 and a micro motor d6, the through hole d1 and the baffle c1 are of an integrated structure, the upper portion of the sponge block d2 is bonded on the inner side of the baffle c1, the rotating shaft d3 penetrates through the limiting block d5 and is fixedly connected with the micro motor d6 in an embedded mode, the blade d4 is connected to two sides of the rotating shaft d3 through bolts, the limiting block d5 is mounted on two sides of the baffle c1, the sponge block d2 is provided with moisture, the sponge block d2 is attached to the blade d4 above the rotating shaft d3, the blades d4 can be wetted, and static electricity can be prevented from being generated when polypropylene fibers are pushed.

The specific use mode and function of the embodiment are as follows:

according to the invention, materials are conveyed on the conveyor belt 52, and meanwhile, as the rack c3 moves and the rack c3 is meshed with the second gear c2, the second gear c2 is driven to rotate, so that the baffle c1 is driven to move at the tail end of the conveyor belt 52 through the straight shaft c4, when the materials are at the tail end of the conveyor belt 52, the materials can be pushed through the blade d4 in the baffle c1, and the micro motor d6 drives the rotating shaft d3 to rotate, so that the blade d4 is driven to rotate, the blade d4 rotated above the rotating shaft d3 is attached to the sponge block d2, so that the surface of the blade d4 can be wetted by moisture in the sponge block d2, the materials can be prevented from being adsorbed to the blade d4, the conveying of the materials is completed, and the baffle c1 can prevent the materials from generating static electricity and being adsorbed to the surface of the conveyor belt 52, so.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.