阅读说明：本技术 一种织缝翻一体袜机的传动机构 (Transmission mechanism of knit-stitch turning-over integrated hosiery machine ) 是由 丁永达 孙建兴 丁家伟 于 2020-07-23 设计创作，主要内容包括：本发明公开了一种织缝翻一体袜机的传动机构,包括驱动电机、顶升机构、切换机构、升降机构,顶升机构配套安装在安装基座中并设置在织袜装置的正下方,切换机构固定安装在安装基座的正上方并通过织袜装置的上表面,切换机构上以相对滑动的方式配套安装有滑动安装座,切换机构带动滑动安装座进行滑动,滑动安装座上配套安装有配套出料口、缝合装置,升降机构配套安装在切换机构上并与切换机构动力连接,配套出料口、缝合装置均与升降机构动力连接以驱动配套出料口、缝合装置上下运动。本发明具有提高织缝翻一体袜机生产袜子的自动化程度,简化动力设备的安装状态的有益效果。(The invention discloses a transmission mechanism of a sewing and turning integrated hosiery machine, which comprises a driving motor, a jacking mechanism, a switching mechanism and a lifting mechanism, wherein the jacking mechanism is arranged in a mounting base in a matching manner and is arranged under a hosiery device, the switching mechanism is fixedly arranged right above the mounting base and passes through the upper surface of the hosiery device, a sliding mounting seat is arranged on the switching mechanism in a matching manner in a relative sliding manner, the switching mechanism drives the sliding mounting seat to slide, a matched discharge hole and a stitching device are arranged on the sliding mounting seat in a matching manner, the lifting mechanism is arranged on the switching mechanism in a matching manner and is in power connection with the switching mechanism, and the matched discharge hole and the stitching device are both in power connection with the lifting mechanism so as to drive the matched discharge hole and the stitching device. The invention has the advantages of improving the automation degree of the sock knitting, sewing and turning integrated hosiery machine for producing socks and simplifying the installation state of power equipment.)

1. The utility model provides a knit seam and turn over drive mechanism of integrative hosiery machine, with knit seam and turn over the supporting installation of mounting base (1) of integrative hosiery machine, supporting install on mounting base (1) and knit socks device (2), and knit socks device (2) upper and lower both ends and seted up upper opening, lower floor's opening, its characterized in that respectively: including driving motor (3) to and climbing mechanism, switching mechanism, elevating system who is connected with driving motor (3) power, climbing mechanism is supporting to be installed in mounting base (1) and set up under weaving socks device (2), switching mechanism fixed mounting is directly over mounting base (1) and through the upper surface of weaving socks device (2), supporting install slidable mounting seat (4) with relative gliding mode on the switching mechanism, the switching mechanism drives slidable mounting seat (4) and slides, supporting discharge gate (5), sewing device (6) of installing on slidable mounting seat (4) form a complete set, elevating system is supporting to be installed on switching mechanism and to be connected with switching mechanism power, supporting discharge gate (5), sewing device (6) all are connected with elevating system power with driving supporting discharge gate (5), The stitching device (6) moves up and down;

the sliding installation seat (4) is vertically provided with a first sliding groove (7) and a second sliding groove, the matched discharge port (5) is nested and installed in the first sliding groove (7) in a relative sliding mode, and the sewing device (6) is nested and installed in the second sliding groove in a relative sliding mode.

2. The transmission mechanism of the stitch-turning integrated hosiery machine as claimed in claim 1, characterized in that: a first installation cavity (8) is formed in the installation base (1), and the driving motor (3) is fixedly installed in the first installation cavity (8) and is directly or indirectly in power connection with the jacking mechanism, the switching mechanism and the lifting mechanism.

3. The transmission mechanism of the stitch-turning integrated hosiery machine as claimed in claim 2, characterized in that: second installation cavity (9) have been seted up to mounting base (1) inside, and second installation cavity (9) set up knit socks device (2) under, climbing mechanism is supporting to be installed in second installation cavity (9), and climbing mechanism includes lifting rod (10), jacking board (11), and jacking board (11) are in order to follow vertical direction relative slip's mode nested the installing in second installation cavity (9), and lifting rod (10) concreties at lifting board (11) upper surface, and second installation cavity (9) are worn out and lead out to lifting rod (10) top in knitting socks device (2).

4. The transmission mechanism of the stitch-turning integrated hosiery machine as claimed in claim 3, characterized in that: the jacking plate (11) is in power connection with the driving motor (3) through a transmission mechanism, the transmission mechanism comprises a first adjusting screw rod (12), a first transmission gear (13), a second transmission gear (14), a third transmission gear (15), a fourth transmission gear (16), a first change gear (17), a second change gear (18) and a first driving gear (19), at least two groups of the first adjusting screw rod (12) are vertically arranged in the second installation cavity (9) in a relative rotation mode, the bottom end of the first adjusting screw rod (12) is communicated into the first installation cavity (8), the part of the first adjusting screw rod (12) communicated into the first installation cavity (8) is fixedly connected with the first transmission gear (13), each group of the first transmission gears (13) is in power connection through a chain, the bottom end of one group of the adjusting screw rods is also fixedly connected with the second transmission gear (14), the third transmission gear (15) is fixedly connected with the axle center of the first change gear (17), the third transmission gear (15) is in power connection with the second transmission gear (14) through a chain, the fourth transmission gear (16) is fixedly connected with the axle center of the second change gear (18), the first change gear (17) is in meshed connection with the second change gear (18), and the first driving gear (19) is fixedly installed on the rotating shaft of the driving motor (3) and is in meshed connection with the fourth transmission gear (16) through the chain.

5. The transmission mechanism of the stitch-turning integrated hosiery machine as claimed in claim 4, characterized in that: the switching mechanism comprises a strip-shaped sliding groove (20), a second adjusting screw rod (21), a fifth transmission gear (22), a sixth transmission gear (23) and a second driving gear (24), the strip-shaped sliding groove (20) is fixedly connected to the upper surface of the mounting base (1) and passes through an upper layer through hole of the sock weaving device (2), the second adjusting screw rod (21) comprises two groups and is arranged along the strip-shaped sliding groove (20) in a relative sliding mode, the sliding mounting base (4) is nested and mounted in the strip-shaped sliding groove (20) in a relative sliding mode and is in screwed connection with the second adjusting screw rod (21), the fifth transmission gear (22) is fixedly connected to one end of each group of the second adjusting screw rods (21), the fifth transmission gear (22) is connected to the fifth transmission gear (22) through chain power, the sixth transmission gear (23) is fixedly connected to the end of one group of the second adjusting screw rods (21), and the second driving gear (24) is fixedly connected to a rotating shaft of the driving motor (, and the sixth transmission gear (23) is in power connection with the second driving gear (24) through a chain.

6. The transmission mechanism of the stitch-turning integrated hosiery machine as claimed in claim 5, characterized in that: elevating system includes power shaft (25), third drive gear (26), fourth drive gear (27), seventh drive gear (28), eighth drive gear (29), third change gear (30), fourth change gear (31), third accommodate the lead screw (32), power shaft (25) are followed with relative pivoted mode strip spout (20) are arranged, and let in sliding installation seat (4), power shaft (25) one end is consolidated and is had third drive gear (26), fourth drive gear (27) are consolidated and are being adjusted the tip of lead screw (21) at one of them group second, and third drive gear (26) and fourth drive gear (27) meshing connection, third installation cavity (33) have all been seted up to the both sides of first sliding tray (7), second sliding tray, all install in every group third installation cavity (33) that seventh drive gear (28) are supporting, An eighth transmission gear (29), a third change gear (30), a fourth change gear (31) and a third adjusting screw rod (32); the power shaft (25) penetrates through the third mounting cavities (33) of each group to be arranged, the seventh transmission gear (28) is nested in the third mounting cavities (33) in a relative rotation mode and is in plug-in connection with the power shaft (25), the third adjusting screw (32) is vertically arranged in a relative rotation mode, one end of the third adjusting screw (32) is fixedly connected with the third change gear (30), the axes of the eighth transmission gear (29) and the fourth change gear (31) are fixedly connected, the seventh transmission gear (28) and the eighth transmission gear (29) are in meshed connection, the third change gear (30) and the fourth change gear (31) are in meshed connection, mounting blocks (34) communicated into the corresponding third mounting cavities (33) are fixedly connected on the matched discharge port (5) and the sewing device (6), and the mounting blocks (34) are in rotary connection with the corresponding third adjusting screw (32).

7. The transmission mechanism of the stitch-turning integrated hosiery machine as claimed in claim 6, characterized in that: a strip-shaped limiting block is fixedly connected to the power shaft (25) along the axial direction, and a strip-shaped limiting groove matched with the strip-shaped limiting block is formed in the axis of the seventh transmission gear (28).

8. The transmission mechanism of the stitch-turning integrated hosiery machine as claimed in claim 7, characterized in that: the third adjusting screw rod (32) does not have space interference with the power shaft (25), and the power shaft (25) and the second adjusting screw rod (21) are both arranged at the outer sides of the first sliding groove (7) and the second sliding groove.

9. The transmission mechanism of the stitch-turning integrated hosiery machine as claimed in claim 8, characterized in that: intercommunicating pores are vertically formed among the first sliding grooves (7), the second sliding grooves and the corresponding third mounting cavities (33), and the mounting blocks (34) are introduced into the corresponding third mounting cavities (33) through the intercommunicating pores and are connected with the corresponding third adjusting screw rods (32) in a screwing mode.

The technical field is as follows:

the invention relates to the technical field of hosiery machine equipment, in particular to a transmission mechanism of a sewing and turning integrated hosiery machine.

Background art:

the special production equipment is often needed to be used in the sock production process, and in order to improve the sock production speed, the sewing and turning integrated sock machine is applied to the sock production, so that the sock production speed can be greatly improved. However, in the working process of the traditional sewing and turning integrated hosiery machine, in order to ensure the matching of all devices matched with the machine, a complex transmission mechanism needs to be designed to ensure the normal output of the hosiery. When the traditional transmission mechanism is matched with each device to work, the whole body can be collapsed due to errors in a certain link, and the traditional transmission mechanism is poor in stability and low in automation degree.

The invention content is as follows:

the invention aims to solve the problems in the prior art and provides a transmission mechanism of a sewing and turning integrated hosiery machine, which controls the matching work of a hosiery knitting device and a sewing device and the passing of produced socks by controlling the working state of a group of driving motors, improves the automation degree of the production of the socks by the sewing and turning integrated hosiery machine and simplifies the installation state of power equipment.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a transmission mechanism of a sewing and turning integrated hosiery machine is installed in a matching way with a mounting base of the sewing and turning integrated hosiery machine, a hosiery device is installed on the mounting base in a matching way, upper-layer through openings and lower-layer through openings are respectively formed in the upper end and the lower end of the hosiery device, the transmission mechanism comprises a driving motor, and a jacking mechanism, a switching mechanism and a lifting mechanism which are connected with the driving motor in a power way, the jacking mechanism is installed in the mounting base in a matching way and is arranged under the hosiery device, the switching mechanism is fixedly installed right above the mounting base and passes through the upper surface of the hosiery device, a sliding mounting seat is installed on the switching mechanism in a matching way in a relative sliding way, the switching mechanism drives the sliding mounting seat to slide, a matched discharge port and a sewing device are installed on the sliding mounting seat in a matching way, and the lifting mechanism is installed on the switching mechanism, the matched discharge port and the sewing device are both in power connection with the lifting mechanism so as to drive the matched discharge port and the sewing device to move up and down;

the sliding installation seat is vertically provided with a first sliding groove and a second sliding groove, the matched discharge port is nested and installed in the first sliding groove in a relative sliding mode, and the suturing device is nested and installed in the second sliding groove in a relative sliding mode.

A first installation cavity is formed in the installation base, and the driving motor is fixedly installed in the first installation cavity and is directly or indirectly in power connection with the jacking mechanism, the switching mechanism and the lifting mechanism.

The inside second installation cavity of having seted up of mounting base, and the second installation cavity sets up weave the socks device under, climbing mechanism is supporting to be installed in the second installation cavity, and climbing mechanism includes lifting rod, jacking board, and the jacking board is in the second installation cavity with the mode nestification of following vertical direction relative slip, and the lifting rod concreties at the lifting board upper surface, and the lifting rod top is worn out the second installation cavity and is led out weave among the socks device.

The jacking plate is in power connection with the driving motor through a transmission mechanism, the transmission mechanism comprises a first adjusting screw rod, a first transmission gear, a second transmission gear, a third transmission gear, a fourth transmission gear, a first change gear, a second change gear and a first driving gear, at least two groups of the first adjusting screw rod are arranged and vertically installed in the second installation cavity in a relative rotation mode, the bottom end of the first adjusting screw rod is communicated with the first installation cavity, the part of the first adjusting screw rod communicated with the first installation cavity is fixedly connected with the first transmission gear, each group of the first transmission gears are in power connection through a chain, the bottom end of one group of the adjusting screw rods is also fixedly connected with the second transmission gear, the third transmission gear is fixedly connected with the axle center of the first change gear, the third transmission gear is in power connection with the second transmission gear through a chain, the fourth transmission gear is fixedly connected with the axle center of the second change gear, and the first change gear is meshed with the second change gear, and the first driving gear is fixedly arranged on a rotating shaft of the driving motor and is meshed with the fourth transmission gear through a chain.

The switching mechanism comprises a bar-shaped sliding groove, a second adjusting screw rod, a fifth transmission gear, a sixth transmission gear and a second driving gear, the bar-shaped sliding groove is fixedly connected with the upper surface of the mounting base and passes through an upper layer opening of the sock weaving device, the second adjusting screw rod comprises two groups and is arranged along the bar-shaped sliding groove in a relative sliding mode, the sliding mounting base is nested and mounted in the bar-shaped sliding groove in the relative sliding mode and is in screwed connection with the second adjusting screw rod, the fifth transmission gear is fixedly connected with one end of each of the two groups of second adjusting screw rods, the fifth transmission gears of each group are connected through chain power, the sixth transmission gear is fixedly connected with the end of one group of second adjusting screw rods, the second driving gear is fixedly connected with the rotating shaft of the driving motor, and the sixth transmission gear is connected with the second driving gear through chain power.

The lifting mechanism comprises a power shaft, a third driving gear, a fourth driving gear, a seventh driving gear, an eighth driving gear, a third steering gear, a fourth steering gear and a third adjusting screw rod, the power shaft is arranged along the strip-shaped sliding groove in a relative rotation mode and is led into the sliding mounting seat, the third driving gear is fixedly connected to one end of the power shaft, the fourth driving gear is fixedly connected to the end part of one group of second adjusting screw rods, the third driving gear is meshed and connected with the fourth driving gear, third mounting cavities are formed in the two sides of the first sliding groove and the second sliding groove, and the seventh driving gear, the eighth driving gear, the third steering gear, the fourth steering gear and the third adjusting screw rod are mounted in each group of third mounting cavities in a matched mode; the power shaft penetrates through the third mounting cavities of all the groups to be arranged, the seventh transmission gear is nested in the third mounting cavities in a relative rotation mode and is spliced with the power shaft, the third adjusting screw rod is vertically arranged in a relative rotation mode, a third steering gear is fixedly connected to one end of the third adjusting screw rod, the axle centers of the eighth transmission gear and the fourth steering gear are fixedly connected, the seventh transmission gear and the eighth transmission gear are in meshed connection, the third steering gear and the fourth steering gear are in meshed connection, mounting blocks which are led into the corresponding third mounting cavities are fixedly connected to the matched discharge port and the sewing device, and the mounting blocks are connected with the corresponding third adjusting screw rods in a rotating mode.

A strip-shaped limiting block is fixedly connected to the power shaft along the axial direction, and a strip-shaped limiting groove matched with the strip-shaped limiting block is formed in the axis of the seventh transmission gear.

The third adjusting screw rod does not generate spatial interference with the power shaft, and the power shaft and the second adjusting screw rod are both arranged at the outer sides of the first sliding groove and the second sliding groove.

Intercommunicating pores are vertically formed among the first sliding grooves, the second sliding grooves and the correspondingly arranged third mounting cavities, and the mounting blocks are introduced into the corresponding third mounting cavities through the intercommunicating pores and are connected with the corresponding third adjusting screw rods in a rotating mode.

The invention has the beneficial effects that: the working state of a group of driving motors is controlled, so that the jacking mechanism, the switching mechanism and the lifting mechanism are synchronously driven to synchronously move, and then the lifting mechanism is matched with the sock knitting device and the sock sewing device to work to produce socks, the sock knitting device and the sock sewing device can be matched to work to produce socks subjected to sewing treatment, and the socks are switched to a matched discharge port to be opposite to the sock knitting device, and the produced socks are ejected out through the jacking mechanism; improve the degree of automation of knitting seam and turning over integrative hosiery machine production socks, can simplify power equipment's installation state simultaneously.

Description of the drawings:

FIG. 1 is a schematic view of a vertical cross-sectional structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is an enlarged detail view of portion A of FIG. 1;

FIG. 4 is an enlarged detail view of the portion B of FIG. 1;

FIG. 5 is an enlarged detail view of section C of FIG. 1;

FIG. 6 is an enlarged detail view of portion D of FIG. 1;

fig. 7 is an enlarged detail view of the portion E in fig. 2.

In the figure: the automatic sewing machine comprises a mounting base 1, a hosiery weaving device 2, a driving motor 3, a sliding mounting seat 4, a matching discharge port 5, a sewing device 6, a first sliding groove 7, a first mounting cavity 8, a second mounting cavity 9, a jacking rod 10, a jacking plate 11, a first adjusting screw rod 12, a first transmission gear 13, a second transmission gear 14, a third transmission gear 15, a fourth transmission gear 16, a first change gear 17, a second change gear 18, a first driving gear 19, a strip-shaped sliding groove 20, a second adjusting screw rod 21, a fifth transmission gear 22, a sixth transmission gear 23, a second driving gear 24, a power shaft 25, a third driving gear 26, a fourth driving gear 27, a seventh transmission gear 28, an eighth transmission gear 29, a third gear 30, a fourth change gear 31, a third adjusting screw rod 32, a third mounting cavity 33 and a mounting block 34.

The specific implementation mode is as follows:

in order that those skilled in the art will better understand the technical solution of the present invention, the following detailed description of the present invention is provided in conjunction with the accompanying drawings and embodiments.