CN211394982U - Six-pipe shearing machine for sock production - Google Patents

Abstract

The utility model discloses a six-pipe shearing machine for sock production, which comprises a machine body, a three-station rotating mechanism, a shearing mechanism and a sock taking mechanism, wherein the three-station rotating mechanism is arranged above the machine body and is used for installing socks and moving the socks to the stations of the sock taking mechanism or the shearing mechanism for processing through rotation; the shearing mechanism is arranged on one side of the three-station rotating mechanism and is used for shearing socks on the three-station rotating mechanism; get socks mechanism and set up in three station rotary mechanism's opposite side, get socks mechanism and be used for taking off and deriving the socks that will install to accomplish the shearing on three station rotary mechanism, the utility model discloses a production and processing of socks, this shearing machine adopt six pipe three stations, and wherein six pipes are six socks pipes, and three stations are the socks station, take off socks station and shearing station, can drive the interconversion of three station through the carousel, have greatly accelerated the speed of shearing the hair to socks in the socks production like this, have promoted the production efficiency of socks effectively.

Description

Six-pipe shearing machine for sock production

Technical Field

The utility model belongs to the technical field of socks production, specifically a six pipe shearing machines are used in socks production.

Background

Socks, a dress article worn on feet, are divided into cotton yarn socks, woolen socks, silk socks, various chemical fiber socks and the like according to raw materials; the stockings, the Chinese socks, the socks and the like are provided with a plurality of styles and varieties such as plain ends, rib tops, heels, heelless, jacquard weave, woven patterns and the like according to the modeling;

and socks production is with six pipe shearing machines are one kind and carry out the device of shearing the hair to socks at the in-process of socks production and processing, however the most simple structure of current device, socks need artifical cover on the leg of a stocking, still need the manual work to take off it after the shearing is accomplished, take a lot of work and time, and can produce a large amount of fly yarn at the in-process of socks shearing.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's defect, provide a six pipe shearing machines are used in socks production.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a six-tube shearing machine for sock production comprises a machine body, a three-station rotating mechanism, a shearing mechanism and a sock taking mechanism which are arranged above the machine body, wherein,

the three-station rotating mechanism is used for installing socks and moving the socks to the stations of the sock taking mechanism or the shearing mechanism for processing through rotation;

the shearing mechanism is arranged on one side of the three-station rotating mechanism and is used for shearing socks on the three-station rotating mechanism;

the sock taking mechanism is arranged on the other side of the three-station rotating mechanism and used for taking down and leading out socks which are arranged on the three-station rotating mechanism and complete shearing.

Preferably, the three-station rotating mechanism comprises a rotating disc arranged on the machine body and a driving device arranged in the machine body and used for driving the rotating disc to rotate, six socks are equidistantly arranged at the edge above the rotating disc, six shaft sleeves are equidistantly arranged at the edge below the rotating disc, bearings are sleeved inside the shaft sleeves, the socks are inserted above the inside of the bearings, and rotating butt joints are sleeved below the inside of the bearings;

the driving device comprises a motor arranged inside the machine body and a rack sleeved on the motor and used for installing the motor in the machine body, a transmission rotating shaft is installed on an output shaft of the motor, the top of the transmission rotating shaft penetrates through a top plate of the machine body and is connected with a turntable, and the lower position of the turntable is located outside the transmission rotating shaft and is arranged on a protective cover.

Preferably, the shearing mechanism comprises a cutter head arranged above the machine body and capable of moving in the vertical direction, an electric rail arranged above the machine body and used for driving the cutter head to move in the vertical direction, and an electric rail fixing frame used for fixing the electric rail above the machine body, wherein,

the electric rail front surface is fixed with an electric rail front cover through bolts, a movable tray capable of moving in the vertical direction is arranged on the front surface of the electric rail front cover, strip-shaped gaps are formed in two sides of the electric rail front cover, two sides of the movable tray extend into the electric rail through the gaps, a tool bit mounting plate is arranged on the surface of the movable tray, a tool bit is mounted on the tool bit mounting plate, an electric rail sleeve shaft is arranged in the electric rail and connected with the movable tray, an electric rail motor is arranged at the bottom of the electric rail, an output shaft of the electric rail motor extends into the electric rail and is connected with a lead screw, and the lead screw penetrates through the electric rail sleeve shaft;

the cutter head is connected with a cutter head motor through a flexible shaft;

the yarn collecting device is characterized in that a yarn sucking tube is further arranged on the cutter head, the yarn sucking tube is a hose, and one end of the yarn sucking tube is connected with a negative-pressure yarn collecting barrel.

Preferably, one side top and the below of electric rail all are provided with and are used for the restriction remove the spacing seat of tray shift position, the part that removes the tray and be located the electric rail inside is provided with the slider, the electric rail is inside to be provided with the cooperation the guide rail that the slider used, the slider block is in on the guide rail.

Preferably, the sock taking mechanism comprises a sock taking-off mechanism arranged above the machine body and used for dropping the sock from the sock tube, and a sock discharging mechanism arranged inside the machine body and used for guiding out the sock taken off by the sock taking-off mechanism,

the sock taking-off mechanism comprises a main board as a carrier, a flat board arranged on the main board and capable of lifting and a fixed board arranged on the rear surface of the main board and used for fixing the main board, a sock taking clamp capable of moving horizontally is arranged on the flat board and used for taking out socks sleeved on the sock tubes upwards;

go out socks mechanism and go out the socks pipe and vice socks pipe including being used for going out the main of socks derivation, the main one end that goes out the socks pipe extends to organism external connection has out the socks fill, the one end that vice socks pipe was gone out is also connected go out on the socks fill, the main other end that goes out the socks pipe extends to organism internally mounted has the lift to connect the pipe, the lift to connect socketed portion with the other end that vice socks pipe was gone out is connected, the butt joint lifter plate has been cup jointed on the lift is connected to the pipe, the butt joint lifter plate can remove in vertical direction.

Preferably, slide rails are arranged at two sides of the front surface of the main board, a first slide block is fixed on the slide rails in a clamping manner, the flat board is arranged above the first slide block, a second cylinder is fixed at the center of the lower portion of the first slide block on the front surface of the main board, and a piston rod of the second cylinder is connected with the bottom of the first slide block.

Preferably, dull and stereotyped upper surface both sides department is provided with first guide rail, the bottom of getting the socks clamp is provided with the cooperation spacing fixture block that first guide rail used, spacing fixture block is in on the first guide rail, the upper surface of first slider is provided with first cylinder, the piston rod of first cylinder with it connects to get one side of socks clamp.

Preferably, the slide rail below still block has the second slider, the one end welding of butt joint lifter plate is in on the second slider, the top of going up and down to the pipe is in same vertical on-line with one of them hose, the third cylinder is still installed to the bottom of mainboard, the piston rod of third cylinder with the bottom of second slider is connected.

Preferably, the number of the lifting butt joint pipes is two, air valves are arranged at the connecting positions of the bottoms of the lifting butt joint pipes and the auxiliary sock outlet pipes, an air valve fixing plate is arranged between the two air valves, a negative pressure fan three-way pipe is arranged below the air valve fixing plate, a fan is further arranged inside the machine body, and the negative pressure fan three-way pipe is communicated with the two auxiliary sock outlet pipes and the fan.

Preferably, a jacking driving mechanism for driving the sock tube to rotate when reaching the position of the shearing mechanism is further arranged in the machine body, wherein,

the jacking driving mechanism and the shearing mechanism are positioned on the same vertical line, the jacking driving mechanism comprises a fixed cylinder plate adopting a U-shaped structure and a movable motor plate arranged between two vertical ends of the fixed cylinder plate, a jacking cylinder is arranged below the horizontal end of the fixed cylinder plate, a piston rod of the jacking cylinder penetrates through the fixed cylinder plate to be connected with the bottom of the movable motor plate, the upper surfaces of the two ends of the movable motor plate are respectively and rotatably provided with a synchronous belt wheel, the two synchronous belt wheels are connected through a synchronous belt in a transmission way, a lifting butt joint disc is arranged above the synchronous belt wheel, a lifting motor is arranged below one end of the movable motor plate, an output shaft of the lifting motor penetrates through the movable motor plate and is rotatably connected with one of the synchronous belt wheels, and the synchronous belt wheel and one of the sock tubes are located on the same vertical line.

The utility model relates to a six-tube shearing machine for sock production, the shearing machine adopts six-tube three-station, wherein six tubes are six socks, three stations are the sock feeding station, the sock removing station and the shearing station, when the device is in the running state, wherein two adjacent socks are on the sock feeding station, the other two adjacent socks are on the sock removing station, the last two adjacent socks are on the shearing station, along with the running of the equipment, wherein, after the socks are fed by the sock feeding station, the socks are cut by rotating the sock feeding station, the socks are removed by rotating the sock removing station, finally, the socks are returned to the sock feeding mechanism, a circulation is formed, the sock shearing speed for socks in the sock production is greatly accelerated, thereby the production efficiency of the socks is effectively improved;

the utility model discloses a take off socks mechanism can take off the socks on the socks pipe that reach this station automatically, and the mechanism of going out socks can suck the socks that take off the socks mechanism and take off the socks, and then discharge by the socks fill after going out the lift butt joint pipe, main play socks pipe or vice play socks pipe in the mechanism of going out socks in proper order to realize the automation degree of shearing machine and take off socks, such structural arrangement makes the device degree of automation high, practices thrift artifically, greatly promotes the processing speed and the efficiency of socks;

the utility model discloses be provided with the suction tube on the tool bit that well is used for socks to cut hair, suction tube adopts the hose, and suction tube's one end is connected with negative pressure yarn collection bucket, and negative pressure yarn collection bucket is inside to be the negative pressure, and when the device is cutting hair to socks, can inhale negative pressure yarn collection bucket through suction tube skein that will cut down like this to a large amount of skeins can not appear when making to cut hair to socks through the device, the whole feature of environmental protection of device has been increased.

Drawings

Fig. 1 is a schematic view of the overall structure of a six-tube shearing machine for sock production according to the present invention;

FIG. 2 is a schematic view of the internal structure of a six-tube shearing machine for sock production according to the present invention;

FIG. 3 is a schematic view of the overall structure of a sock taking mechanism of a six-tube shearing machine for sock production;

FIG. 4 is a first schematic structural view of a sock taking-out mechanism of a six-tube shearing machine for sock production according to the present invention;

FIG. 5 is a second schematic structural view of the sock taking-out mechanism of the six-tube shearing machine for sock production according to the present invention;

fig. 6 is a schematic view showing a three-position rotating mechanism in a six-tube shearing machine for sock production;

fig. 7 is a schematic diagram of a three-station rotating mechanism in a six-tube shearing machine for sock production according to the present invention;

FIG. 8 is a schematic structural view of a shearing mechanism of a six-tube shearing machine for sock production according to the present invention;

fig. 9 is a schematic view of the internal structure of the electric rail in the shearing mechanism of the six-tube shearing machine for sock production according to the present invention;

FIG. 10 is an enlarged view of area A of the six-tube shearing machine for socks production of the present invention in FIG. 9;

fig. 11 is a schematic structural view of a jacking driving mechanism in a six-tube shearing machine for sock production.

Reference numerals: 1. a body; 2. a sock taking mechanism; 201. discharging the sock bucket; 202. a sock outlet pipe is arranged; 203. auxiliary sock outlet pipes; 204. an air valve; 205. a three-way pipe of the negative pressure fan; 206. an air valve fixing plate; 207. lifting the butt joint pipe; 208. butting the lifting plates; 209. a main board; 210. a first slider; 211. taking sock clamps; 212. a first cylinder; 213. a second cylinder; 214. a third cylinder; 215. a second slider; 216. a fixing plate; 217. A flat plate; 218. a first guide rail; 219. a slide rail; 3. a three-station rotating mechanism; 301. a sock tube; 302. a turntable; 303. a shaft sleeve; 304. rotating the butt joint; 305. a frame; 306. a motor; 307. a protective cover; 308. A bearing; 309. a transmission rotating shaft; 4. a shearing mechanism; 401. a power rail front cover; 402. a yarn suction tube; 403. a power rail fixing frame; 404. a flexible shaft; 405. a cutter head motor; 406. an electrical rail motor; 407. a cutter head; 408. a cutter head mounting plate; 409. moving the tray; 410. an electrical rail; 411. a limiting seat; 412. a screw rod; 413. a second guide rail; 414. a third slider; 415. a power rail sleeve shaft; 416. a negative pressure yarn collecting barrel; 5. a jacking driving mechanism; 501. raising the docking tray; 502. a movable motor plate; 503. fixing the cylinder plate; 504. a synchronous belt; 505. Jacking a cylinder; 506. a lifting motor; 507. a synchronous pulley.

Detailed Description

The following further describes a specific embodiment of a six-tube shearing machine for sock production according to the present invention with reference to the accompanying drawings 1 to 11. The utility model relates to a six pipe shearing machines are used in socks production is not limited to the description of following embodiment.

As shown in fig. 1-2, a six-tube shearing machine for sock production comprises a machine body 1, a three-station rotating mechanism 3, a shearing mechanism 4 and a sock taking mechanism 2 which are arranged above the machine body 1, wherein,

the three-station rotating mechanism 3 is used for installing socks and moving the socks to the stations of the sock taking mechanism 2 or the shearing mechanism 4 for processing through rotation;

the shearing mechanism 4 is arranged on one side of the three-station rotating mechanism 3, and the shearing mechanism 4 is used for shearing socks on the three-station rotating mechanism 3;

get socks mechanism 2 and set up in three station rotary mechanism 3's opposite side, get socks mechanism 2 and be used for taking off and deriving the socks that accomplish the shearing on three station rotary mechanism 3.

Example 1

The embodiment discloses a specific structure of a six-tube wool shearing machine for sock production, as shown in fig. 6-7, a three-station rotating mechanism 3 comprises a turntable 302 arranged on a machine body 1 and a driving device arranged inside the machine body 1 and used for driving the turntable 302 to rotate, six socks 301 are equidistantly arranged at the edge above the turntable 302, six shaft sleeves 303 are equidistantly arranged at the edge below the turntable 302, bearings 308 are sleeved inside the shaft sleeves 303, the socks 301 are inserted into the upper parts inside the bearings 308, and rotating butt joints 304 are sleeved below the inside of the bearings 308;

the driving device comprises a motor 306 arranged inside the machine body 1 and a rack 305 sleeved on the motor 306 and used for installing the motor 306 inside the machine body 1, a transmission rotating shaft 309 is installed on an output shaft of the motor 306, the top of the transmission rotating shaft 309 penetrates through a top plate of the machine body 1 to be connected with the rotating disc 302, and the lower part of the rotating disc 302 is located outside the transmission rotating shaft 309 and is arranged on the protective cover 307.

The length of the portion of the rotating docking head 304 inserted into the interior of the bearing 308 is less than half the overall length of the rotating docking head 304;

the transmission rotating shaft 309 is rotatably connected with the protective cover 307 through a bearing 308.

Example 2

The present example discloses a specific structure of a six-tube shearing machine for sock production, as shown in fig. 8-10, the shearing mechanism 4 comprises a cutter head 407 disposed above the machine body 1 and capable of moving in the vertical direction, an electric rail 410 disposed above the machine body 1 for driving the cutter head 407 to move in the vertical direction, and an electric rail fixing frame 403 for fixing the electric rail 410 above the machine body 1, wherein,

a front cover 401 of the electric rail is fixed on the front surface of the electric rail 410 through bolts, a movable tray 409 capable of moving in the vertical direction is arranged on the front surface of the front cover 401 of the electric rail, strip-shaped gaps are formed in two sides of the front cover 401 of the electric rail, two sides of the movable tray 409 extend into the electric rail 410 through the gaps, a cutter head mounting plate 408 is arranged on the surface of the movable tray 409, a cutter head 407 is mounted on the cutter head mounting plate 408, an electric rail sleeve shaft 415 is arranged in the electric rail 410, the electric rail sleeve shaft 415 is connected with the movable tray 409, an electric rail motor 406 is arranged at the bottom of the electric rail 410, an output shaft of the electric rail motor 406 extends into the electric rail 410 and is connected with a lead screw 412, and the lead screw;

the cutter head 407 is connected with a cutter head motor 405 through a flexible shaft 404;

a yarn suction tube 402 is further arranged on the cutter head 407, the yarn suction tube 402 adopts a hose, and one end of the yarn suction tube 402 is connected with a negative pressure yarn collecting barrel 416;

the upper side and the lower side of one side of the electric rail 410 are both provided with a limiting seat 411 for limiting the moving position of the moving tray 409, the part of the moving tray 409, which is positioned inside the electric rail 410, is provided with a third sliding block 414, the inside of the electric rail 410 is provided with a second guide rail 413 matched with the third sliding block 414 for use, and the third sliding block 414 is clamped on the second guide rail 413.

Example 3

The present example discloses a specific structure of a six-tube shearing machine for sock production, as shown in fig. 3-5, the sock taking mechanism 2 includes a sock taking-off mechanism disposed above the machine body 1 for dropping the sock from the sock tube 301 and a sock discharging mechanism disposed inside the machine body 1 for discharging the sock taken off by the sock taking-off mechanism, wherein,

the sock taking-off mechanism comprises a main board 209 serving as a carrier, a flat board 217 arranged on the main board 209 and capable of lifting, and a fixing plate 216 arranged on the rear surface of the main board 209 and used for fixing the main board 209, wherein a sock taking clamp 211 capable of moving horizontally is arranged on the flat board 217, and the sock taking clamp 211 is used for taking out socks sleeved on the sock tube 301 upwards;

go out socks mechanism and go out the socks pipe 202 and vice socks pipe 203 including the main socks pipe 202 that is used for deriving socks, the main one end that goes out socks pipe 202 extends to 1 external connection of organism and goes out socks fill 201, the one end that goes out socks pipe 203 vice is also connected on going out socks fill 201, the main other end that goes out socks pipe 202 extends to 1 internally mounted of organism and goes up and down to connect pipe 207, go up and down to connect the other end of pipe 207 bottom and vice socks pipe 203 of going out and be connected, the butt joint lifter plate 208 has been cup jointed on the lift butt joint pipe 207, butt joint lifter plate 208 can remove in vertical direction.

Slide rails 219 are arranged at two sides of the front surface of the main board 209, a first slider 210 is fixedly clamped on the slide rails 219, the flat plate 217 is arranged above the first slider 210, a second cylinder 213 is fixedly arranged at the center of the lower part of the first slider 210 on the front surface of the main board 209, and a piston rod of the second cylinder 213 is connected with the bottom of the first slider 210;

a strip-shaped through hole is formed on the vertical central line above the main board 209.

First guide rails 218 are arranged on two sides of the upper surface of the flat plate 217, a limiting clamping block used for matching with the first guide rails 218 is arranged at the bottom of the sock taking clamp 211 and clamped on the first guide rails 218, a first air cylinder 212 is arranged on the upper surface of the first sliding block 210, and a piston rod of the first air cylinder 212 is connected with one side of the sock taking clamp 211;

a second sliding block 215 is clamped below the sliding rail 219, one end of the butt joint lifting plate 208 is welded on the second sliding block 215, the top of the lifting butt joint pipe 207 and one of the sock pipes 301 are located on the same vertical line, a third air cylinder 214 is further installed at the bottom of the main plate 209, and a piston rod of the third air cylinder 214 is connected with the bottom of the second sliding block 215.

The two lifting butt joint pipes 207 are arranged, air valves 204 are arranged at the connecting positions of the bottoms of the lifting butt joint pipes 207 and the auxiliary sock outlet pipes 203, an air valve fixing plate 206 is arranged between the two air valves 204, a negative pressure fan three-way pipe 205 is arranged below the air valve fixing plate 206, a fan is further arranged inside the machine body 1, and the negative pressure fan three-way pipe 205 is communicated with the two auxiliary sock outlet pipes 203 and the fan.

Example 4

The present embodiment discloses a specific structure of a six-tube shearing machine for sock production, as shown in fig. 11, a jacking driving mechanism 5 for driving the sock tube 301 to rotate when reaching the position of the shearing mechanism 4 is further provided inside the machine body 1, wherein,

the jacking driving mechanism 5 and the shearing mechanism 4 are located on the same vertical line, the jacking driving mechanism 5 comprises a fixed cylinder plate 503 adopting a U-shaped structure and a movable motor plate 502 arranged between two vertical ends of the fixed cylinder plate 503, a jacking cylinder 505 is arranged below the horizontal end of the fixed cylinder plate 503, a piston rod of the jacking cylinder 505 penetrates through the fixed cylinder plate 503 to be connected with the bottom of the movable motor plate 502, synchronous pulleys 507 are rotatably mounted on the upper surfaces of two ends of the movable motor plate 502, the two synchronous pulleys 507 are in transmission connection through a synchronous belt 504, a lifting butt joint disc 501 is mounted above the synchronous pulleys 507, a lifting motor 506 is mounted below one end of the movable motor plate 502, an output shaft of the lifting motor 506 penetrates through the movable motor plate 502 to be rotatably connected with one of the synchronous pulleys 507, and the synchronous pulleys 507 and one of the sock tubes 301 are located on the same vertical line.

With reference to embodiments 1 to 4, the shearing machine employs six tubes and three stations, wherein the six tubes are six socks 301, and the three stations are a sock feeding station, a sock removing station and a shearing station, when the device is in an operating state, two adjacent socks 301 are on the sock feeding station, the other two adjacent socks 301 are on the sock removing station, and the last two adjacent socks 301 are on the shearing station, and along with the operation of the device, after the socks are fed from the sock feeding station, the socks are rotated to the shearing station for shearing, and then the socks are rotated to the sock removing station for removing, and finally the socks are returned to the sock feeding mechanism, so as to form a cycle, thereby greatly increasing the shearing speed of the socks in the production of the socks, and effectively improving the production efficiency of the socks.

Referring to fig. 1-11, the specific operation of the apparatus is as follows:

firstly, socks to be processed are sleeved on the two sock tubes 301 positioned at the sock feeding station manually, then the motor 306 operates to drive the turntable 302 to rotate for one station, and the two sock tubes 301 sleeved with the socks reach the hair shearing station;

secondly, the jacking cylinder 505 operates to push the lifting butt joint disc 501 above the movable motor plate 502 to butt joint with the rotary butt joint head 304 at the bottom of the sock 301, and then the lifting motor 506 operates to drive the sock 301 on the shearing station to rotate through the synchronous pulley 507;

thirdly, a cutter head motor 405 operates, a flexible shaft 404 drives a cutter head 407 to operate, meanwhile, an electric rail motor 406 operates, a movable tray 409 is driven by a lead screw 412 to move from top to bottom at a constant speed along the vertical direction, so that the cutter head 407 shears the hair on the socks, when the movable tray 409 contacts a limiting seat 411, the electric rail motor 406 rotates reversely to drive the cutter head 407 to reset, and in the process of shearing the hair on the socks, a yarn suction tube 402 sucks the flying yarn sheared by the socks into a negative pressure yarn collection barrel 416;

(IV) the motor 306 operates again, drive the carousel 302 and rotate a station, make the socks that cut the hair arrive and take off the socks station, third cylinder 214 moves this moment, promote the butt joint pipe 207 of going up and down and the rotatory butt joint 304 butt joint of the leg of a stocking 301 bottom, first cylinder 212 moves simultaneously, promote the below of getting the grip 211 centre gripping leg of a stocking 301, then second cylinder 213 moves, promote to get the grip 211 of a stocking and move up, fade down the socks on the leg of a stocking 301, when the socks fade down, the blast gate 204 is closed, the fan corotation is induced drafted, will fade the socks at the top of the leg of a stocking 301 into the inside of the leg of a stocking 301 through going up and down the butt joint pipe 207, after the socks pass through the leg of a stocking 301 and go up and down the butt joint pipe 207 and enter the main leg of a stocking 202 or the auxiliary leg of a stocking 203, the blast gate 204 is opened, the fan contrarotation, blow out the socks in the main leg.

The foregoing is a more detailed description of the present invention, taken in conjunction with the specific preferred embodiments thereof, and it is not intended that the invention be limited to the specific embodiments shown and described. To the utility model belongs to the technical field of ordinary technical personnel, do not deviate from the utility model discloses under the prerequisite of design, can also make a plurality of simple deductions or replacement, all should regard as belonging to the utility model discloses a protection scope.

Claims (10)

1. The utility model provides a socks production is with six pipe shearing machines which characterized in that: comprises a machine body (1), a three-station rotating mechanism (3), a shearing mechanism (4) and a sock taking mechanism (2) which are arranged above the machine body (1), wherein,

the three-station rotating mechanism (3) is used for installing socks and moving the socks to the stations of the sock taking mechanism (2) or the shearing mechanism (4) for processing through rotation;

the shearing mechanism (4) is arranged on one side of the three-station rotating mechanism (3), and the shearing mechanism (4) is used for shearing socks on the three-station rotating mechanism (3);

get socks mechanism (2) set up in the opposite side of three-station rotary mechanism (3), get socks mechanism (2) and be used for will install the socks that accomplish the shearing on three-station rotary mechanism (3) are taken off and are derived.

2. The six-tube shearing machine for sock production according to claim 1, wherein: the three-station rotating mechanism (3) comprises a rotating disc (302) arranged on the machine body (1) and a driving device which is arranged in the machine body (1) and used for driving the rotating disc (302) to rotate, six hose pipes (301) are arranged at the upper edge of the rotating disc (302) at equal intervals, six shaft sleeves (303) are arranged at the lower edge of the rotating disc (302) at equal intervals, a bearing (308) is sleeved inside each shaft sleeve (303), the hose pipes (301) are inserted into the upper part inside the bearing (308), and a rotating butt joint (304) is sleeved on the lower part inside the bearing (308);

drive arrangement is including setting up in inside motor (306) of organism (1) and cup jointing be used for on motor (306) with motor (306) are installed frame (305) inside organism (1), install transmission pivot (309) on the output shaft of motor (306), the top of transmission pivot (309) is passed the roof of organism (1) with carousel (302) are connected, carousel (302) below be located transmission pivot (309) outside sets up in protection casing (307).

3. The six-tube shearing machine for sock production according to claim 2, wherein: the shearing mechanism (4) comprises a cutter head (407) which is arranged above the machine body (1) and can move in the vertical direction, an electric rail (410) which is arranged above the machine body (1) and is used for driving the cutter head (407) to move in the vertical direction, and an electric rail fixing frame (403) which is used for fixing the electric rail (410) above the machine body (1),

a front rail cover (401) is fixed on the front surface of the electric rail (410) through bolts, a movable tray (409) capable of moving in the vertical direction is arranged on the front surface of the front rail cover (401), strip-shaped gaps are formed in two sides of the electric rail front cover (401), two sides of the movable tray (409) extend into the electric rail (410) through the gaps, a tool bit mounting plate (408) is arranged on the surface of the movable tray (409), the tool bit (407) is mounted on the tool bit mounting plate (408), a power rail sleeve shaft (415) is arranged in the power rail (410), the power rail sleeve shaft (415) is connected with the movable tray (409), a power rail motor (406) is arranged at the bottom of the power rail (410), an output shaft of the power rail motor (406) extends to the inside of the power rail (410) and is connected with a screw rod (412), and the screw rod (412) penetrates through the power rail sleeve shaft (415);

the cutter head (407) is connected with a cutter head motor (405) through a flexible shaft (404);

the yarn sucking tube is characterized in that a yarn sucking tube (402) is further arranged on the cutter head (407), a hose is adopted by the yarn sucking tube (402), and one end of the yarn sucking tube (402) is connected with a negative pressure yarn collecting barrel (416).

4. A six-tube shearing machine for hosiery production as defined in claim 3, wherein: the utility model discloses a portable computer, including electric rail (410), removal tray (409) shift position, the one side top and the below of electric rail (410) all are provided with and are used for the restriction spacing seat (411) of removal tray (409), the part that removes tray (409) and is located electric rail (410) inside is provided with slider (414), electric rail (410) inside is provided with the cooperation guide rail (413) that slider (414) used, slider (414) block is in on guide rail (413).

5. A six-tube shearing machine for hosiery production as defined in claim 3, wherein: the sock taking mechanism (2) comprises a sock taking-off mechanism which is arranged above the machine body (1) and used for fading socks from the sock tube (301) and a sock discharging mechanism which is arranged in the machine body (1) and used for guiding out the socks taken off by the sock taking-off mechanism, wherein,

the sock taking-off mechanism comprises a main board (209) serving as a carrier, a flat board (217) arranged on the main board (209) and capable of lifting, and a fixing plate (216) arranged on the rear surface of the main board (209) and used for fixing the main board (209), a sock taking clamp (211) capable of moving horizontally is arranged on the flat board (217), and the sock taking clamp (211) is used for taking out socks sleeved on the sock tube (301) upwards from the sock tube (301);

go out socks mechanism and go out socks pipe (202) and vice socks pipe (203) including the main socks pipe (202) that are used for deriving socks, the main one end that goes out socks pipe (202) extends to organism (1) external connection has out socks fill (201), the one end that goes out socks pipe (203) vice is also connected go out on socks fill (201), the main other end that goes out socks pipe (202) extends to organism (1) internally mounted has lift butt joint pipe (207), lift butt joint pipe (207) bottom with the other end that goes out socks pipe (203) vice is connected, the butt joint lifter plate (208) has been cup jointed on lift butt joint pipe (207), butt joint lifter plate (208) can remove in vertical direction.

6. The six-tube shearing machine for sock production according to claim 5, wherein: the utility model discloses a portable electronic device, including mainboard (209), slide rail (219) are provided with in the front surface both sides position department of mainboard (209), the block is fixed with first slider (210) on slide rail (219), dull and stereotyped (217) set up in first slider (210) top, mainboard (209) front surface is located first slider (210) below center department and is fixed with second cylinder (213), the piston rod of second cylinder (213) with the bottom of first slider (210) is connected.

7. The six-tube shearing machine for sock production according to claim 6, wherein: dull and stereotyped (217) upper surface both sides department is provided with first guide rail (218), the bottom of getting sock clamp (211) is provided with the cooperation spacing fixture block that first guide rail (218) used, spacing fixture block is in on first guide rail (218), the upper surface of first slider (210) is provided with first cylinder (212), the piston rod of first cylinder (212) with it connects to get one side of sock clamp (211).

8. The six-tube shearing machine for sock production according to claim 7, wherein: a second sliding block (215) is clamped below the sliding rail (219), one end of the butt joint lifting plate (208) is welded to the second sliding block (215), the top of the lifting butt joint pipe (207) and one of the sock pipes (301) are located on the same vertical line, a third air cylinder (214) is further installed at the bottom of the main plate (209), and a piston rod of the third air cylinder (214) is connected with the bottom of the second sliding block (215).

9. The six-tube shearing machine for sock production according to claim 5, wherein: the utility model discloses a machine body, including machine body (1), lift butt joint pipe (207), air valve (204) are provided with in the connected position department of lift butt joint pipe (207) bottom with vice socks pipe (203) of going out, two be provided with between air valve (204) air valve fixed plate (206), air valve fixed plate (206) below is provided with negative-pressure air fan three-way pipe (205), the inside fan that still is provided with of organism (1), negative-pressure air fan three-way pipe (205) intercommunication two vice socks pipe (203) of going out with the fan.

10. The six-tube shearing machine for sock production according to claim 5, wherein: the inner part of the machine body (1) is also provided with a jacking driving mechanism (5) for driving the sock tube (301) to rotate when reaching the position of the shearing mechanism (4), wherein,

the lifting driving mechanism (5) and the shearing mechanism (4) are positioned on the same vertical line, the lifting driving mechanism (5) comprises a fixed cylinder plate (503) adopting a U-shaped structure and a movable motor plate (502) arranged between two vertical ends of the fixed cylinder plate (503), a lifting cylinder (505) is arranged below the horizontal end of the fixed cylinder plate (503), a piston rod of the lifting cylinder (505) penetrates through the fixed cylinder plate (503) to be connected with the bottom of the movable motor plate (502), the upper surfaces of two ends of the movable motor plate (502) are rotatably provided with synchronous pulleys (507), the two synchronous pulleys (507) are in transmission connection through a synchronous belt (504), a lifting butt joint disc (501) is arranged above the synchronous pulleys (507), and a lifting motor (506) is arranged below one end of the movable motor plate (502), an output shaft of the lifting motor (506) penetrates through the movable motor plate (502) and is rotationally connected with one of the synchronous pulleys (507), and the synchronous pulley (507) and one of the sock tubes (301) are positioned on the same vertical line.

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