CN108533931B - Full-automatic oiling machine for spun yarn tube - Google Patents

Abstract

The invention discloses a full-automatic yarn tube oiling machine, which solves the problems of uneven oiling and smearing of a yarn tube and low working efficiency in the prior art. The bobbin feeding device is connected with the bobbin clamping device, the bobbin feeding device corresponds to the bobbin clamping device, the bobbin collecting device comprises an inclined sliding plate arranged below the bobbin clamping device, and the inclined sliding plate corresponds to a collecting box arranged on the frame. The invention realizes mechanized spun yarn tube oiling, can lighten the labor intensity of workers, improves the working efficiency by more than three times, improves the yarn tube oiling quality and reduces doffing broken ends.

Description

Full-automatic oiling machine for spun yarn tube

Technical Field

The invention relates to the technical field of spinning equipment, in particular to a full-automatic spinning frame oiling machine.

Background

The yarn tube adopted by spinning frames used by most textile enterprises is a conical tube body with one large end and one small end, and is called a spun yarn tube. When the yarn tube is used, lubricating oil needs to be smeared on the inner wall of the yarn tube so as to reduce friction and prolong service life of the yarn tube and achieve the purpose of reducing doffing broken ends. At present, the method adopted by oiling the bobbin is manual oiling, namely lubricating oil is manually smeared on the inner wall of the bobbin, the working efficiency is extremely low, the smearing is uneven, the time and the labor are wasted, and the mass processing production is not facilitated.

Disclosure of Invention

Aiming at the defects in the background technology, the invention provides a full-automatic spun yarn tube oiling machine, which solves the problems of uneven oiling and smearing of a yarn tube and low working efficiency in the prior art.

The technical scheme of the invention is realized as follows: the full-automatic spun yarn tube oiling machine comprises a frame, wherein a yarn tube feeding device, a yarn tube clamping device, an oil feeding device, a transmission device, a yarn tube collecting device and an electric appliance control device are arranged on the frame, the yarn tube feeding device and the yarn tube clamping device are connected with the transmission device, the transmission device is connected with the electric appliance control device, the oil feeding device is connected with the yarn tube clamping device, the yarn tube feeding device corresponds to the yarn tube clamping device, the yarn tube collecting device comprises an inclined sliding plate arranged below the yarn tube clamping device, and the inclined sliding plate corresponds to a collecting box arranged on the frame.

The transmission device comprises a transmission box arranged on the frame, a double-output motor, a telescopic shaft, a telescopic plate and a transmission shaft are arranged in the transmission box, a cam assembly is arranged on one output shaft of the double-output motor, the other output shaft is connected with the transmission shaft, the transmission shaft extends out of the transmission box, and the telescopic shaft and the telescopic plate are respectively connected with the cam assembly.

The cam assembly comprises a shaft sleeve connected with the output shaft of the dual-output motor, a first cam and a second cam which are arranged in parallel are fixedly arranged on the shaft sleeve, a first push wheel is arranged on the first cam, the telescopic shaft is fixedly connected with the transmission box through a supporting shaft sleeve, one end of the telescopic shaft extends out of the transmission box, a connecting arm is arranged on the telescopic shaft, one end of the connecting arm is fixedly connected with the telescopic shaft, a groove plate is arranged at the other end of the connecting arm, and the first push wheel is positioned in the groove plate and matched with the groove plate.

The telescopic plate is connected with the transmission case through the supporting seat, one end that the telescopic plate is located the transmission case is equipped with U type seat in the groove, articulates in the U type seat has the second to push away the wheel, the second pushes away the wheel and is located same vertical face with the second cam and cooperate with the second cam, one end that the telescopic plate is located outside the transmission case is equipped with the push plate, the outer end of push plate is equipped with the direction flange, the lower part of push plate is equipped with return spring, return spring's one end and push plate fixed connection, the other end is connected with the transmission case.

The spool feeding device comprises an arc-shaped feeding plate fixedly connected with the frame, a support frame is arranged at the bottom of the arc-shaped feeding plate, a sliding plate is arranged on the support frame in a sliding mode, a tube receiving seat is arranged at the front end of the sliding plate, a guide plate seat is arranged at the rear end of the sliding plate, the guide plate seat is connected with the support frame through a first spring, a guide groove is formed in the guide plate seat, and the guide groove is matched with the guide convex plate.

The arc-shaped feeding plate is obliquely arranged, the included angle between the arc-shaped feeding plate and the horizontal plane is 3-15 degrees, the discharge end of the arc-shaped feeding plate is provided with a positioning plate, the positioning plates are respectively arranged on the inner side of the arc-shaped feeding plate and extend out of the arc-shaped feeding plate, and the positioning plates correspond to the connecting pipe seat.

The bobbin clamping device comprises a left moving seat, a right rotating seat and a supporting rod, wherein the left moving seat, the right rotating seat and the supporting rod are positioned on the same straight line, and the supporting rod passes through the left moving seat and corresponds to the right rotating seat; the support rod is fixedly connected with the telescopic shaft through a fixed seat, a fixed groove is formed in the support rod, a guide plate is arranged on one side of the left moving seat, a sliding rod is arranged on the other side of the left moving seat, the guide plate is matched with a guide groove seat arranged on the frame, the guide plate is in sliding connection with the guide groove seat, one end of the sliding rod is fixedly connected with the left moving seat, the other end of the sliding rod extends into the transmission case, a connecting pushing block is arranged on an area, outside the transmission case, of the sliding rod, and the connecting pushing block is fixedly connected with the sliding rod and corresponds to the fixed seat.

The highest face of the connecting push block is higher than the lowest face of the fixing base, the lower portion of the connecting push block is provided with a positioning shaft, the positioning shaft is matched with a positioning seat arranged on the frame, the bottom of the positioning shaft is provided with a second spring, one end of the second spring is connected with the positioning shaft, and the other end of the second spring is connected with the positioning seat.

The right rotating seat is connected with the frame through a support, a positioning groove is formed in the left side of the right rotating seat, a rotating shaft is arranged on the right side of the right rotating seat, a driven belt wheel is arranged on the rotating shaft, a driving belt wheel is arranged at one end, extending out of the transmission case, of the transmission shaft, and the driving belt wheel is connected with the driven belt wheel through a belt.

The oil feeding device comprises a support rod fixedly connected with the frame, an oil bottle support used for supporting an oil bottle is arranged at the upper end of the support rod, an oil conveying hose is connected to the lower portion of the oil bottle, the oil outlet end of the oil conveying hose is fixed in a fixing groove on the supporting rod, and a speed control switch is arranged on the oil conveying hose.

The bobbin sequentially enters the bobbin feeding device by means of self gravity, the bobbin is fed to the bobbin clamping device by the bobbin feeding device, the bobbin clamping device clamps and drives the bobbin to rotate at a constant speed, the oil feeding device is used for positioning, quantitatively and uniformly feeding oil, and finally the bobbin collecting device is used for collecting the oil-added bobbin and storing the oil-added bobbin in a classified manner; thereby realizing continuous oiling of yarn feeding tubes. The invention realizes mechanized spun yarn tube oiling, can lighten the labor intensity of workers, improves the working efficiency by more than three times, improves the yarn tube oiling quality and reduces doffing broken ends.

Drawings

In order to more clearly illustrate the embodiments of the present invention, the drawings that are required for the description of the embodiments will be briefly described below, it being apparent that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic diagram of the overall mechanism of the present invention.

Fig. 2 is a schematic top view of the transmission device of the present invention.

Fig. 3 is a schematic structural view of the bobbin clamping device of the present invention.

Fig. 4 is a schematic view of a three-dimensional structure of an arc-shaped feeding plate according to the present invention.

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 any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1-4, embodiment 1, a full-automatic spun yarn tube oiling machine comprises a frame 1, wherein a yarn tube feeding device 2, a yarn tube clamping device 3, an oil feeding device 4, a transmission device 5, a yarn tube collecting device 6 and an electrical appliance control device 7 are arranged on the frame 1, and the yarn tube feeding device 2 and the yarn tube clamping device 3 are connected with the transmission device 5. The bobbin feeding device 2 is used for conveying bobbins, and the bobbin clamping device 3 is used for clamping the bobbins in the oiling process; the transmission device 5 is connected with the electrical control device 7, the switch of the transmission device is controlled, the transmission device provides power for the whole device, the oil feeding device 4 is connected with the bobbin clamping device 3, the oil feeding device feeds oil to the bobbin on the bobbin clamping device, the bobbin feeding device 2 corresponds to the bobbin clamping device 3, the bobbin sliding off from the bobbin feeding device enters the bobbin clamping device to be clamped, the bobbin collecting device 6 comprises an inclined sliding plate 601 arranged below the bobbin clamping device 3, the inclined sliding plate 601 corresponds to a collecting box 602 arranged on the frame 1, the bobbin fed with oil falls on the inclined sliding plate, slides into a collecting box through the inclined sliding plate, and is convenient to collect the bobbin.

The bobbin relies on self gravity to get into spool feeding device in proper order, is supplied spool clamping device to spool feeding device by spool feeding device, and spool clamping device centre gripping and drive spool at uniform velocity gyration, and the oiling device is fixed a position, and the ration is evenly refueled, and finally spool collection device is got up the oil spool that adds, classification deposit. The whole process realizes mechanized operation, and the working efficiency is greatly improved.

Embodiment 2, a full-automatic oiling machine of spun yarn pipe, transmission 5 includes the transmission case 501 that sets up on frame 1, is equipped with two output motor 502, telescopic shaft 503, expansion plate 504 and transmission shaft 505 in the transmission case 501. One output shaft of the dual output motor 502 is provided with a cam assembly, which drives the cam assembly to rotate. The other output shaft is connected to the drive shaft 505 to drive the drive shaft to rotate. The drive shaft 505 extends out of the drive housing 501 and outputs power to the yarn tube holding device. The telescopic shaft 503 and the telescopic plate 504 are respectively connected with a cam assembly, and the cam assembly respectively drives the telescopic shaft and the telescopic plate to move left and right. The cam assembly comprises a shaft sleeve 506 connected with an output shaft of the double-output motor 502, a first cam 507 and a second cam 508 which are arranged in parallel are fixedly arranged on the shaft sleeve 506, the first cam and the second cam synchronously rotate, a first push wheel 509 is arranged on the first cam 507, the first push wheel 509 is arranged in parallel with the first cam 507, and the first cam drives the telescopic shaft to move left and right through the first push wheel. The telescopic shaft 503 is fixedly connected with the transmission case 501 through a supporting shaft sleeve 510, and the telescopic shaft can slide in the supporting shaft sleeve. One end of the telescopic shaft 503 extends out of the transmission case 501 to output power to the bobbin clamping device. Be equipped with linking arm 511 on the telescopic shaft 503, linking arm 511's one end and telescopic shaft 503 fixed connection, the other end is equipped with frid 512, first push away the wheel 509 and is located frid 512 and cooperate with frid 512, the frid is the U-shaped channel-section steel, the vertical setting of U-shaped channel-section steel, first push away the wheel and be located the recess of U-shaped channel-section steel, first push away the wheel and reciprocate in the frid under the effect of first cam, and then drive the frid and control the removal, the frid passes through linking arm drive telescopic shaft and controls the removal.

Further, the expansion plate 504 is connected with the transmission case 501 through a supporting seat 513, the expansion plate can slide in the supporting seat, one end of the expansion plate 504 located in the transmission case 501 is provided with a U-shaped groove seat 514, the U-shaped groove seat is fixedly connected with the expansion plate, a second push wheel 515 is hinged in the U-shaped groove seat 514, the second push wheel 515 and the second cam 508 are located in the same vertical plane and are matched with the second cam 508, the second cam is contacted with the second push wheel in the rotation process, and the second cam rotates to push the second push wheel to move left and right, so that the left and right expansion of the expansion plate is realized. One end of the expansion plate 504, which is located outside the transmission case 501, is provided with a push plate 516, and the outer end of the push plate 516 is provided with a guide convex plate 517, which transmits power to the bobbin feeding device. The lower part of the push plate 516 is provided with a return spring 518, one end of the return spring 518 is fixedly connected with the push plate 516, the other end of the return spring 518 is connected with the transmission case 501, the second cam pushes the expansion plate rightwards through the push wheel, and then the expansion plate returns leftwards under the action of the return spring, so that the push plate moves leftwards and rightwards.

Further, the bobbin feeding device 2 comprises an arc-shaped feeding plate 201 fixedly connected with the frame 1, wherein the arc-shaped feeding plate is used for containing the yarn bobbins, and the yarn bobbins slide downwards under the action of gravity. The bottom of the arc-shaped feeding plate 201 is provided with a supporting frame 202, a sliding plate 203 is arranged on the supporting frame 202 in a sliding manner, the front end of the sliding plate 203 is provided with a tube connecting seat 204, and the tube connecting seat is used for receiving a bobbin sliding from the arc-shaped feeding plate and clamping the received bobbin at a position where the bobbin clamping device is fed with the bobbin. The rear end of the sliding plate 203 is provided with a guide plate seat 205, the guide plate seat 205 is connected with the support frame 202 through a first spring 206, the guide plate seat is used for driving the sliding plate to reset, a guide groove is formed in the guide plate seat 205, the guide groove is matched with the guide convex plate 517, the guide convex plate enters the guide groove under the action of the pushing plate, the sliding plate is pushed to move forwards, the connecting pipe seat stretches out of the arc-shaped feeding plate at the moment, a bobbin is received and is delivered to the bobbin clamping device, then the sliding plate slides backwards under the action of the first spring, and the bobbin receiving seat is retracted to the lower part of the arc-shaped feeding plate at the moment. The arc-shaped feeding plate 201 is obliquely arranged, the included angle between the arc-shaped feeding plate 201 and the horizontal plane is one of 3 degrees, 5 degrees, 12 degrees and 15 degrees, preferably 10 degrees, so that the bobbins slide off conveniently, the discharge end of the arc-shaped feeding plate 201 is provided with positioning plates 207, the positioning plates 207 are respectively arranged on the inner side of the arc-shaped feeding plate 201 and extend out of the arc-shaped feeding plate 201, one ends of the positioning plates extending out of the arc-shaped feeding plate are semicircular arc plates and are used for stably sliding off the bobbins, the positioning plates 207 correspond to the take-over seat 204, and the bobbins slide off on the extending take-over seat after being positioned by the positioning plates, so that the falling deviation is avoided.

Other structures are the same as in embodiment 1.

Embodiment 3, a full-automatic oiling machine for spun yarn tube, the bobbin clamping device 3 includes a left moving seat 301, a right rotating seat 302 and a supporting rod 303, the left moving seat 301, the right rotating seat 302 and the supporting rod 303 are located on the same straight line, the left moving seat 301 is used for supporting the large diameter end of the spun yarn tube, and the right rotating seat 302 is used for supporting the small diameter end of the spun yarn tube. The left movable seat 301 is provided with a through hole, and the supporting rod 303 passes through the left movable seat 301 and is matched with the right rotary seat 302 through the through hole. The supporting rod 303 is fixedly connected with the telescopic shaft 503 through the fixing seat 304, the telescopic shaft drives the supporting rod to move left and right, when the supporting rod moves rightwards, the bobbin on the tube receiving seat is threaded, then clamped on the right rotating seat, the right rotating seat drives the bobbin to rotate for oiling, and then the supporting rod moves leftwards, and the bobbin slides off. The supporting rod 303 is provided with a fixing groove which is used for fixing an oil delivery hose of the oil feeding device 4 and uniformly oiling the inner wall of the bobbin. One side of the left movable seat 301 is fixedly provided with a guide plate 305, the other side is fixedly provided with a slide bar 306, the guide plate 305 is matched with a guide groove seat 306 arranged on the frame 1, the guide plate 305 is in sliding connection with the guide groove seat 306, and the guide groove seat 306 plays a role in supporting the movable seat and providing stable support for horizontal movement of the movable seat. One end of the sliding rod 306 is fixedly connected with the left moving seat 301, the other end of the sliding rod 306 extends into the transmission case 501, a connecting push block 307 is arranged on the area, located outside the transmission case 501, of the sliding rod 306, the connecting push block 307 is fixedly connected with the sliding rod 306, the connecting push block 307 corresponds to the fixing seat 304, the connecting push block 307 is located on the left side of the fixing seat 304, when the fixing seat moves leftwards, the connecting push block is pushed to move, the connecting push block drives the left moving seat to move leftwards through the sliding rod, at the moment, the relative distance between the left moving seat and the right rotating seat is increased, and the gripper of the bobbin clamping device is opened. The highest surface of the connecting push block 307 is higher than the lowest surface of the fixing seat 304, when the telescopic shaft drives the fixing seat to move leftwards, the connecting push block is driven to move, a positioning shaft 308 is arranged at the lower part of the connecting push block 307, the positioning shaft 308 is matched with a positioning seat 309 arranged on the frame 1 to play a role of rapidly positioning the connecting push block, a second spring 310 is arranged at the bottom of the positioning shaft 308, one end of the second spring 310 is connected with the positioning shaft 308, and the other end of the second spring 310 is connected with the positioning seat 309. When the fixed seat moves leftwards, the connecting pushing block is pushed to move, the connecting pushing block drives the left moving seat to move leftwards through the sliding rod, and at the moment, the relative distance between the left moving seat and the right rotating seat is increased, which is equivalent to opening a clamp holder of the bobbin clamping device; then the connecting push block moves rightwards under the action of the second spring, and resets, at the moment, the distance between the left moving seat and the right rotating seat is reduced, and the connecting push block is used for clamping the bobbin.

Further, the right rotating seat 302 is connected with the frame 1 through a bracket 311, and a positioning groove is arranged on the left side of the right rotating seat 302 and is used for clamping the small diameter end of the bobbin between the left moving seat and the right rotating seat. The right side of right rotation seat 302 is equipped with pivot 312, is equipped with driven pulley 313 on the pivot 312, the transmission shaft 505 stretches out the one end of transmission case 501 and is equipped with driving pulley 314, and driving pulley 314 is connected with driven pulley 313 through belt 315, and the transmission shaft passes through driving pulley and belt and drives right rotation seat rotation, and right rotation seat drives the spool and rotates, and the oil transportation hose that is located on the branch wearing pole in the spool carries out even fat liquoring to spool inner wall.

Further, the oil feeding device 4 comprises a supporting rod 401 fixedly connected with the frame 1, the height of the supporting rod is adjustable, an oil bottle support 403 for supporting the oil bottle 402 is arranged at the upper end of the supporting rod 401, an oil conveying hose 404 is connected to the lower portion of the oil bottle 402, the oil outlet end of the oil conveying hose 404 is fixed in a fixing groove on the supporting rod 303, a speed control switch 405 is arranged on the oil conveying hose 404, and the speed control switch is adjusted to achieve the oil outlet quantity of the oil outlet end of the oil conveying hose.

The oiling method of the full-automatic oiling machine for the ring bobbin comprises the following steps: a plurality of bobbins are placed on an arc-shaped feeding plate, and the oil outlet end of an oil delivery hose is arranged in a fixed groove on a supporting rod; then start the dual output motor, the dual output motor rotates and drives transmission shaft and cam module and rotate, the transmission shaft drives the right rotation seat through the belt and rotates, cam module's second cam contacts with the second push wheel in the rotation process, the second cam rotates and promotes the second push wheel and moves about, and then realize the left and right flexible of expansion plate, and then realize the left and right movement of push plate, when push plate moved to the right, the direction flange gets into the guide way under the effect of push plate, promote the sliding plate forward movement, take over the seat and stretch out the arc delivery plate this moment, be used for receiving the spool that rolls down from the arc delivery plate, and send to between left movable seat and the right rotation seat, the spool rotates under the effect of right rotation seat, cam module's first cam drives the telescopic shaft through first push wheel and moves about, the telescopic shaft drives the branch through the fixing base and wears the pole and move about, when wearing the pole and moves right, pass the spool that is located between left movable seat and the right rotation seat, evenly refuel to spool inner wall, then left movable seat moves phase by phase under the effect of connecting push block, loosen the spool, spool falls on the slope slide, through the slope to the spool that slides down, the spool is collected in the slide, so finished and refueled spool.

Other structures are the same as those of embodiment 2.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.

Claims (6)

1. A full-automatic spinning frame oiling machine is characterized in that: the bobbin collecting device comprises a frame (1), wherein the frame (1) is provided with a bobbin feeding device (2), a bobbin clamping device (3), an oil feeding device (4), a transmission device (5), a bobbin collecting device (6) and an electric appliance control device (7), the bobbin feeding device (2) and the bobbin clamping device (3) are connected with the transmission device (5), the transmission device (5) is connected with the electric appliance control device (7), the oil feeding device (4) is connected with the bobbin clamping device (3), the bobbin feeding device (2) corresponds to the bobbin clamping device (3), the bobbin collecting device (6) comprises an inclined sliding plate (601) arranged below the bobbin clamping device (3), and the inclined sliding plate (601) corresponds to a collecting box (602) arranged on the frame (1);

the transmission device (5) comprises a transmission box (501) arranged on the frame (1), a double-output motor (502), a telescopic shaft (503), a telescopic plate (504) and a transmission shaft (505) are arranged in the transmission box (501), a cam component is arranged on one output shaft of the double-output motor (502), the other output shaft is connected with the transmission shaft (505), the transmission shaft (505) extends out of the transmission box (501), and the telescopic shaft (503) and the telescopic plate (504) are respectively connected with the cam component; one end of the expansion plate (504) positioned outside the transmission case (501) is provided with a pushing plate (516), and the outer end of the pushing plate (516) is provided with a guide convex plate (517);

the bobbin feeding device (2) comprises an arc-shaped feeding plate (201) fixedly connected with the frame (1), a support frame (202) is arranged at the bottom of the arc-shaped feeding plate (201), a sliding plate (203) is arranged on the support frame (202) in a sliding mode, a tube receiving seat (204) is arranged at the front end of the sliding plate (203), a guide plate seat (205) is arranged at the rear end of the sliding plate (203), the guide plate seat (205) is connected with the support frame (202) through a first spring (206), a guide groove is formed in the guide plate seat (205), and the guide groove is matched with the guide convex plate (517);

the bobbin clamping device (3) comprises a left moving seat (301), a right rotating seat (302) and a supporting rod (303), wherein the left moving seat (301), the right rotating seat (302) and the supporting rod (303) are positioned on the same straight line, and the supporting rod (303) passes through the left moving seat (301) to correspond to the right rotating seat (302); the supporting rod (303) is fixedly connected with the telescopic shaft (503) through the fixing seat (304), a fixing groove is formed in the supporting rod (303), a guide plate (305) is arranged on one side of the left moving seat (301), a sliding rod (306) is arranged on the other side of the supporting rod, the guide plate (305) is matched with a guide groove seat (316) arranged on the frame (1), the guide plate (305) is in sliding connection with the guide groove seat (316), one end of the sliding rod (306) is fixedly connected with the left moving seat (301), the other end of the sliding rod extends into the transmission case (501), a connecting pushing block (307) is arranged on an area, located outside the transmission case (501), of the sliding rod (306), the connecting pushing block (307) is fixedly connected with the sliding rod (306), and the connecting pushing block (307) corresponds to the fixing seat (304);

the oil feeding device (4) comprises a supporting rod (401) fixedly connected with the frame (1), an oil bottle support (403) for supporting an oil bottle (402) is arranged at the upper end of the supporting rod (401), an oil conveying hose (404) is connected to the lower part of the oil bottle (402), the oil outlet end of the oil conveying hose (404) is fixed in a fixed groove on the supporting rod (303), and a speed control switch (405) is arranged on the oil conveying hose (404); the telescopic shaft (503) drives the supporting rod (303) to move left and right through the fixing seat, and when the supporting rod (303) moves rightwards, the bobbin positioned between the left moving seat (301) and the right rotating seat (302) is penetrated, so that the inner wall of the bobbin is uniformly oiled.

2. The full-automatic yarn tube oiling machine according to claim 1, wherein: the cam assembly comprises a shaft sleeve (506) connected with an output shaft of the double-output motor (502), a first cam (507) and a second cam (508) which are arranged in parallel are fixedly arranged on the shaft sleeve (506), a first push wheel (509) is arranged on the first cam (507), the telescopic shaft (503) is fixedly connected with the transmission case (501) through a supporting shaft sleeve (510), one end of the telescopic shaft (503) extends out of the transmission case (501), a connecting arm (511) is arranged on the telescopic shaft (503), one end of the connecting arm (511) is fixedly connected with the telescopic shaft (503), a groove plate (512) is arranged at the other end of the connecting arm, and the first push wheel (509) is arranged in the groove plate (512) and is matched with the groove plate (512).

3. The spun yarn bobbin fully automatic oiling machine according to claim 2, wherein: the telescopic plate (504) is connected with the transmission case (501) through the supporting seat (513), one end of the telescopic plate (504) located in the transmission case (501) is provided with a U-shaped groove seat (514), a second push wheel (515) is hinged in the U-shaped groove seat (514), the second push wheel (515) and the second cam (508) are located in the same vertical plane and are matched with the second cam (508), a return spring is arranged at the lower portion of the push plate (516), one end of the return spring is fixedly connected with the push plate (516), and the other end of the return spring is connected with the transmission case (501).

4. A spun yarn bobbin fully automatic oiling machine according to claim 1 or 3, characterized in that: the arc-shaped feeding plate (201) is obliquely arranged, the included angle between the arc-shaped feeding plate (201) and the horizontal plane is 3-15 degrees, the discharge end of the arc-shaped feeding plate (201) is provided with a positioning plate (207), the positioning plate (207) is respectively arranged on the inner side of the arc-shaped feeding plate (201) and extends out of the arc-shaped feeding plate (201), and the positioning plate (207) corresponds to the connecting pipe seat (204).

5. The full-automatic fuel dispenser of claim 4, wherein: the highest surface of the connecting push block (307) is higher than the lowest surface of the fixing seat (304), a positioning shaft (308) is arranged at the lower part of the connecting push block (307), the positioning shaft (308) is matched with a positioning seat (309) arranged on the frame (1), a second spring (310) is arranged at the bottom of the positioning shaft (308), one end of the second spring (310) is connected with the positioning shaft (308), and the other end of the second spring is connected with the positioning seat (309).

6. The full-automatic yarn tube oiling machine according to claim 5, wherein: the right rotating seat (302) is connected with the frame (1) through a bracket (311), a positioning groove is formed in the left side of the right rotating seat (302), a rotating shaft (312) is arranged on the right side of the right rotating seat (302), a driven belt wheel (313) is arranged on the rotating shaft (312), a driving belt wheel (314) is arranged at one end, extending out of the transmission case (501), of the transmission shaft (505), and the driving belt wheel (314) is connected with the driven belt wheel (313) through a belt (315).

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