CN112695422B - Textile machinery based on PLC programmable control - Google Patents

Abstract

The invention provides a textile machine based on PLC programmable control, which belongs to the technical field of textile equipment and comprises a fixing frame, wherein a rotating shaft is arranged in the fixing frame, a spindle rod is embedded into the left end of a lubricating oil cup, an oil injection cylinder is fixedly connected to the top of the fixing frame, a transmission gear is rotatably connected to the connecting position of the fixing frame positioned at the oil injection cylinder, and a speed change gear is nested in the rotating shaft positioned inside the lubricating oil cup. This kind of spinning machine based on PLC programmable control is provided with fan blade, through the interlock transmission of gear for the actuating lever rotates and drives the fan blade at its top and rotate, thereby produces ascending air current and blows the fan blade rotation of jack-up pole lower extreme, produces stronger upward air current thrust under two fan blades simultaneous rotations, immediately the air current extrusion promotes the board and the linkage is pushing away the oil board and both upwards move, thereby accomplishes the oiling operation that pushes away the oil board and push away oil to the oil pipe in, has realized the real-time oiling operation of device in the use.

Description

Textile machinery based on PLC programmable control

Technical Field

The invention relates to the technical field of textile equipment, in particular to a spindle for spinning.

Background

The spindle is one of the main components of twisting and winding on a spinning machine, is an assembly taking a slender rotating shaft supported by two points as a main body, is provided with spindles on a roving frame, a spinning frame and a twisting frame, the roving spindle is a round steel rod, the top end of the roving spindle is generally provided with a groove for supporting and driving the flyer to rotate together, the spindle tip at the lower end is provided with a spindle foot oil cup for supporting, the middle part of the spindle is provided with a spindle sleeve as an upper bearing of the spindle, and the spun yarn spindle consists of a spindle rod, a spindle disc, a supporting component (commonly called as a spindle liner), a spindle hook, a spindle foot, a brake and the like, wherein in order to prolong the service life of the spindle, the spindle is generally required to be filled with lubricating oil regularly and cleaned inside the oil cup so as to ensure the smoothness of high-speed rotation of the spindle;

the spinning spindle capable of being lubricated independently comprises a bearing mounting seat and a spindle neck, wherein a spindle neck threading eye is formed in the spindle neck, a wear-resistant sleeve is wrapped in the spindle neck threading eye, the bearing mounting seat is mounted on one side of the spindle neck, a central spindle rod is arranged in the middle of the inner portion of the bearing mounting seat, a lubricating oil tank is arranged above the central spindle rod, and an oil filling port is formed in one side of the lubricating oil tank. The invention has scientific and reasonable structure, safe and convenient use, and is provided with an autonomous lubrication system, which comprises a lubrication tank, an oil filling port and a pipeline, solves the problem that the service life is not prolonged because the lubrication oil can not be filled into the bearing, and can be easily condensed because of lack of stirring structure in the use process of the lubrication oil in the oil cup when the lubrication oil in the bearing on the spindle is insufficient.

Therefore, further research is needed based on the existing spindle for spinning, and a novel textile machine based on PLC programmable control is provided.

Disclosure of Invention

The present invention is directed to solving the technical problems set forth in the background art, A textile machine based on PLC programmable control is provided.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a textile machinery based on PLC programmable control, includes the mount, goes into to be provided with the axis of rotation, lubricating oil cup left end embedding is provided with the spindle, mount top fixedly connected with oiling jar, the mount is located oiling jar junction and rotates and be connected with drive gear, the axis of rotation is located the inside department of lubricating oil cup and nests and be provided with the gear, lubricating oil cup surface nestification is provided with the driving gear, the inside embedding of lubricating oil cup is provided with the spring group, lubricating oil cup top rotates and is connected with the top cap, lubricating oil cup inside is located gear outside fixedly connected with and throws the rope, the terminal fixedly connected with of whipping piece of whipping, oiling jar top embedding is provided with the oil filler pipe, oiling jar inside fixedly connected with fixed plate, oiling jar inside is located fixed plate center department and rotates and is connected with the actuating lever, the nested driven gear and the drive gear are the same horizontal plane, actuating lever top fixedly connected with fan blade, the inside slip is provided with jack-up pole, and jack-up pole bottom rotation is connected with the top cap, jack-up blade, jack-up plate and the top is provided with the air bag is provided with the embedded groove, the top ring is provided with the embedded groove, the embedded in the inside is provided with the top ring, the embedded groove is provided with the embedded in the top surface of jack-up groove, the outer surface of the protruding block is fixedly connected with a reverse adhesive tape.

Further preferred embodiments are as follows: the two fan blades are vertically distributed from top to bottom, and the bottom fan blade actively rotates to output air flow to the top fan blade.

Further preferred embodiments are as follows: the cross section of the degassing prevention bag after inflation is trapezoidal, and the degassing prevention bag is distributed in the outer ring edge in an annular shape.

Further preferred embodiments are as follows: the speed change gears and the rotating shafts are arranged at a rotation speed difference of 3-1 through tooth distribution difference, and the speed change gears are arranged at three equal intervals.

Further preferred embodiments are as follows: the reverse adhesive tape is arranged on the outer surface of the protruding block in a downward bending mode, and the reverse adhesive tape can be any one of a strip shape and a sheet shape.

Further preferred embodiments are as follows: the inside of the protruding block is communicated with the inside of the degassing prevention bag, and the protruding block is hemispherical after being bulged.

Further preferred embodiments are as follows: the maximum length of the swinging rope is 1/4 of the inner diameter of the lubricating oil cup, and the stirring block is in a bifurcated shape.

Further preferred embodiments are as follows: the tail end of the movable tenon and the positioning clamping groove are arranged in a matched mode, a spring is arranged between the movable tenon and the oil storage cavity to perform a resetting function, and the elastic force of the spring is arranged in a matched mode with the sum of the qualities of the oil pushing plate, the pushing plate and the jacking rod.

Further preferred embodiments are as follows: the size of the vertical interval between the positioning clamping grooves is matched with the single oil injection amount of the lubricating oil cup, and the larger the interval between the positioning clamping grooves is, the more lubricating oil is injected into the lubricating oil cup.

The beneficial effects are that:

1. this kind of spinning machine based on PLC programmable control is provided with fan blade, through the interlock transmission of gear for the actuating lever rotates and drives the fan blade at its top and rotate, thereby produces ascending air current and blows the fan blade rotation of jack-up pole lower extreme, produces stronger upward air current thrust under two fan blades simultaneous rotations, immediately the air current extrusion promotes the board and the linkage is pushing away the oil board and both upwards move, thereby accomplishes the oiling operation that pushes away the oil board and push away oil to the oil pipe in, has realized the real-time oiling operation of device in the use.

2. The anti-falling air bag is arranged, the air flow generated by rotation of the fan blade is filled into the anti-falling air bag, the anti-falling air bag is inflated under pressure to be in a state that the cross section is in a trapezoid shape, and further the friction force is increased by inflation extrusion between the outer wall of the anti-falling air bag and the inner wall of the oiling cylinder, so that the upward rising pushing plate is effectively prevented from falling downwards under the action of gravity.

3. The speed change gear is arranged, the speed change gear is driven to rotate under the rotation of the rotating shaft, and due to the tooth density difference of the joint of the rotating shaft and the speed change gear, the speed change gear rotates at the speed which is three times that of the rotating shaft, so that the swinging rope drives the stirring block to rapidly stir the lubricating oil in the lubricating oil cup, the fluidity of the lubricating oil is effectively accelerated, and therefore, the lubricating oil not only reduces a clot, but also improves the lubricating effect on the spring group.

4. The movable tenons and the positioning clamping grooves are arranged, and the jacking rods are jacked up at a certain height for a single time through the connection of the positioning clamping grooves with the movable tenons at a certain distance, so that quantitative oil injection to the lubricating oil cup is realized.

Drawings

Fig. 1 is a schematic view of the overall planar structure of the present invention.

Fig. 2 is a schematic sectional view of the oil injection cylinder of the present invention.

Fig. 3 is a schematic cross-sectional view of a lubricating oil cup according to the present invention.

Fig. 4 is an enlarged schematic view of the structure of fig. 2 a according to the present invention.

Fig. 5 is a schematic view showing a partial structure of the degassing prevention capsule according to the present invention.

Fig. 6 is an enlarged schematic view of the structure of fig. 2B according to the present invention.

Fig. 7 is a schematic top view of the lubricating oil cup of the present invention.

In fig. 1-7: 1-a fixing frame; 101-a transmission gear; 2-rotating shaft; 201-a speed change gear; 3-a lubricating oil cup; 301-a driving gear; 302-a spring set; 303-top cap; 304-swinging ropes; 3041-stirring block; 4-spindle pole; 5-injecting an oil cylinder; 501-a filler tube; 502-a fixed plate; 503-driving rod; 5031-a driven gear; 504-an oil reservoir; 5041-oil pushing plate; 5042-movable tenon; 505-fan blades; 506-oil dropping pipe; 507-pushing plate; 5071-outer ring edge; 5072-insert groove; 5073-an anti-release balloon; 5074-bump; 5075-reverse adhesive tape; 508-jack-up bar; 5081-positioning card slot.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, in the embodiment of the invention, a textile machine based on PLC programmable control includes a fixing frame 1, a transmission gear 101, a rotation shaft 2, a speed change gear 201, a lubricating oil cup 3, a driving gear 301, a spring set 302, a top cover 303, a swinging rope 304, a stirring block 3041, a spindle pole 4, an oiling cylinder 5, an oiling pipe 501, a fixing plate 502, a driving rod 503, a driven gear 5031, an oil storage cavity 504, an oil pushing plate 5041, a movable tenon 5042, a fan blade 505, an oil dropping pipe 506, a pushing plate 507, an outer ring edge 5071, an embedding groove 5072, an anti-degassing bag 5073, a protruding block 5074, a reverse adhesive tape 5075, a jacking rod 508 and a positioning clamping groove 5081, wherein the rotation shaft 2 is arranged, the spindle pole 4 is embedded in the left end of the lubricating oil cup 3, the oiling cylinder 5 is fixedly connected to the top of the fixing frame 1, the transmission gear 101 is rotatably connected to the connecting position of the fixing frame 1 at the oiling cylinder 5, the rotating shaft 2 is positioned in the lubricating oil cup 3, a speed change gear 201 is nested, a driving gear 301 is nested on the outer surface of the lubricating oil cup 3, a spring set 302 is nested in the lubricating oil cup 3, a top cover 303 is rotationally connected to the top of the lubricating oil cup 3, a whipping rope 304 is fixedly connected to the outer side of the speed change gear 201 in the lubricating oil cup 3, a stirring block 3041 is fixedly connected to the tail end of the whipping rope 304, a oiling pipe 501 is embedded in the top of the oiling cylinder 5, a fixing plate 502 is fixedly connected to the inside of the oiling cylinder 5, an oil storage cavity 504 is embedded in the top end of the oiling cylinder 5, a driving rod 503 is rotationally connected to the inside of the oiling cylinder 5 at the center of the fixing plate 502, a driven gear 5031 and the driving gear 101 are in the same horizontal plane in a nested manner, a fan blade 505 is fixedly connected to the top of the driving rod 503, a jacking rod 508 is slidingly arranged below the oil storage cavity 504, and the bottom end of the jacking rod 508 is rotationally connected with the fan blade 505, the jacking rod 508 lower extreme fixedly connected with push plate 507, jacking rod 508 top nestification is provided with pushing oil board 5041, the junction embedding of oil storage chamber 504 lower surface and jacking rod 508 is provided with movable tenon 5042, the equal opening in both sides of jacking rod 508 is provided with location draw-in groove 5081, push plate 507 nestification is provided with outer lane limit 5071 all around, outer lane limit 5071 lower surface opening is provided with embedded groove 5072, embedded groove 5072 inside embedding is provided with prevents deaeration bag 5073, prevent deaeration bag 5073 bag wall embedding is provided with protruding piece 5074, protruding piece 5074 surface fixedly connected with reverse adhesive tape 5075.

In the embodiment of the invention, two fan blades 505 are vertically distributed from top to bottom, the bottom fan blade 505 actively rotates to output air flow to the top fan blade 505, and the driving rod 503 rotates and drives the top fan blade 505 to rotate through the meshing transmission of gears, so that upward air flow is generated and the fan blade 505 at the lower end of the jacking rod 508 is blown to rotate, stronger upward air flow thrust is generated under the simultaneous rotation of the two fan blades 505, and then the air flow presses the pushing plate 507 and the oil pushing plate 5041 to move upwards in a linkage manner, so that the oil injection operation of the oil pushing plate 5041 for pushing oil into the oil dropping pipe 506 is completed, and the real-time oil injection operation of the device in the use process is realized.

In the embodiment of the invention, the cross section of the degassing prevention bag 5073 is in a trapezoid shape after being inflated and expanded, the degassing prevention bag 5073 is annularly distributed in the outer ring edge 5071, air flow generated by rotation of the fan blade 505 is inflated into the degassing prevention bag 5073, so that the degassing prevention bag 5073 is inflated into a state that the cross section is in a trapezoid shape, further, the friction force is increased by inflation and extrusion between the outer wall of the degassing prevention bag 5073 and the inner wall of the oiling cylinder 5, and accordingly the upward rising pushing plate 507 is effectively prevented from falling downwards under the action of gravity.

In the embodiment of the invention, the speed difference between the speed change gear 201 and the rotating shaft 2 is 3-1 through the tooth distribution difference, and the speed change gear 201 is provided with three speed change gears which are distributed at equal intervals, the speed change gear 201 is driven to rotate under the rotation of the rotating shaft 2, and the speed change gear 201 rotates at the speed which is three times that of the rotating shaft 2 due to the tooth density difference at the joint of the rotating shaft 2 and the speed change gear 201, so that the stirring rope 304 drives the stirring block 3041 to rapidly stir the lubricating oil in the lubricating oil cup 3, the fluidity of the lubricating oil is effectively accelerated, and the lubricating oil not only reduces a clot but also improves the lubricating effect on the spring set 302.

In the embodiment of the invention, the reverse adhesive tape 5075 is arranged on the outer surface of the protruding block 5074 in a downward bending manner, so that the anti-degassing bag 5073 is expanded and then presses the reverse adhesive tape 5075 to form an upward pulling force with the inner wall of the oiling cylinder 5, and the reverse adhesive tape 5075 can be in any one of a strip shape and a sheet shape, and the strip shape and the sheet shape can form a better static friction effect on the inner wall of the oiling cylinder 5.

In the embodiment of the invention, the inside of the bulge block 5074 is communicated with the inside of the degassing prevention bag 5073, and the bulge block 5074 is hemispherical after being bulged, and the bulge block 5074 which is bulged after being pressed increases the roughness of the surface of the degassing prevention bag 5073, so that the friction force of the degassing prevention bag 5073 is indirectly increased.

In the embodiment of the invention, the maximum length of the whipping rope 304 is 1/4 of the inner diameter of the lubricating oil cup 3, so that the whipping rope 304 can not wind the spring set 302 due to the limitation of the length thereof after whipping by the speed change gear 201, and the stirring block 3041 is arranged in a forked shape, so that the stirring effect of the forked stirring block 3041 on the lubricating oil is better.

In the embodiment of the invention, the tail end of the movable tenon 5042 is matched with the positioning clamping groove 5081, a spring is arranged between the movable tenon 5042 and the oil storage cavity 504 for resetting, and the spring force is matched with the sum of the weights of the oil pushing plate 5041, the pushing plate 507 and the jacking rod 508, so that after the fan blade 505 stops rotating, the pushing plate 507 loses upward acting force to form downward falling under the action of self gravity, and the spring force of the spring can not block the falling of the three structures in the falling process.

In the embodiment of the invention, the size of the vertical space between the positioning clamping grooves 5081 is matched with the single oil injection amount of the lubricating oil cup 3, and the larger the space between the positioning clamping grooves 5081 is, the more lubricating oil is injected into the lubricating oil cup 3, and the jacking rod 508 is jacked up by a certain height for a single time through the connection of the positioning clamping grooves 5081 with the movable tenons 5042 at a certain space, so that the quantitative oil injection of the lubricating oil cup 3 is realized.

Working principle: when the textile machine based on PLC programmable control is used, firstly, the oiling pipe 501 is connected with an external oil pump, then the device is installed in equipment, then the device can be put into use, in the running process, the rotating shaft 2 is driven by the equipment to rotate, then the rotating shaft 2 drives the lubricating oil cup 3 and the driving gear 301 to rotate, meanwhile, the driving gear 301 is meshed with the transmission gear 101 and the driven gear 5031, the driving rod 503 is driven to rotate through the meshing transmission of the gears, thereby generating upward air flow and blowing the fan blade 505 at the lower end of the jacking rod 508 to rotate, stronger upward air flow thrust is generated under the simultaneous rotation of the two fan blades 505, then the air flow presses the pushing plate 507 and the linked pushing plate 5041 to move upwards, thus completing oiling operation of the pushing plate 5041 for pushing oil into the oil dripping pipe 506, through the connection of the positioning clamping grooves 5081 and the movable tenons 5042 with a certain interval, the jacking rod 508 jacks up for a single time with a certain height, quantitative oiling of the lubricating oil cup 3 is realized, meanwhile, the air flow generated by the rotation of the fan blade 505 is filled into the anti-degassing bag 5073, the anti-degassing bag 5073 is pressed and expanded into a state with a trapezoid cross section, further, the expansion extrusion between the outer wall of the anti-degassing bag 5073 and the inner wall of the oiling cylinder 5 is utilized to realize the increase of friction force, so that the push plate 507 which rises upwards drops downwards under the action of gravity is effectively prevented, the speed change gear 201 is synchronously driven to rotate under the rotation of the rotating shaft 2, and the speed change gear 201 rotates at three times the rotation speed of the rotating shaft 2 due to the tooth density difference of the connecting part of the rotating shaft 2 and the speed change gear 201, the stirring block 3041 is driven by the stirring rope 304 to rapidly stir the lubricating oil in the lubricating oil cup 3, the fluidity of the lubricating oil is effectively quickened, so that the lubricating oil not only reduces the clumps but also improves the lubricating effect on the spring set 302.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and improvements can be made by those skilled in the art without departing from the spirit of the present invention, and these should also be considered as the scope of the present invention, which does not affect the effect of the implementation of the present invention and the utility of the patent.

Claims (9)

1. Textile machinery based on PLC programmable control, including mount (1), its characterized in that: the utility model discloses a lubricating oil cup (3) is connected with in inside rotation of mount (1), lubricating oil cup (3) right-hand member embedding is provided with axis of rotation (2), lubricating oil cup (3) left end embedding is provided with spindle pole (4), mount (1) top fixedly connected with oiling jar (5), mount (1) are located oiling jar (5) junction rotation and are connected with drive gear (101), axis of rotation (2) are located inside department of lubricating oil cup (3) and nest and are provided with gear change (201), lubricating oil cup (3) surface nest is provided with driving gear (301), lubricating oil cup (3) inside embedding is provided with spring group (302), lubricating oil cup (3) top rotation is connected with top cap (303), lubricating oil cup (3) inside is located gear change (201) outside fixedly connected with and throws movable rope (304), the end fixedly connected with stirring piece (3041) of throwing movable rope (304), oiling jar (5) top embedding is provided with pipe (504), oiling jar (5) inside fixedly connected with oil filling plate (502), inside (503) are located inside and are connected with center (502) and are located inside fixed connection of driving rod (502), the utility model discloses a motor vehicle, including driving lever (503), nested driven gear (5031) that is provided with in the driving lever (503) is same horizontal plane with drive gear (101), driving lever (503) top fixedly connected with fan blade (505), oil storage chamber (504) below slip is provided with jack-up pole (508), and jack-up pole (508) bottom rotates simultaneously and is connected with fan blade (505), jack-up pole (508) lower extreme fixedly connected with push plate (507), jack-up pole (508) top nest is provided with oil pushing plate (5041), oil storage chamber (504) lower surface and jack-up pole (508) junction embedding are provided with movable tenon (5042), jack-up pole (508) both sides all open side is provided with location draw-in groove (5081), the nested outer lane limit (5071) that is provided with in groove (5072) all around, inside embedding in jack-up pole (5072) is provided with anticreep pocket (5073), anticreep pocket (5073) wall embedding piece (5074), the embedding piece (5074) is provided with outside surface (5075) and the reverse fixed adhesive tape embedding piece (5075).

2. The PLC-based programmable textile machine of claim 1, wherein: the two fan blades (505) are vertically distributed from top to bottom, and the bottom fan blade (505) actively rotates to output air flow to the top fan blade (505).

3. The PLC-based programmable textile machine of claim 1, wherein: the cross section of the anti-falling air bags (5073) after inflation is trapezoidal, and the anti-falling air bags (5073) are distributed in the outer ring edge (5071) in an annular shape.

4. The PLC-based programmable textile machine of claim 1, wherein: the speed change gears (201) and the rotating shaft (2) are arranged at a rotation speed difference of 3-1 according to tooth distribution difference, and the speed change gears (201) are arranged at equal intervals.

5. The PLC-based programmable textile machine of claim 1, wherein: the reverse adhesive tape (5075) is arranged on the outer surface of the protruding block (5074) in a downward bending mode, and the reverse adhesive tape (5075) can be in any one of a strip shape and a sheet shape.

6. The PLC-based programmable textile machine of claim 1, wherein: the inside of the protruding block (5074) is communicated with the inside of the degassing prevention bag (5073), and the protruding block (5074) is hemispherical after being bulged.

7. The PLC-based programmable textile machine of claim 1, wherein: the maximum length of the swinging rope (304) is 1/4 of the inner diameter of the lubricating oil cup (3), and the stirring blocks (3041) are arranged in a forked shape.

8. The PLC-based programmable textile machine of claim 1, wherein: the tail end of the movable tenon (5042) is matched with the positioning clamping groove (5081), a spring is arranged between the movable tenon (5042) and the oil storage cavity (504) for resetting, and the elastic force of the spring is matched with the sum of the qualities of the oil pushing plate (5041), the pushing plate (507) and the jacking rod (508).

9. The PLC-based programmable textile machine of claim 1, wherein: the size of the upper and lower intervals between the positioning clamping grooves (5081) is matched with the single oil injection amount of the lubricating oil cup (3), and the larger the interval between the positioning clamping grooves (5081), the more lubricating oil is injected into the lubricating oil cup (3).

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