CN205258784U - Press lopping motion of yarn tricot machine - Google Patents

Abstract

The utility model discloses a press lopping motion of yarn tricot machine, including oil tank spindle drive, groove pin motion, movement of slide mechanism and schlagblech motion, the groove pin motion includes groove pin, groove pin main shaft and groove pin link mechanism, and groove pin link mechanism installs on the groove pin main shaft, and the groove pin is realized the lopping by oil tank spindle drive drive groove pin link mechanism and groove pin main shaft and is woven the motion, movement of slide mechanism includes nook closing member, nook closing member main shaft and nook closing member link mechanism, and nook closing member link mechanism installs on the nook closing member main shaft, and the nook closing member is realized the lopping by oil tank spindle drive drive nook closing member link mechanism and nook closing member main shaft and is woven the motion, the schlagblech motion includes schlagblech and schlagblech link mechanism, and schlagblech link mechanism installs on the nook closing member main shaft, and the schlagblech is realized the lopping by the epaxial schlagblech link mechanism of oil tank spindle drive drive nook closing member owner and is woven the motion. The utility model discloses simple structure, installation and debugging are convenient, and low in production cost presses the yarn high quality.

Description

A kind of lopping motion of pressing yarn tricot machine

Technical field

The utility model relates to a kind of knitting mechanism of tricot machine, particularly relates to a kind of lopping motion of pressing in yarn knitting mechanism of warp knitting machine.

Background technology

Press yarn tricot machine to do the reciprocating motion of rise and fall by schlagblech, part yarn is formed to obvious concavo-convex embroidery line at fabric face, thereby strengthen the third dimension of fabric face.

The lopping motion of existing pressure yarn tricot machine, comprises fuel tank spindle drive, grooved-needle motion mechanism, stylet motion mechanism and schlagblech motion; Described fuel tank spindle drive comprises the transmission main shaft being arranged on rotationally in tricot machine fuel tank and is arranged on the cam mechanism on transmission main shaft; Described grooved-needle motion mechanism comprises the groove pin, groove pin main shaft and the groove pin linkage that are fixedly mounted on grooved needle bed, described groove pin main shaft is arranged on the supporting base on tricot machine fuel tank rotationally, described groove pin linkage is arranged on described groove pin main shaft, and described groove pin drives groove pin linkage and groove pin main shaft to realize lopping braiding motion by described fuel tank spindle drive; Described stylet motion mechanism comprises the nook closing member, nook closing member main shaft and the nook closing member linkage that are fixedly mounted on nook closing member bed, described nook closing member linkage is arranged on described nook closing member main shaft, and described nook closing member drives nook closing member linkage and nook closing member main shaft to realize lopping braiding motion by described fuel tank spindle drive; Described schlagblech motion comprises schlagblech, presses yarn main shaft and schlagblech linkage, described schlagblech linkage is arranged on described pressure yarn main shaft, and described schlagblech drives schlagblech linkage by described fuel tank spindle drive and presses yarn main shaft to realize lopping braiding motion.

, there is at work the defect of the following aspects in the lopping motion of this structure:

(1) pressing yarn main shaft is segmentation form, is made up of two rotating shafts, because the axiality between two rotating shafts is difficult to ensure, causes pressing yarn quality lower;

(2) the pressure yarn main shaft that this lopping motion comprises groove pin main shaft, nook closing member main shaft and segmentation, because the main shaft that lopping adopts is more, causes production cost high, and installation and debugging are also very inconvenient;

(3) pressing the supporting base of yarn main shaft is to be arranged separately on fuel tank, because itself and the positional precision between the supporting base of groove pin main shaft are difficult to guarantee, causes pressing the positional precision of yarn main shaft and groove pin main shaft to ensure.

Summary of the invention

The technical problems to be solved in the utility model is to overcome the deficiencies in the prior art, provides a kind of simple in structure, and installation and debugging are convenient, and production cost is low, presses the lopping motion of the pressure yarn tricot machine that yarn quality is high.

For solving the problems of the technologies described above, the utility model adopts a kind of like this lopping motion of pressing yarn tricot machine, comprises fuel tank spindle drive, grooved-needle motion mechanism, stylet motion mechanism and schlagblech motion; Described fuel tank spindle drive comprises the transmission main shaft being arranged on rotationally in tricot machine fuel tank; Described grooved-needle motion mechanism comprises the groove pin, groove pin main shaft and the groove pin linkage that are fixedly mounted on grooved needle bed, described groove pin main shaft is arranged on the supporting base on tricot machine fuel tank rotationally, described groove pin linkage is arranged on described groove pin main shaft, and described groove pin drives groove pin linkage and groove pin main shaft to realize lopping braiding motion by described fuel tank spindle drive; Described stylet motion mechanism comprises the nook closing member, nook closing member main shaft and the nook closing member linkage that are fixedly mounted on nook closing member bed, described nook closing member linkage is arranged on described nook closing member main shaft, and described nook closing member drives nook closing member linkage and nook closing member main shaft to realize lopping braiding motion by described fuel tank spindle drive; Described schlagblech motion comprises schlagblech and schlagblech linkage; Described groove pin main shaft and nook closing member main shaft are parallel to each other, interval arranges, described schlagblech linkage is arranged on described nook closing member main shaft, and described schlagblech drives the schlagblech linkage on described nook closing member main shaft to realize lopping braiding motion by described fuel tank spindle drive.

In the utility model, described nook closing member main shaft is arranged on the described supporting base on tricot machine fuel tank rotationally.

In the utility model, described schlagblech linkage comprises presses yarn take-off lever, triangle swing arm, press yarn connecting rod, top link, press yarn swing arm, press yarn connecting rod, the axis of guide and fairlead, described fuel tank spindle drive also comprises by pressing yarn cam, press the outer roller of yarn, the pressure yarn conjugate cam mechanism of pressing yarn internal trolley and pressing yarn roller mount to form, described pressure yarn cam is fixedly mounted on described transmission main shaft, the upper end of described pressure yarn take-off lever and the rear end of triangle swing arm are rotationally connected, press the lower end of yarn take-off lever to be rotationally connected with pressing the outer roller of yarn, the shaft of described triangle swing arm and nook closing member main shaft are rotationally connected, the lower end of the front end of triangle swing arm and described pressure yarn connecting rod is rotationally connected, the upper end of described pressure yarn connecting rod and the front end of top link are rotationally connected, the front end of the rear end of top link and the swing arm of pressure yarn is fixedly mounted on respectively on a major axis, described major axis is arranged in tricot machine frame rotationally, the upper end of described pressure yarn connecting rod is rotationally connected with the rear end of pressing yarn swing arm, the upper end of the described axis of guide is rotationally connected with the lower end of pressing yarn connecting rod, the axle body of the described axis of guide and described fairlead are slidably connected, described fairlead is fixedly mounted in tricot machine frame, described schlagblech is fixedly mounted on the lower end of the axis of guide.

In the utility model, described nook closing member linkage comprises nook closing member take-off lever, nook closing member the first swing arm, nook closing member the second swing arm, nook closing member connecting rod and nook closing member bed bracket frame, described fuel tank spindle drive also comprises by nook closing member cam, the outer roller of nook closing member, the nook closing member conjugate cam mechanism that nook closing member internal trolley and nook closing member roller mount form, described nook closing member cam is fixedly mounted on described transmission main shaft, the rear end of the upper end of described nook closing member take-off lever and nook closing member the first swing arm is rotationally connected, the outer roller of the lower end of nook closing member take-off lever and nook closing member is rotationally connected, the front end of described nook closing member the first swing arm is fixedly connected with described nook closing member main shaft, the front end of described nook closing member the second swing arm is fixedly connected with described nook closing member main shaft, the rear end of nook closing member the second swing arm and the lower end of nook closing member connecting rod are rotationally connected, the upper end of nook closing member connecting rod and nook closing member bed bracket frame are rotationally connected, nook closing member bed bracket frame is fixedly connected with nook closing member bed, described nook closing member bed and grooved needle bed are slidably connected.

In the utility model, described groove pin linkage comprises the first groove pin take-off lever, the first groove pin swing arm, leading arm, the second groove pin take-off lever, the second groove pin swing arm and groove pin connecting rod, described fuel tank spindle drive also comprises by the first groove pin cam, the outer roller of the first groove pin, the first groove pin conjugate cam mechanism that the first groove pin internal trolley and the first groove pin roller mount form, and by the second groove pin cam, the outer roller of the second groove pin, the second groove pin conjugate cam mechanism that the second groove pin internal trolley and the second groove pin roller mount form, described the first groove pin cam, the second groove pin cam is fixedly mounted on respectively on described transmission main shaft, the front end of the upper end of described the first groove pin take-off lever and the first groove pin swing arm is rotationally connected, the outer roller of the lower end of the first groove pin take-off lever and the first groove pin is rotationally connected, the rear end of described the first groove pin swing arm is fixedly connected with described groove pin main shaft, the lower end of described leading arm is fixedly connected with described groove pin main shaft, the upper end of leading arm and described grooved needle bed are slidably connected, the shaft of the upper end of described the second groove pin take-off lever and the second groove pin swing arm is rotationally connected, the outer roller of the lower end of the second groove pin take-off lever and the second groove pin is rotationally connected, the rear end of described the second groove pin swing arm and described groove pin main shaft are rotationally connected, the lower end of the front end of the second groove pin swing arm and described groove pin connecting rod is rotationally connected, upper end and the grooved needle bed of groove pin connecting rod are rotationally connected.

Adopt after said structure, the utlity model has following beneficial effect:

Because schlagblech linkage is arranged on nook closing member main shaft, that is to say, schlagblech linkage and nook closing member linkage share a rotating shaft, it is nook closing member main shaft, therefore, the utility model has been abandoned two segmentation rotating shafts of the prior art, has greatly simplified lopping motion, has reduced equipment cost simultaneously.

Because schlagblech linkage is arranged on nook closing member main shaft, therefore, the utility model has been avoided the axiality of erecting bed adjusting segmentation rotating shaft in prior art, has greatly reduced the set-up time, has improved the reliability of lopping braiding simultaneously.

Because nook closing member main shaft and groove pin main shaft are arranged on the same supporting base on tricot machine fuel tank, therefore, the utility model has been abandoned two supporting seats of two segmentation rotating shafts in prior art, has ensured better the positional precision of nook closing member main shaft and groove pin main shaft.

The utility model installation and debugging are convenient, and greatly improved pressure yarn quality.

Brief description of the drawings

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in further detail.

Fig. 1 is a kind of structural representation that the utility model is pressed the lopping motion of yarn tricot machine.

Fig. 2 is a kind of structural representation of schlagblech motion and stylet motion mechanism in the utility model.

Fig. 3 is a kind of structural representation of grooved-needle motion mechanism in the utility model.

Detailed description of the invention

Referring to a kind of lopping motion of pressing yarn tricot machine shown in Fig. 1,2 and 3, comprise fuel tank spindle drive, grooved-needle motion mechanism, stylet motion mechanism and schlagblech motion; Described fuel tank spindle drive comprises the transmission main shaft A being arranged on rotationally in tricot machine fuel tank; Described grooved-needle motion mechanism comprises groove pin 1a, the groove pin main shaft B and the groove pin linkage that are mounted by means of bolts on grooved needle bed 1, described groove pin main shaft B is arranged on the supporting base 4 on tricot machine fuel tank rotationally by bearing, it is upper that described groove pin linkage is arranged on described groove pin main shaft B, and described groove pin 1a drives groove pin linkage and groove pin main shaft B to realize lopping braiding motion by described fuel tank spindle drive; Described stylet motion mechanism comprises nook closing member 2a, the nook closing member main shaft C and the nook closing member linkage that are mounted by means of bolts on nook closing member bed 2, it is upper that described nook closing member linkage is arranged on described nook closing member main shaft C, and described nook closing member 2a drives nook closing member linkage and nook closing member main shaft C to realize lopping braiding motion by described fuel tank spindle drive; Described schlagblech motion comprises schlagblech 3 and schlagblech linkage; Described groove pin main shaft B and nook closing member main shaft C are parallel to each other, interval arranges, it is upper that described schlagblech linkage is arranged on described nook closing member main shaft C, and described schlagblech 3 drives the schlagblech linkage on described nook closing member main shaft C to realize lopping braiding motion by described fuel tank spindle drive.

In the utility model, as shown in Figure 1 to Figure 3, described nook closing member main shaft C is arranged on the described supporting base 4 on tricot machine fuel tank rotationally by bearing.

In the utility model, as Fig. 1, shown in 2, described schlagblech linkage comprises presses yarn take-off lever 5, triangle swing arm 6, press yarn connecting rod 7, top link 8, press yarn swing arm 9, press yarn connecting rod 10, the axis of guide 11 and fairlead 12, described fuel tank spindle drive also comprises by pressing yarn cam 13, press the outer roller 14 of yarn, the pressure yarn conjugate cam mechanism of pressing yarn internal trolley and pressing yarn roller mount 15 to form, the outer roller 14 of described pressure yarn and pressure yarn internal trolley are arranged on rotationally presses in yarn roller mount 15, and the outer roller 14 of pressure yarn, press yarn internal trolley respectively with the outer surface of pressing yarn cam 13, interior contoured surface rolls and coordinates, described pressure yarn roller mount 15 is arranged on a bolster 37 rotationally by bearing, described bolster 37 is arranged in tricot machine frame rotationally, described pressure yarn cam 13 is fixedly mounted on described transmission main shaft A by Hough, the upper end of described pressure yarn take-off lever 5 is rotationally connected by the rear end 6a of bearing pin and triangle swing arm 6, press the lower end of yarn take-off lever 5 to be rotationally connected with pressing the outer roller 14 of yarn by bearing pin, the shaft of described triangle swing arm 6 is rotationally connected by bearing and nook closing member main shaft C, the front end 6b of triangle swing arm 6 is rotationally connected by the lower end of bearing pin and described pressure yarn connecting rod 7, the upper end of described pressure yarn connecting rod 7 is rotationally connected by the front end 8b of bearing pin and top link 8, the front end 9b of the rear end 8a of top link 8 and pressure yarn swing arm 9 is fixedly mounted on respectively on a major axis 16 by bolt, described major axis 16 is arranged in tricot machine frame rotationally by bearing, the upper end of described pressure yarn connecting rod 10 is rotationally connected with the rear end 9a that presses yarn swing arm 9 by bearing pin, the upper end of the described axis of guide 11 is rotationally connected by bearing pin and the lower end of pressing yarn connecting rod 10, the axle body of the described axis of guide 11 is slidably connected by linear bearing and described fairlead 12, described fairlead 12 is fixedly mounted in tricot machine frame, described schlagblech 3 is mounted by means of bolts on the lower end of the axis of guide 11. when braiding, schlagblech 3 by transmission main shaft A by pressing the described schlagblech linkage of yarn conjugate cam mechanism drive installation on nook closing member main shaft C to realize upper and lower lopping campaign.

In the utility model, as Fig. 1, shown in 2, described nook closing member linkage comprises nook closing member take-off lever 17, nook closing member the first swing arm 18, nook closing member the second swing arm 19, nook closing member connecting rod 20 and nook closing member bed bracket frame 21, described fuel tank spindle drive also comprises by nook closing member cam 22, the outer roller 23 of nook closing member, the nook closing member conjugate cam mechanism that nook closing member internal trolley and nook closing member roller mount 24 form, the outer roller 23 of described nook closing member and nook closing member internal trolley are arranged in nook closing member roller mount 24 rotationally, and the outer roller 23 of nook closing member, nook closing member internal trolley respectively with the outer surface of nook closing member cam 22, interior contoured surface rolls and coordinates, described nook closing member roller mount 24 is arranged on described bolster 37 rotationally by bearing, described nook closing member cam 22 is fixedly mounted on described transmission main shaft A by Hough, the upper end of described nook closing member take-off lever 17 is rotationally connected by the rear end 18a of bearing pin and nook closing member the first swing arm 18, the lower end of nook closing member take-off lever 17 is rotationally connected by bearing pin and the outer roller 23 of nook closing member, the front end 18b of described nook closing member the first swing arm 18 is fixedly connected with described nook closing member main shaft C by bolt, the front end 19b of described nook closing member the second swing arm 19 is fixedly connected with described nook closing member main shaft C by bolt, the rear end 19a of nook closing member the second swing arm 19 is rotationally connected by the lower end of bearing pin and nook closing member connecting rod 20, the upper end of nook closing member connecting rod 20 is rotationally connected by bearing pin and nook closing member bed bracket frame 21, nook closing member bed bracket frame 21 is fixedly connected with nook closing member bed 2 by connecting axle 38, described nook closing member bed 2 is slidably connected with grooved needle bed 1 by described connecting axle 38 and linear bearing 39. when braiding, nook closing member 2a drives described nook closing member linkage and nook closing member main shaft C to realize lopping campaign by transmission main shaft A by nook closing member conjugate cam mechanism.

In the utility model, as Fig. 1, shown in 3, described groove pin linkage comprises the first groove pin take-off lever 25, the first groove pin swing arm 26, leading arm 27, the second groove pin take-off lever 28, the second groove pin swing arm 29 and groove pin connecting rod 30, described fuel tank spindle drive also comprises by the first groove pin cam 31, the outer roller 32 of the first groove pin, the first groove pin conjugate cam mechanism that the first groove pin internal trolley and the first groove pin roller mount 33 form, and by the second groove pin cam 34, the outer roller 35 of the second groove pin, the second groove pin conjugate cam mechanism that the second groove pin internal trolley and the second groove pin roller mount 36 form, the outer roller 32 of described the first groove pin and the first groove pin internal trolley are arranged in the first groove pin roller mount 33 rotationally, and the outer roller 32 of the first groove pin, the first groove pin internal trolley respectively with the outer surface of the first groove pin cam 31, interior contoured surface rolls and coordinates, described the first groove pin roller mount 33 is arranged on described bolster 37 rotationally by bearing, the outer roller 35 of described the second groove pin and the second groove pin internal trolley are arranged in the second groove pin roller mount 36 rotationally, and the outer roller 35 of the second groove pin, the second groove pin internal trolley respectively with the outer surface of the second groove pin cam 34, interior contoured surface rolls and coordinates, described the second groove pin roller mount 36 is arranged on described bolster 37 rotationally by bearing, described the first groove pin cam 31, the second groove pin cam 34 is fixedly mounted on respectively on described transmission main shaft A by Hough, the upper end of described the first groove pin take-off lever 25 is rotationally connected by the front end 26b of bearing pin and the first groove pin swing arm 26, the lower end of the first groove pin take-off lever 25 is rotationally connected by bearing pin and the outer roller 32 of the first groove pin, the rear end 26a of described the first groove pin swing arm 26 is fixedly connected with described groove pin main shaft B by bolt, the lower end of described leading arm 27 is fixedly connected with described groove pin main shaft B by bolt, the upper end of leading arm 27 is slidably connected by the axis of guide 40 and linear bearing and described grooved needle bed 1, the upper end of described the second groove pin take-off lever 28 is rotationally connected by the shaft of bearing pin and the second groove pin swing arm 29, the lower end of the second groove pin take-off lever 28 is rotationally connected by bearing pin and the outer roller 35 of the second groove pin, the rear end 29a of described the second groove pin swing arm 29 is rotationally connected by bearing and described groove pin main shaft B, the front end 29b of the second groove pin swing arm 29 is rotationally connected by the lower end of bearing pin and described groove pin connecting rod 30, the upper end of groove pin connecting rod 30 is rotationally connected by bearing pin and grooved needle bed 1. when braiding, groove pin 1a drives described groove pin linkage and groove pin main shaft B to realize upper and lower and swing lopping campaign by transmission main shaft A by first, second groove pin conjugate cam mechanism.

In the utility model, described fuel tank spindle drive also can adopt other structure, and the eccentric wheel drive mechanism being for example made up of transmission main shaft A, eccentric wheel, eccentric bushing is not shown in the figures.

Through on probation, the utility model is simple in structure, and installation and debugging are convenient, and the set-up time is few, and production cost is low, and the pressure yarn quality of schlagblech is high, has obtained good effect.

Claims (5)

1. press a lopping motion for yarn tricot machine, comprise fuel tank spindle drive, grooved-needle motion mechanism, stylet motion mechanism and schlagblech motion; Described fuel tank spindle drive comprises the transmission main shaft (A) being arranged on rotationally in tricot machine fuel tank; Described grooved-needle motion mechanism comprises the groove pin (1a), groove pin main shaft (B) and the groove pin linkage that are fixedly mounted on grooved needle bed (1), described groove pin main shaft (B) is arranged on the supporting base (4) on tricot machine fuel tank rotationally, it is upper that described groove pin linkage is arranged on described groove pin main shaft (B), and described groove pin (1a) drives groove pin linkage and groove pin main shaft (B) to realize lopping braiding motion by described fuel tank spindle drive; Described stylet motion mechanism comprises the nook closing member (2a), nook closing member main shaft (C) and the nook closing member linkage that are fixedly mounted on nook closing member bed (2), it is upper that described nook closing member linkage is arranged on described nook closing member main shaft (C), and described nook closing member (2a) drives nook closing member linkage and nook closing member main shaft (C) to realize lopping braiding motion by described fuel tank spindle drive; Described schlagblech motion comprises schlagblech (3) and schlagblech linkage; Described groove pin main shaft (B) is parallel to each other with nook closing member main shaft (C), interval arranges, it is characterized in that: it is upper that described schlagblech linkage is arranged on described nook closing member main shaft (C), described schlagblech (3) drives the schlagblech linkage on described nook closing member main shaft (C) to realize lopping braiding motion by described fuel tank spindle drive.

2. the lopping motion of pressure yarn tricot machine according to claim 1, is characterized in that: described nook closing member main shaft (C) is arranged on the described supporting base (4) on tricot machine fuel tank rotationally.

3. the lopping motion of pressure yarn tricot machine according to claim 1 and 2, it is characterized in that: described schlagblech linkage comprises presses yarn take-off lever (5), triangle swing arm (6), press yarn connecting rod (7), top link (8), press yarn swing arm (9), press yarn connecting rod (10), the axis of guide (11) and fairlead (12), described fuel tank spindle drive also comprises by pressing yarn cam (13), press the outer roller (14) of yarn, the pressure yarn conjugate cam mechanism of pressing yarn internal trolley and pressing yarn roller mount (15) to form, described pressure yarn cam (13) is fixedly mounted on described transmission main shaft (A), the rear end (6a) of the upper end of described pressure yarn take-off lever (5) and triangle swing arm (6) is rotationally connected, press the lower end of yarn take-off lever (5) to be rotationally connected with pressing the outer roller (14) of yarn, the shaft of described triangle swing arm (6) and nook closing member main shaft (C) are rotationally connected, the front end (6b) of triangle swing arm (6) is rotationally connected with the lower end of described pressure yarn connecting rod (7), the front end (8b) of the upper end of described pressure yarn connecting rod (7) and top link (8) is rotationally connected, the front end (9b) of the rear end (8a) of top link (8) and pressure yarn swing arm (9) is fixedly mounted on respectively on a major axis (16), described major axis (16) is arranged in tricot machine frame rotationally, the upper end of described pressure yarn connecting rod (10) is rotationally connected with the rear end (9a) of pressing yarn swing arm (9), the upper end of the described axis of guide (11) is rotationally connected with the lower end of pressing yarn connecting rod (10), the axle body of the described axis of guide (11) and described fairlead (12) are slidably connected, described fairlead (12) is fixedly mounted in tricot machine frame, described schlagblech (3) is fixedly mounted on the lower end of the axis of guide (11).

4. the lopping motion of pressure yarn tricot machine according to claim 1 and 2, it is characterized in that: described nook closing member linkage comprises nook closing member take-off lever (17), nook closing member the first swing arm (18), nook closing member the second swing arm (19), nook closing member connecting rod (20) and nook closing member bed bracket frame (21), described fuel tank spindle drive also comprises by nook closing member cam (22), the outer roller (23) of nook closing member, the nook closing member conjugate cam mechanism that nook closing member internal trolley and nook closing member roller mount (24) form, described nook closing member cam (22) is fixedly mounted on described transmission main shaft (A), the rear end (18a) of the upper end of described nook closing member take-off lever (17) and nook closing member the first swing arm (18) is rotationally connected, the outer roller (23) of the lower end of nook closing member take-off lever (17) and nook closing member is rotationally connected, the front end (18b) of described nook closing member the first swing arm (18) is fixedly connected with described nook closing member main shaft (C), the front end (19b) of described nook closing member the second swing arm (19) is fixedly connected with described nook closing member main shaft (C), the rear end (19a) of nook closing member the second swing arm (19) is rotationally connected with the lower end of nook closing member connecting rod (20), the upper end of nook closing member connecting rod (20) and nook closing member bed bracket frame (21) are rotationally connected, nook closing member bed bracket frame (21) is fixedly connected with nook closing member bed (2), described nook closing member bed (2) is slidably connected with grooved needle bed (1).

5. the lopping motion of pressure yarn tricot machine according to claim 1 and 2, it is characterized in that: described groove pin linkage comprises the first groove pin take-off lever (25), the first groove pin swing arm (26), leading arm (27), the second groove pin take-off lever (28), the second groove pin swing arm (29) and groove pin connecting rod (30), described fuel tank spindle drive also comprises by the first groove pin cam (31), the outer roller (32) of the first groove pin, the first groove pin conjugate cam mechanism that the first groove pin internal trolley and the first groove pin roller mount (33) form, and by the second groove pin cam (34), the outer roller (35) of the second groove pin, the second groove pin conjugate cam mechanism that the second groove pin internal trolley and the second groove pin roller mount (36) form, described the first groove pin cam (31), the second groove pin cam (34) is fixedly mounted on respectively on described transmission main shaft (A), the front end (26b) of the upper end of described the first groove pin take-off lever (25) and the first groove pin swing arm (26) is rotationally connected, the outer roller (32) of the lower end of the first groove pin take-off lever (25) and the first groove pin is rotationally connected, the rear end (26a) of described the first groove pin swing arm (26) is fixedly connected with described groove pin main shaft (B), the lower end of described leading arm (27) is fixedly connected with described groove pin main shaft (B), the upper end of leading arm (27) and described grooved needle bed (1) are slidably connected, the shaft of the upper end of described the second groove pin take-off lever (28) and the second groove pin swing arm (29) is rotationally connected, the outer roller (35) of the lower end of the second groove pin take-off lever (28) and the second groove pin is rotationally connected, the rear end (29a) of described the second groove pin swing arm (29) is rotationally connected with described groove pin main shaft (B), the front end (29b) of the second groove pin swing arm (29) is rotationally connected with the lower end of described groove pin connecting rod (30), the upper end of groove pin connecting rod (30) and grooved needle bed (1) are rotationally connected.