CN110606328A - Pipe lifting separator - Google Patents

Abstract

The invention relates to the technical field of spinning machines, in particular to a tube lifting separator. The existing pipe lifting separator has the following defects that the bobbin is easy to be blocked, the installation and the transportation are inconvenient, and the material, the installation and the labor cost are high. A tube lifting separator is characterized in that a bottom plate assembly is provided with a rack, the rack is also provided with an anti-jamming mechanism, a scissors assembly, a bobbin positioning device, a shooting mechanism, a butt joint hopper, a large bobbin connecting tube, a small bobbin connecting tube, a transmission device, a transmission roller, a shooting trigger mechanism, a connecting plate and a bobbin pulling device, bobbins enter the butt joint hopper, and the transmission roller is connected with a power device to drive the transmission device to upwards transmit bobbins; a shooting trigger mechanism is arranged on one side of the large bobbin connecting pipe and the small bobbin connecting pipe, and bobbin pulling devices are respectively arranged on the other side of the large bobbin connecting pipe and the small bobbin connecting pipe; and a laser correlation sensor is arranged above the shooting mechanism. Use this practical spool to shoot the location more accurate, improved spool resolution ratio, simplified the structure, solved the problem that original tub separating centrifuge can't be solved of carrying, the cost is reduced.

Description

Pipe lifting separator

Technical Field

The invention relates to the technical field of spinning machines, in particular to a tube lifting separator.

Background

The bobbin lifting separator is a textile device for arranging and conveying bobbins to the next process, wherein most of the bobbins are bobbins without yarns, but a large number of tail yarns and large bobbins which cannot be identified by the device exist, another part of waste bobbins and small bobbins with a few yarns are added, the bobbins are required to be removed and cannot be conveyed to the next process, and the bobbins conveyed upwards are required to be qualified.

The existing bobbin lifting separator has the following defects, the bobbin is easy to clamp, after the bobbin is clamped, the lifting belt can be immediately deflected to cause the belt baffle to be touched and damaged with an iron piece on the edge, the bobbin phenomenon is difficult to clear after the bobbin is clamped, a rotating part can easily wind yarns, once the yarns are wound, the motor load can be doubled and tightened, if the motor load is not timely cleaned, the driving motor can be damaged, the yarns are also difficult to clean, and the bobbin identification is inaccurate due to the fact that the bobbin is shot and positioned every time due to structural reasons. Firstly, the method comprises the following steps: installation and transportation are inconvenient, two: the material cost is high, and three: the installation cost is high, 2-3 days are needed for installing one device, and the labor cost is high.

Disclosure of Invention

The invention aims to provide a pipe lifting separator with simple structure and low cost aiming at the defects of the prior art.

A tube lifting separator comprises a rack and a bottom plate assembly, wherein the bottom plate assembly is provided with the rack, the rack is also provided with an anti-jamming mechanism, a scissors assembly, a bobbin positioning device, a shooting mechanism, a butt joint hopper, a large bobbin connecting tube, a small bobbin connecting tube, a transmission device, transmission rollers for connecting two ends of the transmission device, a shooting trigger mechanism, a connecting joint plate and a bobbin poking device, a bobbin enters from the butt joint hopper connected to the anti-jamming mechanism, the transmission roller at one end is connected with a power device, the transmission device is driven to upwards transmit the bobbin, and the bobbin is transmitted outwards from the connecting joint plate; one side of the large bobbin connecting pipe and one side of the small bobbin connecting pipe are provided with shooting trigger mechanisms, and the other sides of the large bobbin connecting pipe and the small bobbin connecting pipe are respectively provided with bobbin poking devices; and a laser correlation sensor is arranged above the shooting mechanism and used for sensing the large bobbin.

As a further improvement and complement to the above solution, the present invention also includes the following additional technical features:

the anti-jamming mechanism comprises a lifting bucket, a lifting head cover fixed through pin shafts at two ends of the lifting bucket, and a lifting head cover controlled to be opened and closed by a mini cylinder; the outside of the mini cylinder is provided with a mini cylinder cover, when the number of the bobbins is too large or the bobbins are clamped, the lifting head cover is opened through the mini cylinder, and the bobbins are controlled to fall down.

The bobbin positioning device comprises a positioning support, a positioning pressure plate is sleeved on the positioning support and consists of two parts, namely an arc-shaped hook block and a flat square block; an anti-erecting baffle fixed through an anti-erecting support is arranged below the hook block, the anti-erecting baffles are connected in a right angle mode, and extend a certain distance downwards to prevent the bobbin from being erected vertically; a tension spring is arranged between the square block and the anti-erecting support, two ends of the tension spring are respectively pulled on the square block and the anti-erecting support, the tension spring is pressed downwards through the square block, and the hook block is inclined forwards to press the bobbin forwards for position correction; and a positioning bolt is arranged on the square block, one end of the positioning bolt is connected to the square block, and the other end of the positioning bolt is abutted against the positioning support to adjust the front pressing position.

The conveying device comprises belt baffles, a belt and a lifting belt positioning pin, the belt is provided with a plurality of belt baffles, the lifting belt positioning pin is arranged at two ends of each belt baffle, the middle of each belt baffle is fixed by a connecting bolt, and the conveying device is used for conveying the bobbins.

The belt baffle comprises a first plate, a second plate and a third plate, wherein the first plate is vertically arranged, the second plate and the first plate are connected in an inclined downward 60-80 degrees mode, the third plate and the second plate are connected in an inclined upward 150-170 degrees mode, the placing position formed between the third plate and the second plate is slightly larger than the diameter of one bobbin, and an inwards concave arc notch is formed in the middle of the third plate. The belt baffle is matched with the positioning support to effectively position the yarn tube.

The shooting trigger mechanism comprises a shooting trigger base and a belt, the shooting trigger base is positioned behind the belt, a shooting trigger rod is movably connected in front of the shooting trigger base, and a proximity switch is arranged below the shooting trigger base and is positioned right below the shooting trigger rod; a lifting belt positioning pin is arranged behind the belt and abuts against the photographing trigger rod, the belt rotates to drive the lifting belt positioning pin to rotate upwards, and the photographing trigger rod is pushed upwards by the lifting belt positioning pin to rotate; and an adjusting bolt is arranged on the right side of the proximity switch. The consistency of shooting positions is guaranteed through the shooting trigger mechanism, and the bobbins can be effectively distinguished.

The power device of the transmission device is a motor.

The yarn pulling cylinder seat is fixedly provided with a cylinder, a connector of the cylinder is connected with a yarn pulling shaft rod through a pin shaft, a first connecting shaft is arranged on the yarn pulling shaft rod, a second connecting shaft is arranged on the opposite side of the first connecting shaft, yarn pulling shafts are respectively arranged on the first connecting shaft and the second connecting shaft, and the first connecting shaft and the second connecting shaft are connected through a connecting plate; the first connecting shaft and the second connecting shaft are respectively fixed on the frame through yarn poking shaft positioning sleeves; and flange bearings are respectively arranged between the first connecting shaft and the connecting plate, and between the second connecting shaft and the connecting plate. The length of the cylinder is increased to control and drive the yarn poking shafts on the first connecting shaft and the second connecting shaft to rotate forwards by a certain angle, so that the yarn bobbin is poked down.

The driving roller is provided with an opening, and the size and the position of the opening are consistent with those of a lifting belt positioning pin and a connecting bolt which are arranged on the belt baffle. Prevent the belt skew, the transmission is accurate.

The outlet of the large bobbin connecting pipe and the outlet of the small bobbin connecting pipe are respectively sleeved with an anti-jumping cover made of canvas materials, and the falling position of the bobbin is fixed; the outside of frame be equipped with baffle subassembly, effectively protected each part to prevent pollution such as dust.

The invention can achieve the following beneficial effects: the spool is shot and is fixed a position more accurately, has improved spool resolution ratio, has simplified the structure, and the external dimension has diminished, and area has diminished, has solved the unable problem of solving of original tub separating centrifuge of carrying (card pipe, shoot unclear, wind the yarn easily, maintenance and maintenance difficulty), has reduced raw and other materials cost, and the assembly rate is 2 times faster than original, is showing and has reduced the cost of labor.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a front view of the present invention.

Fig. 3 is a left side view of the present invention.

Fig. 4 is a right side view of the present invention.

Fig. 5 is a rear view of the present invention.

Fig. 6 is a bottom view of the present invention.

Fig. 7 is a schematic view of the structure of the driving roller 20 in the present invention.

Fig. 8 is a schematic structural view of the anti-seizing mechanism 3 of the present invention.

Fig. 9 is a schematic structural view of the bobbin positioning device 5 of the present invention.

Fig. 10 is a schematic structural view of a positioning bracket 501, a positioning pressure plate 502, and a positioning bolt 503 in the bobbin positioning device 5 according to the present invention.

Fig. 11 is a schematic structural view of the transfer device 10 of the present invention.

Fig. 12 is a schematic view of the structure of a belt guard 1001 in the conveying apparatus 10 of the present invention.

Fig. 13 is a schematic structural view of the shooting trigger mechanism 12 in the present invention.

Fig. 14 is a front view of the trigger mechanism 12 of the present invention in two states.

Fig. 15 is a front view of the bobbin pulling mechanism 15 in the present invention.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings.

As shown in fig. 1-15, the present invention is a tube separator.

The pipe lifting separator comprises a frame 1 and a bottom plate component 2, wherein the frame 1 is arranged on the bottom plate component 2, the bottom plate component 2 comprises a supporting plate and an adjusting base, and the frame 1 is adjusted and supported by the bottom plate component 2. Frame 1 on still be equipped with anti-sticking mechanism 3, scissors subassembly 4, spool positioner 5, shoot mechanism 6, butt joint fill 7, big spool takeover 8, little spool takeover 9, transmission device 10, connect the driving roller 20 at transmission device 10 both ends, shoot trigger mechanism 12, connect fishplate bar 14 and dial spool device 15, the spool gets into by being connected to butt joint fill 7 on anti-sticking mechanism 3, wherein one end driving roller 20 connects power device, other end driving roller 20 connects in frame 1, transmission device 10's power device be motor 11, motor 11 fix on frame 1 by motor support 17, motor 11 passes through shaft coupling 18 and is connected with driving roller 20, drive transmission device 10 upwards transmission spool, outwards transmit the spool from connecting fishplate bar 14. A shooting trigger mechanism 12 is arranged on one side of the large bobbin connecting pipe 8 and one side of the small bobbin connecting pipe 9 and is used for shooting tail yarn and small bobbins, bobbin poking devices 15 are respectively arranged on the other sides of the large bobbin connecting pipe 8 and the small bobbin connecting pipe 9, and unqualified bobbins are poked away from the transmission device 10; and a laser correlation sensor 19 is arranged above the shooting mechanism 6 and used for sensing the large bobbin. The camera mechanism 6 and scissor assembly 4 are prior art and are commercially available. The scissors assemblies 4 are arranged at two sides of the transmission device 10, and the bobbin positioning device 5 is arranged between the two scissors assemblies 4.

Furthermore, the anti-jamming mechanism 3 comprises an elevator bucket 31, the butt bucket 7 is connected to the elevator bucket 31, a hoist head cover 32 is fixed through pin shafts 34 at two ends of the elevator bucket 31, and the hoist head cover 32 is controlled to open and close by a mini cylinder 33; one end of the mini cylinder 33 is fixed on the bottom plate component 2, and a mini cylinder cover 35 is arranged on the outer side of the mini cylinder 33 and used for protecting the mini cylinder 33.

Further, the bobbin positioning device 5 comprises a positioning support 501, a positioning pressing plate 502 is sleeved on the positioning support 501, the positioning pressing plate 502 is composed of two parts, namely an arc-shaped hook block and a flat square block; an anti-vertical baffle 505 fixed through an anti-vertical support 506 is arranged below the hook block, the anti-vertical baffles 505 are connected in a right angle, and the anti-vertical baffle 505 extends downwards for a certain distance to effectively prevent the bobbin from being vertically upright; a tension spring 504 is arranged between the square block and the anti-erecting support 506, two ends of the tension spring 504 are respectively pulled on the square block and the anti-erecting support 506, the tension spring 504 is pressed downwards through the square block, and the bobbin is pressed forwards by the forward tilting hook block; a positioning bolt 503 is set on the square block, one end of the positioning bolt 503 is connected to the square block, the other end of the positioning bolt 503 is abutted against the positioning bracket 501, and the bobbin pressing-in position is adjusted by the positioning bolt 503. The positioning bracket 501 is fixed on the frame 1, and the anti-erecting bracket 6 is fixed on the lift bucket 31.

Further, transmission device 10 include belt baffle 1001, belt 1002 and lifting belt locating pin 1003, all be equipped with a plurality of belt baffles 1001 on the belt 1002, a plurality of belt baffles 1001 both ends are equipped with lifting belt locating pin 1003, and the centre is fixed by connecting bolt, and the spool passes through transmission device 10 and transmits.

Further, the belt baffle 1001 includes a first plate 10011, a second plate 10012 and a third plate 10013, the first plate 10011 is vertically disposed, the second plate 10012 and the first plate 10011 are connected in an inclined downward 60-80 degrees, the third plate 10013 and the second plate 10012 are connected in an inclined upward 150-170 degrees, a placement position formed between the third plate 10013 and the second plate 10012 is slightly larger than a diameter of a bobbin, an inwardly concave arc notch is disposed in the middle of the third plate 10013, the depth of the inwardly concave arc notch is the largest in the middle, and the depth of the inwardly concave arc notch is reduced from the middle to the two ends and is connected with the edge of the third plate 10013, so that two bobbins can be prevented from being stacked. Meanwhile, the concave arc notch of the third plate 10013 is combined with the positioning pressing plate 502, and the positioning pressing plate 502 is pressed forward to the concave arc notch of the third plate 10013 to be positioned, so as to correctly position the bobbin.

Further, the photographing triggering mechanism 12 includes a photographing triggering base 1201 and a belt 1002, the photographing triggering base 1201 is located behind the belt 1002, a photographing triggering rod 1202 is movably connected in front of the photographing triggering base 1201, and a proximity switch 1203 is arranged below the photographing triggering base 1201 and is located right below the photographing triggering rod 1202; the rear of belt 1002 is equipped with lifting belt locating pin 1003, lifting belt locating pin 1003 be cylindrical structure, one end is fixed on belt 1002, and one end outwards extends. The lifting belt positioning pin 1003 abuts against the photographing trigger rod 1202, the belt 1002 rotates to drive the lifting belt positioning pin 1003 to rotate upwards, and the photographing trigger rod 1202 is pushed upwards by the lifting belt positioning pin 1002 to rotate; an adjusting bolt 1204 is arranged on the right side of the proximity switch 1203. After the photographing trigger rod 1202 is pushed upwards by the lifting belt positioning pin 1002 to rotate by a certain angle, the photographing trigger rod 1202 is separated from the lifting belt positioning pin 1002, and when the proximity switch 1203 cannot sense the photographing trigger rod 1202, the photographing mechanism 6 photographs, so that the small bobbin and the tail bobbin are distinguished.

Further, dial spool device 15 including dialling yarn cylinder block 1509, dialling yarn cylinder block 1509 on be fixed with cylinder 1507, cylinder 1507's connector is connected with dialling yarn axostylus axostyle 1506 through round pin axle 1508, cylinder 1507's connector be joint bearing, dialling yarn axostylus axostyle 1506 be the shift fork structure. The yarn pulling shaft rod 1506 is provided with a first connecting shaft 1505, a second connecting shaft 1503 is arranged on the opposite side of the first connecting shaft 1505, yarn pulling shafts 1501 are respectively arranged on the first connecting shaft 1505 and the second connecting shaft 1503, the yarn pulling shafts 1501 are vertically connected with the first connecting shaft 1505 and the second connecting shaft 1503, the first connecting shaft 1505 and the second connecting shaft 1503 are connected through a connecting plate 1504, and the connecting plate 1504 is of a frame-shaped sheet metal structure with an opening on one side and is light in weight. The first connecting shaft 1505 and the second connecting shaft 1503 are respectively fixed on the frame 1 through a yarn pulling shaft positioning sleeve 1502; and flange bearings 1510 are respectively arranged between the first connecting shaft 1505 and the connecting plate 1504 and between the second connecting shaft 1503 and the connecting plate 1504.

Further, the driving roller 20 is provided with an opening, and the size and the position of the opening are consistent with those of a lifting belt positioning pin 1003 and a connecting bolt which are arranged on the belt baffle 1001. Slippage of the belt 1002 is effectively prevented.

Furthermore, the anti-jumping covers 13 made of canvas materials are respectively sleeved at the outlets of the large bobbin connecting pipe 8 and the small bobbin connecting pipe 9 to prevent the bobbins from scattering outside; and a baffle plate assembly 16 is arranged on the outer side of the frame 1 for effective protection.

When the bobbin lifting separator is used, an unseparated bobbin enters the lifting bucket 31 from the butt bucket 7, and if the bobbin is too many or is jammed, the lifting head cover 32 is opened by the mini cylinder 33, and the bobbin falls from the lifting bucket 31. The bobbin that does not fall enters the belt baffle 1001 on the belt 1002, the scissors assembly 4 is used for cutting off yarns (if yarns exist), meanwhile, the positioning pressing plate 502 in the bobbin positioning device 5 is matched with the belt baffle 1001 to correctly position the bobbin, after the bobbin is conveyed upwards for a certain distance, the shooting trigger mechanism 12 is used for positioning the shooting position, and meanwhile, the shooting mechanism 6 is used for shooting to distinguish the small bobbin from the tail bobbin. Then upwards transmits a certain distance, a laser correlation sensor 19 is arranged above the shooting mechanism 6 and used for sensing the big bobbin, and the big bobbin is pulled away by a bobbin pulling device 15 after sensing and falls down from a big bobbin connecting pipe 8 outwards. And then the tail yarn and the small bobbin are separated by the bobbin pulling device 15 and fall outwards from the small bobbin connecting pipe 9. The acceptable tubes continue to be transported downwardly and outwardly from the connecting tab 14. The operating principle of the bobbin poking device 15 is as follows, the cylinder 1507 extends to drive the yarn poking shaft rod 1506 to rotate by a certain angle, the yarn poking shaft rod 1506 simultaneously drives the first connecting shaft 1505 to rotate, then the first connecting shaft 1505 drives the second connecting shaft 1503 to rotate, and simultaneously the first connecting shaft 1505 and the second connecting shaft 1503 drive the yarn poking shaft 1501 to rotate forwards to poke the bobbin.

The above is the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, and variations and modifications made by those skilled in the art according to the design concept of the present invention should be considered to be within the scope of the present invention.

Claims (10)

1. The utility model provides a carry a tub separating centrifuge, includes frame (1) and bottom plate subassembly (2), bottom plate subassembly (2) on be equipped with frame (1), its characterized in that: the bobbin picking machine is characterized in that the rack (1) is further provided with an anti-jamming mechanism (3), a scissors assembly (4), a bobbin positioning device (5), a shooting mechanism (6), a butt joint hopper (7), a large bobbin connecting pipe (8), a small bobbin connecting pipe (9), a transmission device (10), transmission rollers (20) connected with two ends of the transmission device (10), a shooting trigger mechanism (12), a connection connecting plate (14) and a bobbin pulling device (15), bobbins enter from the butt joint hopper (7) connected to the anti-jamming mechanism (3), one end of the transmission rollers (20) is connected with a power device, the transmission device (10) is driven to transmit the bobbins upwards, and the bobbins are transmitted outwards from the connection connecting plate (14); a shooting trigger mechanism (12) is arranged on one side of the large bobbin connecting pipe (8) and the small bobbin connecting pipe (9), and bobbin poking devices (15) are respectively arranged on the other side; a laser correlation sensor (19) is arranged above the shooting mechanism (6) and used for sensing the big bobbin.

2. The tube extractor as recited in claim 1, further comprising: the anti-jamming mechanism (3) comprises an elevator bucket (31), a lifting head cover (32) fixed through pin shafts (34) at two ends of the elevator bucket (31), and the lifting head cover (32) controlled to be opened and closed by a mini cylinder (33); the outer side of the mini cylinder (33) is provided with a mini cylinder cover (35).

3. The tube extractor as recited in claim 2, further comprising: bobbin positioner (5) including locating support (501), its characterized in that: the positioning support (501) is sleeved with a positioning pressure plate (502), and the positioning pressure plate (502) consists of two parts, namely an arc-shaped hook block and a flat square block; an anti-vertical baffle (505) fixed through an anti-vertical support (506) is arranged below the hook block, the anti-vertical baffles (505) are connected in a right angle, and the anti-vertical baffle (505) extends downwards for a certain distance to prevent the bobbin from being vertically upright; a tension spring (504) is arranged between the square block and the anti-erecting support (506), two ends of the tension spring (504) are respectively pulled on the square block and the anti-erecting support (506), and the tension spring (504) is pressed down through the square block to drive the hook block to tilt forward to press the bobbin forward; a positioning bolt (503) is set on the square block, one end of the positioning bolt (503) is connected to the square block, and the other end of the positioning bolt abuts against the positioning support (501).

4. The tube extractor as recited in claim 1, further comprising: the conveying device (10) comprises a belt baffle (1001), a belt (1002) and a lifting belt positioning pin (1003), wherein the belt (1002) is provided with the belt baffles (1001), the two ends of the belt baffles (1001) are provided with the lifting belt positioning pin (1003), and the middle of the belt baffles is fixed by a connecting bolt.

5. The tube extractor as recited in claim 4, further comprising: the belt baffle (1001) comprises a first plate (10011), a second plate (10012) and a third plate (10013), wherein the first plate (10011) is vertically arranged, the second plate (10012) is connected with the first plate (10011) in an inclined downward 60-80 degrees, the third plate (10013) is connected with the second plate (10012) in an inclined upward 150-170 degrees, the placing position formed between the third plate (10013) and the second plate (10012) is slightly larger than the diameter of one bobbin, and an inward concave arc notch is formed in the middle of the third plate (10013).

6. The tube extractor as recited in claim 4, further comprising: the shooting trigger mechanism (12) comprises a shooting trigger base (1201) and a belt (1002), the shooting trigger base (1201) is positioned behind the belt (1002), a shooting trigger rod (1202) is movably connected in front of the shooting trigger base (1201), and a proximity switch (1203) is arranged below the shooting trigger base (1201) and is positioned right below the shooting trigger rod (1202); a lifting belt positioning pin (1003) is arranged behind the belt (1002), the lifting belt positioning pin (1003) abuts against the photographing trigger rod (1202), the belt (1002) rotates to drive the lifting belt positioning pin (1003) to rotate upwards, and the photographing trigger rod (1202) is pushed upwards by the lifting belt positioning pin (1002) to rotate; an adjusting bolt (1204) is arranged on the right side of the proximity switch (1203).

7. The tube extractor as recited in claim 1, further comprising: the power device of the transmission device (10) is a motor (11).

8. The tube extractor as recited in claim 1, further comprising: dial spool device (15) including dialling yarn cylinder block (1509), its characterized in that: a cylinder (1507) is fixed on the yarn poking cylinder seat (1509), a connector of the cylinder (1507) is connected with a yarn poking shaft rod (1506) through a pin shaft (1508), a first connecting shaft (1505) is arranged on the yarn poking shaft rod (1506), a second connecting shaft (1503) is arranged on the opposite side of the first connecting shaft (1505), yarn poking shafts (1501) are respectively arranged on the first connecting shaft (1505) and the second connecting shaft (1503), and the first connecting shaft (1505) and the second connecting shaft (1503) are connected through a connecting plate (1504); the first connecting shaft (1505) and the second connecting shaft (1503) are respectively fixed on the frame (1) through a yarn poking shaft positioning sleeve (1502); and flange bearings (1510) are respectively arranged between the first connecting shaft (1505) and the connecting plate (1504) and between the second connecting shaft (1503) and the connecting plate (1504).

9. The tube extractor as recited in claim 4, further comprising: the driving roller (20) is provided with an opening, and the size and the position of the opening are consistent with those of a lifting belt positioning pin (1003) and a connecting bolt which are arranged on the belt baffle (1001).

10. A tube extractor according to any of claims 1-9, wherein: the anti-jumping covers (13) made of canvas materials are respectively sleeved at the outlets of the large bobbin connecting pipe (8) and the small bobbin connecting pipe (9); and a baffle plate assembly (16) is arranged on the outer side of the frame (1).