CN103572492B - Upper disk and lower disk knitting mechanism for double-sided automatic underwear machine - Google Patents

Abstract

The invention discloses an upper disk and lower disk knitting mechanism for a double-sided automatic underwear machine. The upper disk and lower disk knitting mechanism comprises a needle dial seat, a cutting disk base, a large disk gear, a needle selector, a lower section needle cylinder, a saddle bottom ring and an upper section needle cylinder, wherein a needle dial is connected to the needle dial seat, a plurality of upper needles with high pins and low pins are connected to the needle dial, a cutting disk is connected to the cutting disk base, the right end of the cutting disk is connected with a yarn nozzle, the open latch end of the yarn nozzle is connected with needle latches of the upper needles with the high pins and the low pins, an air cylinder needle selecting device is connected to the cutting disk, the lower section needle cylinder is connected to the large disk gear, the needle selector is connected to the large disk gear, a pattern bit is connected to the lower section needle cylinder, the needle selector is connected with the pattern bit, the upper needle cylinder is connected to the lower section needle cylinder, a return triangle port is connected to the saddle bottom ring, the return triangle part is connected with the pattern pit, and an automatic needle walking triangular mechanism is connected to the saddle bottom ring. The upper disk and lower disk knitting mechanism has the advantages of being simple in structure, convenient to operate, automatic in needle selection and needle walking and practical.

Description

A kind of two-sided automatic inner wear machine upper lower burrs knitting mechanism

Technical field

The present invention relates to underclothes knitting machine field, refer more particularly to a kind of two-sided automatic inner wear machine upper lower burrs knitting mechanism.

Background technology

The traditional upper lower burrs knitting mechanism of underclothes knitting machine adopts simple mechanical needle selection system, and the effect of this structure needle selection is bad, affects production efficiency.

Summary of the invention

The object of the invention is to overcome above-mentioned weak point of the prior art and provide a kind of structure simple, easy to operate, automation needle selection takes the needle, practical two-sided automatic inner wear machine upper lower burrs knitting mechanism.

The present invention realizes in the following way:

A kind of two-sided automatic inner wear machine upper lower burrs knitting mechanism, comprises dish knitting mechanism 10 and lower wall knitting mechanism 11; It is characterized in that: described upper dish knitting mechanism 10 comprises dials seat 101 and cutting disc base 102, and described dials seat 101 is positioned at the below of cutting disc base 102; Described dials seat 101 is connected with dials 103, described dials 103 is connected with the upper pin 104 of some band height stitch; Described cutting disc base 102 is connected with cutting disc 105; Described cutting disc 105 is positioned at the top of dials 103; The right-hand member of described cutting disc 105 is connected with yarn mouth 106; The tongue end of opening of described yarn mouth 106 is connected with the needle latch of the upper pin 104 of band height stitch; Described cutting disc 105 is connected with cylinder needle selecting device;

Described cutting disc 105 is provided with the first needle selection groove 1051, second needle selection groove 1052, the 3rd needle selection groove 1053; Described cylinder needle selecting device comprises the first cylinder selecting mechanism 107, second cylinder selecting mechanism 108, the 3rd cylinder selecting mechanism 109, and described first cylinder selecting mechanism 107, second cylinder selecting mechanism 108, the 3rd cylinder selecting mechanism 109 are connected on the first needle selection groove 1051, second needle selection groove 1052, the 3rd needle selection groove 1053;

Described first cylinder selecting mechanism 107 comprises cylinder block 1071, stop nut 1072, upper piston 1073, lower piston 1074, guideway 1075, needle selecting cam 1076, cylinder block 1077; Described cylinder block 1077 is connected in cutting disc 105; Described cylinder block 1071 is connected on cylinder block 1077; Described guideway 1075 is connected on the gathering sill of cylinder block 1077; The gathering sill of described cylinder block 1077 communicates with the first needle selection groove 1051; Described upper piston 1073 is connected in cylinder block 1071, and the top of upper piston 1073 is connected with stop nut 1072 through cylinder block 1071 top; One end of described lower piston 1074 is connected with the other end of upper piston 1073; The other end of described lower piston 1074 is connected with needle selecting cam 1076 by fastening screw nut 1078; Described needle selecting cam 1076 is arranged with the first spring 1079; Described first spring 1079 is between fastening screw nut 1078 and guideway 1075; Described needle selecting cam 1076 is connected with the upper pin 104 of the first needle selection groove 1051 with band height stitch through guideway 1075 successively; The structure of described second cylinder selecting mechanism 108, the 3rd cylinder selecting mechanism 109 is identical with the structure of the first cylinder selecting mechanism 107;

Described lower wall knitting mechanism 11 comprises big disc gear 111, slide cam selector 112, lower markingoff pin cylinder 113, saddle foundation ring 114, upper markingoff pin cylinder 115, and described lower markingoff pin cylinder 113 is connected on big disc gear 111; Described slide cam selector 112 is connected on big disc gear 111 by slide cam selector foundation ring 116; Described lower markingoff pin cylinder 113 is connected with pattern bit 117; Described slide cam selector 112 is connected with pattern bit 117; Described upper markingoff pin cylinder 115 is connected on lower markingoff pin cylinder 113; Described upper markingoff pin cylinder 115 is connected with lower knitting needle 118; The bottom of described lower knitting needle 118 is connected with pattern bit 117 by middle needle 119; Described saddle foundation ring 114 is connected in frame; Described saddle foundation ring 114 is connected with reset triangle 1110; Described reset triangle 1110 is connected with pattern bit 117; Described saddle foundation ring 114 is connected with automatic run cam mechanism;

Described automatic run cam mechanism comprises stepper motor 1121, saddle 1122, Archimedian screw group 1123, adjusting slider 1124, triangle 1125; Described saddle 1122 is connected on saddle foundation ring 114; Described stepper motor 1121 is connected on saddle 1122 by motor base 1126; Described saddle 1122 is provided with adjusting grooves 11221; Described Archimedian screw group 1123 is connected on adjusting grooves 11221 by location bearing 1127; Described Archimedian screw group 1123 is connected with stepper motor 1121; Described adjusting slider 1124 is connected on saddle 1122, and adjusting slider 1124 can slide up and down relative to saddle 1122; Described adjusting slider 1124 is connected with Archimedian screw group 1123; The bottom of described adjusting slider 1124 is connected with the second spring 1128; The other end of described second spring 1128 is connected with saddle 1122 by spacer pin 1129; Described triangle 1125 is connected on adjusting slider 1124; Described triangle 1125 is connected with lower knitting needle 118, and lower knitting needle 118 can move by the needle tray of walking on triangle 1125; Described lower knitting needle 118 is connected with the upper pin 104 of band height stitch.

Beneficial effect of the present invention is: structure is simple, easy to operate, replaces mechanical type principle needle selection by the principle of cylinder; By step motor control Archimedian screw group, thus adjusting triangle, lower knitting needle is moved on triangle and realizes braiding function.

Accompanying drawing explanation

Fig. 1 structural representation of the present invention.

Detailed description of the invention

Now by reference to the accompanying drawings, the specific embodiment of the invention is described in detail in detail:

As shown in Figure 1, a kind of two-sided automatic inner wear machine upper lower burrs knitting mechanism, comprises dish knitting mechanism 10 and lower wall knitting mechanism 11; Upper dish knitting mechanism 10 comprises dials seat 101 and cutting disc base 102, and described dials seat 101 is positioned at the below of cutting disc base 102; Described dials seat 101 is connected with dials 103, described dials 103 is connected with the upper pin 104 of some band height stitch; Described cutting disc base 102 is connected with cutting disc 105; Described cutting disc 105 is positioned at the top of dials 103; The right-hand member of described cutting disc 105 is connected with yarn mouth 106; The tongue end of opening of described yarn mouth 106 is connected with the needle latch of the upper pin 104 of band height stitch; Described cutting disc 105 is connected with cylinder needle selecting device; Described cutting disc 105 is provided with the first needle selection groove 1051, second needle selection groove 1052, the 3rd needle selection groove 1053; Described cylinder needle selecting device comprises the first cylinder selecting mechanism 107, second cylinder selecting mechanism 108, the 3rd cylinder selecting mechanism 109, and described first cylinder selecting mechanism 107, second cylinder selecting mechanism 108, the 3rd cylinder selecting mechanism 109 are connected on the first needle selection groove 1051, second needle selection groove 1052, the 3rd needle selection groove 1053; Described first cylinder selecting mechanism 107 comprises cylinder block 1071, stop nut 1072, upper piston 1073, lower piston 1074, guideway 1075, needle selecting cam 1076, cylinder block 1077; Described cylinder block 1077 is connected in cutting disc 105; Described cylinder block 1071 is connected on cylinder block 1077; Described guideway 1075 is connected on the gathering sill of cylinder block 1077; The gathering sill of described cylinder block 1077 communicates with the first needle selection groove 1051; Described upper piston 1073 is connected in cylinder block 1071, and the top of upper piston 1073 is connected with stop nut 1072 through cylinder block 1071 top; One end of described lower piston 1074 is connected with the other end of upper piston 1073; The other end of described lower piston 1074 is connected with needle selecting cam 1076 by fastening screw nut 1078; Described needle selecting cam 1076 is arranged with the first spring 1079; Described first spring 1079 is between fastening screw nut 1078 and guideway 1075; Described needle selecting cam 1076 is connected with the upper pin 104 of the first needle selection groove 1051 with band height stitch through guideway 1075 successively; The structure of described second cylinder selecting mechanism 108, the 3rd cylinder selecting mechanism 109 is identical with the structure of the first cylinder selecting mechanism 107; Described lower wall knitting mechanism 11 comprises big disc gear 111, slide cam selector 112, lower markingoff pin cylinder 113, saddle foundation ring 114, upper markingoff pin cylinder 115, and described lower markingoff pin cylinder 113 is connected on big disc gear 111; Described slide cam selector 112 is connected on big disc gear 111 by slide cam selector foundation ring 116; Described lower markingoff pin cylinder 113 is connected with pattern bit 117; Described slide cam selector 112 is connected with pattern bit 117; Described upper markingoff pin cylinder 115 is connected on lower markingoff pin cylinder 113; Described upper markingoff pin cylinder 115 is connected with lower knitting needle 118; The bottom of described lower knitting needle 118 is connected with pattern bit 117 by middle needle 119; Described saddle foundation ring 114 is connected in frame; Described saddle foundation ring 114 is connected with reset triangle 1110; Described reset triangle 1110 is connected with pattern bit 117; Described saddle foundation ring 114 is connected with automatic run cam mechanism; Described automatic run cam mechanism comprises stepper motor 1121, saddle 1122, Archimedian screw group 1123, adjusting slider 1124, triangle 1125; Described saddle 1122 is connected on saddle foundation ring 114; Described stepper motor 1121 is connected on saddle 1122 by motor base 1126; Described saddle 1122 is provided with adjusting grooves 11221; Described Archimedian screw group 1123 is connected on adjusting grooves 11221 by location bearing 1127; Described Archimedian screw group 1123 is connected with stepper motor 1121; Described adjusting slider 1124 is connected on saddle 1122, and adjusting slider 1124 can slide up and down relative to saddle 1122; Described adjusting slider 1124 is connected with Archimedian screw group 1123; The bottom of described adjusting slider 1124 is connected with the second spring 1128; The other end of described second spring 1128 is connected with saddle 1122 by spacer pin 1129; Described triangle 1125 is connected on adjusting slider 1124; Described triangle 1125 is connected with lower knitting needle 118, and lower knitting needle 118 can move by the needle tray of walking on triangle 1125; Described lower knitting needle 118 is connected with the upper pin 104 of band height stitch.

Claims (1)

1. a two-sided automatic inner wear machine upper lower burrs knitting mechanism, comprises dish knitting mechanism (10) and lower wall knitting mechanism (11); It is characterized in that: described upper dish knitting mechanism (10) comprises dials seat (101) and cutting disc base (102), and described dials seat (101) is positioned at the below of cutting disc base (102); Described dials seat (101) is connected with dials (103), described dials (103) is connected with the upper pin (104) of some band height stitch; Described cutting disc base (102) is connected with cutting disc (105); Described cutting disc (105) is positioned at the top of dials (103); The right-hand member of described cutting disc (105) is connected with yarn mouth (106); The tongue end of opening of described yarn mouth (106) is connected with the needle latch of the upper pin (104) of band height stitch; (105) are connected with cylinder needle selecting device to described cutting disc;

Described cutting disc (105) is provided with the first needle selection groove (1051), the second needle selection groove (1052), the 3rd needle selection groove (1053); Described cylinder needle selecting device comprises the first cylinder selecting mechanism (107), the second cylinder selecting mechanism (108), the 3rd cylinder selecting mechanism (109), and described first cylinder selecting mechanism (107), the second cylinder selecting mechanism (108), the 3rd cylinder selecting mechanism (109) are connected on the first needle selection groove (1051), the second needle selection groove (1052), the 3rd needle selection groove (1053);

Described first cylinder selecting mechanism (107) comprises cylinder block (1071), stop nut (1072), upper piston (1073), lower piston (1074), guideway (1075), needle selecting cam (1076), cylinder block (1077); Described cylinder block (1077) is connected in cutting disc (105); Described cylinder block (1071) is connected on cylinder block (1077); Described guideway (1075) is connected on the gathering sill of cylinder block (1077); The gathering sill of described cylinder block (1077) communicates with the first needle selection groove (1051); Described upper piston (1073) is connected in cylinder block (1071), and the top of upper piston (1073) is connected with stop nut (1072) through cylinder block (1071) top; One end of described lower piston (1074) is connected with the other end of upper piston (1073); The other end of described lower piston (1074) is connected with needle selecting cam (1076) by fastening screw nut (1078); Described needle selecting cam (1076) is arranged with the first spring (1079); Described first spring (1079) is positioned between fastening screw nut (1078) and guideway (1075); Described needle selecting cam (1076) is connected with the upper pin (104) of the first needle selection groove (1051) with band height stitch through guideway (1075) successively; The structure of described second cylinder selecting mechanism (108), the 3rd cylinder selecting mechanism (109) is identical with the structure of the first cylinder selecting mechanism (107);

Described lower wall knitting mechanism (11) comprises big disc gear (111), slide cam selector (112), lower markingoff pin cylinder (113), saddle foundation ring (114), upper markingoff pin cylinder (115), and described lower markingoff pin cylinder (113) is connected on big disc gear (111); Described slide cam selector (112) is connected on big disc gear (111) by slide cam selector foundation ring (116); Described lower markingoff pin cylinder (113) is connected with pattern bit (117); Described slide cam selector (112) is connected with pattern bit (117); Described upper markingoff pin cylinder (115) is connected on lower markingoff pin cylinder (113); Described upper markingoff pin cylinder (115) is connected with lower knitting needle (118); The bottom of described lower knitting needle (118) is connected with pattern bit (117) by middle needle (119); Described saddle foundation ring (114) is connected in frame; Described saddle foundation ring (114) is connected with reset triangle (1110); Described reset triangle (1110) is connected with pattern bit (117); Described saddle foundation ring (114) is connected with automatic run cam mechanism;

Described automatic run cam mechanism comprises stepper motor (1121), saddle (1122), Archimedian screw group (1123), adjusting slider (1124), triangle (1125); Described saddle (1122) is connected on saddle foundation ring (114); Described stepper motor (1121) is connected on saddle (1122) by motor base (1126); Described saddle (1122) is provided with adjusting grooves (11221); Described Archimedian screw group (1123) is connected on adjusting grooves (11221) by location bearing (1127); Described Archimedian screw group (1123) is connected with stepper motor (1121); Described adjusting slider (1124) is connected on saddle (1122), and adjusting slider (1124) can slide up and down relative to saddle (1122); Described adjusting slider (1124) is connected with Archimedian screw group (1123); The bottom of described adjusting slider (1124) is connected with the second spring (1128); The other end of described second spring (1128) is connected with saddle (1122) by spacer pin (1129); Described triangle (1125) is connected on adjusting slider (1124); Described triangle (1125) is connected with lower knitting needle (118), and lower knitting needle (118) can move by the needle tray of walking on triangle (1125); Described lower knitting needle (118) is connected with the upper pin (104) of band height stitch.