CN108978001B

CN108978001B - High-precision textile machine

Info

Publication number: CN108978001B
Application number: CN201810807351.1A
Authority: CN
Inventors: 余拓
Original assignee: Dongguan Jinlin Intelligent Technology Co Ltd
Current assignee: Dongguan Jinlin Intelligent Technology Co., Ltd
Priority date: 2018-07-21
Filing date: 2018-07-21
Publication date: 2020-05-22
Anticipated expiration: 2038-07-21
Also published as: CN108978001A

Abstract

The invention relates to a textile mechanism, in particular to a high-precision textile machine, which comprises a complete machine bracket, a power mechanism, a speed change mechanism, a transmission mechanism, a crank mechanism I, an upper connecting rod, an upper textile frame, a crank mechanism II, a lower connecting rod and a lower textile frame, the front end of the power mechanism is fixedly connected to the complete machine support, the rear end of the power mechanism is rotatably connected to the complete machine support, the speed change mechanism is rotatably connected to the complete machine support, the power mechanism and the speed change mechanism are connected through belt transmission, the transmission mechanism is rotatably connected to the complete machine support, the speed change mechanism and the transmission mechanism are connected through belt transmission, the crank mechanism I is rotatably connected to the complete machine support, the device can be powered by the power mechanism, the spinning speed can be changed by the power mechanism and the speed change mechanism according to different spinning requirements, stepless speed change is realized, the upper spinning frame and the lower spinning frame are driven to do the cross motion through the crank mechanism I and the crank mechanism II so as to spin the thread.

Description

High-precision textile machine

Technical Field

The invention relates to a spinning mechanism, in particular to a high-precision spinning machine.

Background

For example, patent number CN201810044950.2 a high accuracy weaving machine, including weaving the quick-witted body, the lower extreme of weaving the quick-witted body is equipped with the supporting legs, and the upper surface of supporting legs and the bottom surface fixed connection of weaving the quick-witted body, and the inside of weaving the quick-witted body is equipped with the wire winding pole, and wire winding pole and weaving quick-witted body closely weld. The high-precision textile machine has the characteristics of more functions, intelligent operation and higher precision, the thermometer is arranged on the left side of the textile machine body, and is embedded in the textile machine body for measuring temperature in real time to judge whether the interior of the machine body needs to be cooled or not, so that the high-precision textile machine is simple and easy to operate, a good temperature environment in the machine can be ensured, meanwhile, the installation control keys are arranged on the upper surface of the intelligent controller, the operation of the machine is accurately controlled through the control keys, errors are not easy to occur, the precision of various data is improved, and the high-precision requirement is met; the disadvantage of this invention is that the weaving speed cannot be changed according to different weaving requirements.

Disclosure of Invention

The invention aims to provide a high-precision textile machine, which can change the textile speed according to different textile requirements and realize stepless speed change.

The purpose of the invention is realized by the following technical scheme:

a high-precision textile machine comprises a complete machine support, a power mechanism, a speed change mechanism, a transmission mechanism, a crank mechanism I, an upper connecting rod, an upper textile frame, a crank mechanism II, a lower connecting rod and a lower textile frame, wherein the front end of the power mechanism is fixedly connected to the complete machine support, the rear end of the power mechanism is rotatably connected to the complete machine support, the speed change mechanism is rotatably connected to the complete machine support, the power mechanism and the speed change mechanism are connected through belt transmission, the transmission mechanism is rotatably connected to the complete machine support, the speed change mechanism and the transmission mechanism are connected through belt transmission, the crank mechanism I is rotatably connected to the complete machine support, the transmission mechanism and the crank mechanism I are connected through belt transmission, the upper end of the upper connecting rod is hinged to the eccentric position of the crank mechanism I, the upper textile frame is slidably connected to the complete machine support, the lower end of the upper connecting rod is hinged to the, the transmission mechanism is connected with the crank mechanism II through belt transmission, the lower end of the lower connecting rod is hinged to the eccentric position of the crank mechanism II, the lower spinning frame is connected to the whole machine support in a sliding mode, and the upper end of the lower connecting rod is hinged to the lower spinning frame.

As a further optimization of the technical scheme, the high-precision textile machine comprises a whole machine support, wherein the whole machine support comprises two side plates, two connecting plates and two vertical sliding grooves, the two side plates and the two vertical sliding grooves are symmetrically arranged in the front and back direction, the front end and the back end of each connecting plate are fixedly connected to the two side plates respectively, and the two vertical sliding grooves are arranged on the left sides of the two side plates respectively.

As a further optimization of the technical scheme, the high-precision textile machine comprises a motor, an adjusting screw rod, a handle, an adjusting belt wheel, an adjusting pushing cylinder, a connecting key I, a power sliding block I, a power connecting rod, a power fixing block, a power sliding block II, a power lifting block and a sliding column I, wherein the front end of the adjusting screw rod is rotatably connected to the left end of an output shaft of the motor, the handle is fixedly connected to the rear end of the adjusting screw rod, the adjusting belt wheel is fixedly connected to the middle end of the adjusting screw rod, the adjusting pushing cylinder is connected to the adjusting screw rod through threads, the connecting key I is fixedly connected to the output shaft of the motor, the power sliding block I and the power sliding block II are both slidably connected to the output shaft of the motor through the connecting key I, the power fixing block is fixedly connected to the middle end of the output shaft of the motor, and the power sliding, the front end of adjustment band pulley rotates to be connected on power slider I, power connecting rod bilateral symmetry is provided with twelve, the outer end of twelve power connecting rods articulates respectively on power slider I and power slider II, power elevator circumference is provided with six, the inner of twelve power connecting rods articulates respectively on six power elevator, the equal sliding connection in inner of six power elevator is on the power fixed block, I fixed connection of slip post is at the lower extreme of adjustment propelling movement section of thick bamboo, motor fixed connection is on the curb plate that is located the front side, the adjustment lead screw rotates to be connected on the curb plate that is located the rear side, I sliding connection of slip post is on the curb plate that is located the rear side.

As a further optimization of the technical scheme, the high-precision textile machine comprises a speed change shaft, a speed change belt wheel I, a connecting key II, a speed change slider I, a speed change fixing block, a speed change slider II, a speed change connecting rod, a speed change lifting block, a speed change screw rod, a speed change belt wheel II, a speed change pushing cylinder and a sliding column II, wherein the speed change belt wheel I is fixedly connected to the middle end of the speed change shaft, the connecting key II is fixedly connected to the speed change shaft, the speed change slider I and the speed change slider II are both slidably connected to the speed change shaft through the connecting key II, the speed change fixing block is fixedly connected to the speed change shaft and is positioned between the speed change slider I and the speed change slider II, six speed change lifting blocks are uniformly arranged in the circumferential direction, the speed change connecting rods are symmetrically arranged in twelve number, the outer ends of the twelve speed change connecting rods are respectively hinged to the speed change slider I and the, the inner ends of twelve speed change connecting rods are all connected in a speed change fixing block in a sliding mode, a speed change screw rod is connected to the rear end of a speed change shaft in a rotating mode, a speed change belt wheel II is fixedly connected to the middle end of the speed change screw rod, the rear end of a speed change pushing cylinder is connected to the speed change screw rod through threads, the front end of the speed change pushing cylinder is connected to a speed change sliding block II in a rotating mode, the speed change screw rod is connected to a side plate located on the rear side in a rotating mode, the speed change shaft is connected to the side plate located on the front side in a rotating mode, an adjusting belt wheel and the speed change belt wheel II are connected through belt transmission, the rotating directions of threads on the speed change screw rod.

As a further optimization of the technical scheme, the high-precision textile machine comprises a transmission mechanism, a transmission belt wheel I, a transmission belt wheel II and a connecting belt wheel, wherein the transmission belt wheel I and the transmission belt wheel II are fixedly connected to the front end and the rear end of the transmission shaft respectively, the connecting belt wheel is fixedly connected to the middle end of the transmission shaft, the two ends of the transmission shaft are rotatably connected to two side plates respectively, and the connecting belt wheel is in transmission connection with a speed change belt wheel I through a belt.

As the technical scheme is further optimized, the high-precision textile machine comprises a crank mechanism I, a crank belt wheel I and a crank I, wherein the crank belt wheel I and the crank I are fixedly connected to the front end and the rear end of the crank shaft I respectively, the crank shaft I is rotatably connected to a side plate located on the front side, the crank belt wheel I and a transmission belt wheel I are in transmission connection through a belt, and the upper end of an upper connecting rod is hinged to the eccentric position of the crank I.

As a further optimization of the technical scheme, the high-precision textile machine comprises an upper textile frame body and a plurality of upper threading supports, wherein the upper threading supports are uniformly and fixedly connected to the lower end of the upper textile frame body, two ends of the upper textile frame body are respectively connected in two vertical sliding grooves in a sliding manner, and the lower end of an upper connecting rod is hinged to the upper textile frame body.

As the technical scheme is further optimized, the high-precision textile machine comprises a crank mechanism II, a crank II and a crank belt wheel II, wherein the crank II and the crank belt wheel II are fixedly connected to the front end and the rear end of the crank II respectively, the crank II is rotatably connected to a side plate located on the rear side, the crank belt wheel II is in belt transmission connection with a transmission belt wheel II, the diameter of the crank belt wheel II is the same as that of the crank belt wheel I, the lower end of a lower connecting rod is hinged to the eccentric position of the crank II, and the diameters of the crank II and the crank I are the same.

As a further optimization of the technical scheme, the high-precision textile machine comprises a lower textile frame body and a plurality of lower threading supports, wherein the lower threading supports are uniformly and fixedly connected to the upper end of the lower textile frame body, the lower threading supports and the upper threading supports are arranged in a crossed manner, the upper end of a lower connecting rod is hinged to the lower textile frame body, and two ends of the lower textile frame body are respectively connected into two vertical sliding grooves in a sliding manner.

The high-precision textile machine has the beneficial effects that:

according to the high-precision textile machine, power can be provided for the high-precision textile machine through the power mechanism, the textile speed can be changed according to different textile requirements through the power mechanism and the speed change mechanism, stepless speed change is achieved, and the upper textile frame and the lower textile frame are driven to move in a cross mode through the crank mechanism I and the crank mechanism II to carry out spinning on threads.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the overall construction of a high precision textile machine of the present invention;

FIG. 2 is a rear view schematic of the high precision textile machine of the present invention;

FIG. 3 is a schematic view of the overall bracket structure of the present invention;

FIG. 4 is a schematic diagram of a power mechanism according to the present invention;

FIG. 5 is a schematic cross-sectional view of a power mechanism according to the present invention;

FIG. 6 is a schematic structural view of the shifting mechanism of the present invention;

FIG. 7 is a schematic cross-sectional structural view of the shifting mechanism of the present invention;

FIG. 8 is a schematic view of the transmission mechanism of the present invention;

FIG. 9 is a schematic structural view of a crank mechanism I of the present invention;

FIG. 10 is a schematic view of the upper frame structure of the present invention;

FIG. 11 is a schematic structural view of a crank mechanism II of the present invention;

FIG. 12 is a schematic view of the lower frame structure of the present invention.

In the figure: a complete machine bracket 1; 1-1 of a side plate; a connecting plate 1-2; 1-3 of a vertical sliding groove; a power mechanism 2; a motor 2-1; adjusting the screw rod 2-2; 2-3 of a handle; adjusting belt wheels 2-4; adjusting the pushing cylinder 2-5; a connecting bond I2-6; 2-7 of a power slide block; 2-8 of a power connecting rod; 2-9 parts of a power fixing block; 2-10 parts of a power slide block; 2-11 of a power lifting block; 2-12 parts of a sliding column I; a speed change mechanism 3; a shift shaft 3-1; a speed change pulley I3-2; a connecting bond II 3-3; 3-4 of a speed change slide block; 3-5 parts of a variable speed fixing block; a variable speed slide block II 3-6; a shift link 3-7; 3-8 of a variable speed lifting block; 3-9 parts of variable speed screw rod; 3-10 parts of a variable speed belt wheel; variable speed push cylinders 3-11; 3-12 parts of a sliding column II; a transmission mechanism 4; a transmission shaft 4-1; a transmission belt wheel I4-2; a transmission belt wheel II 4-3; connecting belt wheels 4-4; a crank mechanism I5; a crankshaft I5-1; a crank belt wheel I5-2; 5-3 parts of a crank I; an upper connecting rod 6; an upper spinning frame 7; putting on a spinning frame body 7-1; an upper threading bracket 7-2; a crank mechanism II 8; a crankshaft II 8-1; a crank II 8-2; a crank belt wheel II 8-3; a lower connecting rod 9; a lower spinning frame 10; a lower spinning frame body 10-1; a lower threading bracket 10-2.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 12, a high-precision textile machine comprises a complete machine support 1, a power mechanism 2, a speed change mechanism 3, a transmission mechanism 4, a crank mechanism i 5, an upper connecting rod 6, an upper textile frame 7, a crank mechanism ii 8, a lower connecting rod 9 and a lower textile frame 10, wherein the front end of the power mechanism 2 is fixedly connected to the complete machine support 1, the rear end of the power mechanism 2 is rotatably connected to the complete machine support 1, the speed change mechanism 3 is rotatably connected to the complete machine support 1, the power mechanism 2 and the speed change mechanism 3 are connected through belt transmission, the transmission mechanism 4 is rotatably connected to the complete machine support 1, the speed change mechanism 3 and the transmission mechanism 4 are connected through belt transmission, the crank mechanism i 5 is rotatably connected to the complete machine support 1, the transmission mechanism 4 and the crank mechanism i 5 are connected through belt transmission, the upper end of the upper connecting rod 6, the upper spinning frame 7 is connected to the whole machine support 1 in a sliding mode, the lower end of the upper connecting rod 6 is hinged to the upper spinning frame 7, the crank mechanism II 8 is connected to the whole machine support 1 in a rotating mode, the transmission mechanism 4 and the crank mechanism II 8 are connected in a belt transmission mode, the lower end of the lower connecting rod 9 is hinged to the eccentric position of the crank mechanism II 8, the lower spinning frame 10 is connected to the whole machine support 1 in a sliding mode, and the upper end of the lower connecting rod 9 is hinged to the lower spinning frame 10; can provide power for this device through power unit 2, can change weaving speed according to the weaving demand of difference through power unit 2 and speed change mechanism 3, realize infinitely variable, weave 10 intercrossing motions with the line and weave in the frame 7 of weaving and weaving down through crank mechanism I5 and crank mechanism II 8 drive.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1 to 12, and the embodiment further describes the first embodiment, where the complete machine support 1 includes two side plates 1-1, two connecting plates 1-2 and two vertical sliding grooves 1-3, the two side plates 1-1 and the two vertical sliding grooves 1-3 are symmetrically arranged in front and back, the front and back ends of the connecting plates 1-2 are respectively fixedly connected to the two side plates 1-1, and the two vertical sliding grooves 1-3 are respectively arranged on the left sides of the two side plates 1-1.

The third concrete implementation mode:

the second embodiment is further described with reference to fig. 1-12, wherein the power mechanism 2 includes a motor 2-1, an adjusting screw rod 2-2, a handle 2-3, an adjusting pulley 2-4, an adjusting pushing cylinder 2-5, a connecting key i 2-6, a power slider i 2-7, a power link 2-8, a power fixing block 2-9, a power slider ii 2-10, a power lifting block 2-11 and a sliding column i 2-12, the front end of the adjusting screw rod 2-2 is rotatably connected to the left end of the output shaft of the motor 2-1, the handle 2-3 is fixedly connected to the rear end of the adjusting screw rod 2-2, the adjusting pulley 2-4 is fixedly connected to the middle end of the adjusting screw rod 2-2, the adjusting pushing cylinder 2-5 is connected to the adjusting screw rod 2-2 through a screw thread, the connecting key I2-6 is fixedly connected to an output shaft of the motor 2-1, the power slide block I2-7 and the power slide block II 2-10 are both connected to the output shaft of the motor 2-1 in a sliding mode through the connecting key I2-6, the power fixing block 2-9 is fixedly connected to the middle end of the output shaft of the motor 2-1, the power slide block II 2-10 and the power slide block I2-7 are respectively located at the front end and the rear end of the power fixing block 2-9, the front end of the adjusting belt wheel 2-4 is rotatably connected to the power slide block I2-7, twelve power connecting rods 2-8 are symmetrically arranged on the left and right sides, the outer ends of twelve power connecting rods 2-8 are respectively hinged to the power slide block I2-7 and the power slide block II 2-10, and six power, the inner ends of twelve power connecting rods 2-8 are respectively hinged to six power lifting blocks 2-11, the inner ends of the six power lifting blocks 2-11 are all connected to power fixing blocks 2-9 in a sliding mode, sliding columns I2-12 are fixedly connected to the lower end of an adjusting pushing cylinder 2-5, a motor 2-1 is fixedly connected to a side plate 1-1 located on the front side, an adjusting screw rod 2-2 is rotatably connected to the side plate 1-1 located on the rear side, and the sliding columns I2-12 are connected to the side plate 1-1 located on the rear side in a sliding mode; when the belt wheel is used, the motor 2-1 is started, the output shaft of the motor 2-1 starts to rotate, the output shaft of the motor 2-1 drives the power slide block I2-7 and the power slide block II 2-10 to rotate through the connecting key I2-6, the output shaft of the motor 2-1 drives the power fixing block 2-9 to rotate, the power slide block I2-7 and the power slide block II 2-10 rotate through twelve power connecting rods 2-8, the number of the power connecting rods 2-8 can be changed according to use requirements, the power connecting rods 2-8 drive the power lifting blocks 2-11 to rotate, when the outer diameter of a belt wheel formed by the power lifting blocks 2-11 needs to be changed, the handle 2-3 is manually rotated, and the handle 2-3 drives the adjusting screw rod 2-2 to rotate, the adjusting screw rod 2-2 drives the adjusting belt wheel 2-4 to rotate, the adjusting screw rod 2-2 drives the adjusting pushing cylinder 2-5 to move through threads, the adjusting pushing cylinder 2-5 moves back and forth on the adjusting screw rod 2-2 through the sliding column I2-12, the adjusting pushing cylinder 2-5 pushes the power sliding block I2-7 to move back and forth, the power sliding block I2-7 pushes the six power connecting rods 2-8 on one side to move back and forth, the upper ends of the six power connecting rods 2-8 move inwards and outwards, the upper ends of the six power connecting rods 2-8 push the six power lifting blocks 2-11 to move outwards or inwards, and the diameters of the six power lifting blocks 2-11 forming the belt wheels are changed.

The fourth concrete implementation mode:

the third embodiment is further described with reference to fig. 1-12, wherein the speed change mechanism 3 includes a speed change shaft 3-1, a speed change pulley i 3-2, a connecting key ii 3-3, a speed change slider i 3-4, a speed change fixing block 3-5, a speed change slider ii 3-6, a speed change connecting rod 3-7, a speed change lifting block 3-8, a speed change screw rod 3-9, a speed change pulley ii 3-10, a speed change pushing cylinder 3-11 and a sliding column ii 3-12, the speed change pulley i 3-2 is fixedly connected to the middle end of the speed change shaft 3-1, the connecting key ii 3-3 is fixedly connected to the speed change shaft 3-1, the speed change slider i 3-4 and the speed change slider ii 3-6 are both slidably connected to the speed change shaft 3-1 through the connecting key ii 3-3, the speed change fixing blocks 3-5 are fixedly connected to the speed change shaft 3-1, the speed change fixing blocks 3-5 are located between the speed change sliding blocks I3-4 and the speed change sliding blocks II 3-6, six speed change lifting blocks 3-8 are uniformly arranged in the circumferential direction, twelve speed change connecting rods 3-7 are symmetrically arranged, the outer ends of twelve speed change connecting rods 3-7 are respectively hinged to the speed change sliding blocks I3-4 and the speed change sliding blocks II 3-6, the inner ends of the twelve speed change connecting rods 3-7 are respectively hinged to the six speed change lifting blocks 3-8, the inner ends of the twelve speed change connecting rods 3-7 are respectively connected in the speed change fixing blocks 3-5 in a sliding manner, the speed change screw rod 3-9 is rotatably connected to the rear end of the speed change shaft 3-1, and the speed change belt wheel II 3-10, the rear end of a variable-speed pushing cylinder 3-11 is connected to a variable-speed screw rod 3-9 through threads, the front end of the variable-speed pushing cylinder 3-11 is rotatably connected to a variable-speed sliding block II 3-6, the variable-speed screw rod 3-9 is rotatably connected to a side plate 1-1 positioned on the rear side, a variable-speed shaft 3-1 is rotatably connected to the side plate 1-1 positioned on the front side, an adjusting belt wheel 2-4 and a variable-speed belt wheel II 3-10 are connected through belt transmission, the rotating directions of threads on the variable-speed screw rod 3-9 and the adjusting screw rod 2-2 are opposite, and the outer ends of six power lifting blocks 2-11 and the outer ends of six variable-speed lifting blocks 3-8 are connected through belt transmission; six power lifting blocks 2-11 drive six speed change lifting blocks 3-8 to rotate, six speed change lifting blocks 3-8 drive twelve speed change connecting rods 3-7 to rotate, twelve speed change connecting rods 3-7 drive a speed change slider I3-4 and a speed change slider II 3-6 to rotate, the speed change slider I3-4 and the speed change slider II 3-6 drive a speed change shaft 3-1 to rotate through a connecting key II 3-3, the speed change shaft 3-1 drives a speed change fixing block 3-5 to rotate, the speed change shaft 3-1 drives a speed change belt wheel I3-2 to rotate, an adjusting belt wheel 2-4 drives a speed change belt wheel II 3-10 to rotate, the speed change belt wheel II 3-10 drives a speed change screw rod 3-9 to rotate, and the speed change screw rod 3-9 drives a speed change pushing cylinder 3-11 to move back and forth, the variable-speed pushing cylinder 3-11 drives the variable-speed sliding block II 3-6 to move back and forth, the variable-speed sliding block II 3-6 changes the diameters of the six variable-speed lifting blocks 3-8 forming belt wheels, the rotating directions of threads on the variable-speed screw rod 3-9 and the adjusting screw rod 2-2 are opposite, when the variable-speed pushing cylinder 3-11 moves forwards, the adjusting pushing cylinder 2-5 moves backwards, and when the diameters of the six variable-speed lifting blocks 3-8 forming belt wheels are increased, the diameters of the six power lifting blocks 2-11 forming belt wheels are decreased, so that the transmission ratio is changed.

The fifth concrete implementation mode:

the fourth embodiment is further described with reference to fig. 1 to 12, in which the transmission mechanism 4 includes a transmission shaft 4-1, a transmission pulley i 4-2, a transmission pulley ii 4-3 and a connection pulley 4-4, the transmission pulley i 4-2 and the transmission pulley ii 4-3 are respectively and fixedly connected to the front end and the rear end of the transmission shaft 4-1, the connection pulley 4-4 is fixedly connected to the middle end of the transmission shaft 4-1, the two ends of the transmission shaft 4-1 are respectively and rotatably connected to the two side plates 1-1, and the connection pulley 4-4 and the transmission pulley i 3-2 are connected by belt transmission; the speed change belt wheel I3-2 drives the connecting belt wheel 4-4 to rotate, the connecting belt wheel 4-4 drives the transmission shaft 4-1 to rotate, and the transmission shaft 4-1 drives the transmission belt wheel I4-2 and the transmission belt wheel II 4-3 to rotate.

The sixth specific implementation mode:

the embodiment is described below with reference to fig. 1-12, and the fifth embodiment is further described, wherein the crank mechanism i 5 comprises a crank shaft i 5-1, a crank pulley i 5-2 and a crank i 5-3, the crank pulley i 5-2 and the crank i 5-3 are respectively fixedly connected to the front end and the rear end of the crank shaft i 5-1, the crank shaft i 5-1 is rotatably connected to the side plate 1-1 located on the front side, the crank pulley i 5-2 and the transmission pulley i 4-2 are connected through belt transmission, and the upper end of the upper connecting rod 6 is hinged to the eccentric position of the crank i 5-3; crank pulley I5-2 drives crank axle I5-1 to rotate, and crank axle I5-1 drives crank I5-3 to move.

The seventh embodiment:

the present embodiment is described below with reference to fig. 1 to 12, and the present embodiment further describes an embodiment six, where the upper textile frame 7 includes an upper textile frame body 7-1 and an upper threading support 7-2, the upper threading support 7-2 is provided in plural, the plural upper threading supports 7-2 are uniformly and fixedly connected to the lower end of the upper textile frame body 7-1, two ends of the upper textile frame body 7-1 are respectively slidably connected in two vertical sliding grooves 1-3, and the lower end of the upper connecting rod 6 is hinged to the upper textile frame body 7-1; the crank I5-3 drives the upper connecting rod 6 to move, and the upper connecting rod 6 pushes the upper spinning frame body 7-1 to move up and down.

The specific implementation mode is eight:

the embodiment is described below by combining fig. 1-12, and the seventh embodiment is further described by the embodiment, wherein the crank mechanism ii 8 comprises a crank shaft ii 8-1, a crank ii 8-2 and a crank pulley ii 8-3, the crank ii 8-2 and the crank pulley ii 8-3 are respectively fixedly connected to the front end and the rear end of the crank shaft ii 8-1, the crank shaft ii 8-1 is rotatably connected to the side plate 1-1 on the rear side, the crank pulley ii 8-3 is connected with the driving pulley ii 4-3 through belt driving, the diameter of the crank pulley ii 8-3 is the same as that of the crank pulley i 5-2, the lower end of the lower connecting rod 9 is hinged to the eccentric position of the crank ii 8-2, and the diameters of the crank ii 8-2 and the crank i 5-3 are the same; the diameter of the crank II 8-2 is the same as that of the crank I5-3, the diameter of the crank belt wheel II 8-3 is the same as that of the crank belt wheel I5-2, the movement period of the upper spinning frame 7 is the same as that of the lower spinning frame 10, the transmission belt wheel II 4-3 drives the crank belt wheel II 8-3 to move, the crank belt wheel II 8-3 drives the crank shaft II 8-1 to move, and the crank shaft II 8-1 drives the crank II 8-2 to move.

The specific implementation method nine:

the present embodiment is described below with reference to fig. 1 to 12, and the present embodiment further describes an eighth embodiment, where the lower textile frame 10 includes a lower textile frame body 10-1 and a lower threading frame body 10-2, the lower threading frame body 10-2 is provided with a plurality of lower threading frame bodies 10-2, the plurality of lower threading frame bodies 10-2 are uniformly and fixedly connected to the upper end of the lower textile frame body 10-1, the plurality of lower threading frame bodies 10-2 and the plurality of upper threading frame bodies 7-2 are arranged in a crossed manner, the upper end of the lower connecting rod 9 is hinged to the lower textile frame body 10-1, and two ends of the lower textile frame body 10-1 are respectively slidably connected in two vertical sliding grooves 1-3; the crank II 8-2 drives the lower spinning frame 10 to move up and down through the lower connecting rod 9, threads are respectively inserted into the plurality of lower threading supports 10-2 and the plurality of upper threading supports 7-2, the plurality of lower threading supports 10-2 and the plurality of upper threading supports 7-2 are arranged in a crossed mode, and the plurality of lower threading supports 10-2 and the plurality of upper threading supports 7-2 are used for spinning the threads in a crossed mode.

The invention relates to a high-precision textile machine, which has the working principle that:

when the belt wheel is used, the motor 2-1 is started, the output shaft of the motor 2-1 starts to rotate, the output shaft of the motor 2-1 drives the power slide block I2-7 and the power slide block II 2-10 to rotate through the connecting key I2-6, the output shaft of the motor 2-1 drives the power fixing block 2-9 to rotate, the power slide block I2-7 and the power slide block II 2-10 rotate through twelve power connecting rods 2-8, the number of the power connecting rods 2-8 can be changed according to use requirements, the power connecting rods 2-8 drive the power lifting blocks 2-11 to rotate, when the outer diameter of a belt wheel formed by the power lifting blocks 2-11 needs to be changed, the handle 2-3 is manually rotated, and the handle 2-3 drives the adjusting screw rod 2-2 to rotate, an adjusting screw rod 2-2 drives an adjusting belt wheel 2-4 to rotate, the adjusting screw rod 2-2 drives an adjusting pushing cylinder 2-5 to move through threads, the adjusting pushing cylinder 2-5 moves back and forth on the adjusting screw rod 2-2 through a sliding column I2-12, the adjusting pushing cylinder 2-5 pushes a power sliding block I2-7 to move back and forth, the power sliding block I2-7 pushes six power connecting rods 2-8 on one side to move back and forth, the upper ends of the six power connecting rods 2-8 move inwards and outwards, the upper ends of the six power connecting rods 2-8 push six power lifting blocks 2-11 to move outwards or inwards, the diameter of the six power lifting blocks 2-11 forming the belt wheel is changed, and the six power lifting blocks 2-11 drive six variable speed lifting blocks 3-8 to rotate, six speed change lifting blocks 3-8 drive twelve speed change connecting rods 3-7 to rotate, twelve speed change connecting rods 3-7 drive a speed change sliding block I3-4 and a speed change sliding block II 3-6 to rotate, the speed change sliding block I3-4 and the speed change sliding block II 3-6 drive a speed change shaft 3-1 to rotate through a connecting key II 3-3, the speed change shaft 3-1 drives a speed change fixing block 3-5 to rotate, the speed change shaft 3-1 drives a speed change belt wheel I3-2 to rotate, an adjusting belt wheel 2-4 drives a speed change belt wheel II 3-10 to rotate, the speed change belt wheel II 3-10 drives a speed change screw rod 3-9 to rotate, the speed change screw rod 3-9 drives a speed change pushing cylinder 3-11 to move back and forth, the speed change pushing cylinder 3-11 drives the speed change sliding block II 3-6 to move back and forth, the variable-speed sliding block II 3-6 changes the diameters of the six variable-speed lifting blocks 3-8 forming belt wheels, the thread turning directions of the variable-speed screw rods 3-9 and the adjusting screw rod 2-2 are opposite, when the variable-speed pushing cylinder 3-11 moves forwards, the adjusting pushing cylinder 2-5 moves backwards, and when the diameters of the six variable-speed lifting blocks 3-8 forming belt wheels become larger, the diameters of the six power lifting blocks 2-11 forming belt wheels become smaller, so that the transmission ratio is changed; the variable speed belt wheel I3-2 drives the connecting belt wheel 4-4 to rotate, the connecting belt wheel 4-4 drives the transmission shaft 4-1 to rotate, the transmission shaft 4-1 drives the transmission belt wheel I4-2 and the transmission belt wheel II 4-3 to rotate, the crank belt wheel I5-2 drives the crank shaft I5-1 to rotate, the crank shaft I5-1 drives the crank I5-3 to move, the crank I5-3 drives the upper connecting rod 6 to move, the upper connecting rod 6 pushes the upper spinning frame body 7-1 to move up and down, the diameters of the crank II 8-2 and the crank I5-3 are the same, the diameter of the crank belt wheel II 8-3 is the same as that of the crank belt wheel I5-2, the same movement period of the upper spinning frame 7 and the lower spinning frame 10 is ensured, and the transmission belt wheel II 4-3 drives the crank belt wheel II 8-3 to move, the crank belt wheel II 8-3 drives the crank shaft II 8-1 to move, the crank shaft II 8-1 drives the crank II 8-2 to move, the crank II 8-2 drives the lower threading bracket 10 to move up and down through the lower connecting rod 9, threads are respectively inserted into the plurality of lower threading brackets 10-2 and the plurality of upper threading brackets 7-2, the plurality of lower threading brackets 10-2 and the plurality of upper threading brackets 7-2 are arranged in a crossed mode, and the plurality of lower threading brackets 10-2 and the plurality of upper threading brackets 7-2 are used for mutually and crossly weaving the threads.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a high accuracy weaving machine, includes complete machine support (1), power unit (2), speed change mechanism (3), drive mechanism (4), crank mechanism I (5), goes up connecting rod (6), goes up weaving frame (7), crank mechanism II (8), lower connecting rod (9) and lower weaving frame (10), its characterized in that: the front end of the power mechanism (2) is fixedly connected to the complete machine support (1), the rear end of the power mechanism (2) is rotatably connected to the complete machine support (1), the speed change mechanism (3) is rotatably connected to the complete machine support (1), the power mechanism (2) is connected with the speed change mechanism (3) through belt transmission, the transmission mechanism (4) is rotatably connected to the complete machine support (1), the speed change mechanism (3) is connected with the transmission mechanism (4) through belt transmission, the crank mechanism I (5) is rotatably connected to the complete machine support (1), the transmission mechanism (4) is connected with the crank mechanism I (5) through belt transmission, the upper end of the upper connecting rod (6) is hinged to the eccentric position of the crank mechanism I (5), the upper weaving frame (7) is slidably connected to the complete machine support (1), the lower end of the upper connecting rod (6) is hinged to the upper weaving frame (7), and the crank mechanism II (8) is rotatably connected to the complete machine support (1), the transmission mechanism (4) is connected with the crank mechanism II (8) through belt transmission, the lower end of the lower connecting rod (9) is hinged at the eccentric position of the crank mechanism II (8), the lower weaving frame (10) is connected to the whole machine support (1) in a sliding mode, and the upper end of the lower connecting rod (9) is hinged to the lower weaving frame (10).

2. A high precision textile machine according to claim 1, wherein: the whole machine support (1) comprises side plates (1-1), connecting plates (1-2) and vertical sliding grooves (1-3), wherein the two side plates (1-1) and the two vertical sliding grooves (1-3) are symmetrically arranged in the front and back direction, the front end and the back end of each connecting plate (1-2) are fixedly connected to the two side plates (1-1) respectively, and the two vertical sliding grooves (1-3) are arranged on the left sides of the two side plates (1-1) respectively.

3. A high precision textile machine according to claim 2, wherein: the power mechanism (2) comprises a motor (2-1), an adjusting screw rod (2-2), a handle (2-3), an adjusting belt wheel (2-4), an adjusting pushing cylinder (2-5), a connecting key I (2-6), a power slider I (2-7), a power connecting rod (2-8), a power fixing block (2-9), a power slider II (2-10), a power lifting block (2-11) and a sliding column I (2-12), the front end of the adjusting screw rod (2-2) is rotatably connected to the left end of an output shaft of the motor (2-1), the handle (2-3) is fixedly connected to the rear end of the adjusting screw rod (2-2), the adjusting belt wheel (2-4) is fixedly connected to the middle end of the adjusting screw rod (2-2), the adjusting pushing cylinder (2-5) is connected to the adjusting screw rod (2-2) through threads, the connecting key I (2-6) is fixedly connected to an output shaft of the motor (2-1), the power sliding block I (2-7) and the power sliding block II (2-10) are both connected to the output shaft of the motor (2-1) in a sliding mode through the connecting key I (2-6), the power fixing block (2-9) is fixedly connected to the middle end of the output shaft of the motor (2-1), the power sliding blocks II (2-10) and the power sliding blocks I (2-7) are respectively located at the front end and the rear end of the power fixing block (2-9), the front ends of the adjusting belt wheels (2-4) are rotatably connected to the power sliding block I (2-7), twelve power connecting rods (2-8) are symmetrically arranged on the left and right, the outer ends of the twelve power connecting rods (2-8) are respectively hinged to the power sliding blocks I (2-7) and the power sliding blocks II (2-10, six power lifting blocks (2-11) are circumferentially arranged, the inner ends of twelve power connecting rods (2-8) are respectively hinged to the six power lifting blocks (2-11), the inner ends of the six power lifting blocks (2-11) are all connected to power fixing blocks (2-9) in a sliding mode, sliding columns I (2-12) are fixedly connected to the lower end of an adjusting pushing cylinder (2-5), a motor (2-1) is fixedly connected to a side plate (1-1) located on the front side, an adjusting screw rod (2-2) is rotatably connected to a side plate (1-1) located on the rear side, and sliding columns I (2-12) are connected to the side plate (1-1) located on the rear side in a sliding mode.

4. A high precision textile machine according to claim 3, wherein: the speed change mechanism (3) comprises a speed change shaft (3-1), a speed change belt wheel I (3-2), a connecting key II (3-3), a speed change slider I (3-4), a speed change fixing block (3-5), a speed change slider II (3-6), a speed change connecting rod (3-7), a speed change lifting block (3-8), a speed change screw rod (3-9), a speed change belt wheel II (3-10), a speed change pushing cylinder (3-11) and a sliding column II (3-12), the speed change belt wheel I (3-2) is fixedly connected to the middle end of the speed change shaft (3-1), the connecting key II (3-3) is fixedly connected to the speed change shaft (3-1), the speed change slider I (3-4) and the speed change slider II (3-6) are both slidably connected to the speed change shaft (3-1) through the connecting key II (3-3), the speed change fixing blocks (3-5) are fixedly connected to a speed change shaft (3-1), the speed change fixing blocks (3-5) are positioned between a speed change sliding block I (3-4) and a speed change sliding block II (3-6), six speed change lifting blocks (3-8) are uniformly arranged in the circumferential direction, twelve speed change connecting rods (3-7) are symmetrically arranged, the outer ends of twelve speed change connecting rods (3-7) are respectively hinged to the speed change sliding blocks I (3-4) and the speed change sliding blocks II (3-6), the inner ends of twelve speed change connecting rods (3-7) are respectively hinged to the six speed change lifting blocks (3-8), the inner ends of the twelve speed change connecting rods (3-7) are respectively connected in the speed change fixing blocks (3-5) in a sliding mode, speed change screw rods (3-9) are rotatably connected to the rear end of the speed change shaft (3-1), the variable-speed belt wheel II (3-10) is fixedly connected to the middle end of the variable-speed screw rod (3-9), the rear end of the variable-speed pushing cylinder (3-11) is connected to the variable-speed screw rod (3-9) through threads, the front end of the variable-speed pushing cylinder (3-11) is rotatably connected to the variable-speed sliding block II (3-6), the variable-speed screw rod (3-9) is rotatably connected to the side plate (1-1) located on the rear side, the variable-speed shaft (3-1) is rotatably connected to the side plate (1-1) located on the front side, the adjusting belt wheel (2-4) and the variable-speed belt wheel II (3-10) are connected through belt transmission, the rotating directions of the threads on the variable-speed screw rod (3-9) and the adjusting screw rod (2-2) are opposite, and the outer ends of the six power lifting blocks (2-11) are connected with the outer ends of the six variable.

5. A high precision textile machine according to claim 4, wherein: the transmission mechanism (4) comprises a transmission shaft (4-1), a transmission belt wheel I (4-2), a transmission belt wheel II (4-3) and a connecting belt wheel (4-4), the transmission belt wheel I (4-2) and the transmission belt wheel II (4-3) are fixedly connected to the front end and the rear end of the transmission shaft (4-1) respectively, the connecting belt wheel (4-4) is fixedly connected to the middle end of the transmission shaft (4-1), the two ends of the transmission shaft (4-1) are rotatably connected to the two side plates (1-1) respectively, and the connecting belt wheel (4-4) and the variable speed belt wheel I (3-2) are connected through belt transmission.

6. A high precision textile machine according to claim 5, wherein: crank mechanism I (5) are including crank axle I (5-1), crank band pulley I (5-2) and crank I (5-3), both ends around crank axle I (5-1) are fixed connection respectively in crank axle I (5-2) crank band pulley I (5-3), crank axle I (5-1) rotate to be connected on curb plate (1-1) that is located the front side, crank band pulley I (5-2) and driving pulley I (4-2) are connected through the belt drive, the upper end of going up connecting rod (6) articulates the eccentric position at crank I (5-3).

7. A high precision textile machine according to claim 6, wherein: the upper spinning frame (7) comprises an upper spinning frame body (7-1) and a plurality of upper threading supports (7-2), the upper threading supports (7-2) are uniformly and fixedly connected to the lower end of the upper spinning frame body (7-1), two ends of the upper spinning frame body (7-1) are respectively connected into two vertical sliding grooves (1-3) in a sliding mode, and the lower end of an upper connecting rod (6) is hinged to the upper spinning frame body (7-1).

8. A high precision textile machine according to claim 7, wherein: the crank mechanism II (8) comprises a crank shaft II (8-1), a crank II (8-2) and a crank belt wheel II (8-3), the crank II (8-2) and the crank belt wheel II (8-3) are fixedly connected to the front end and the rear end of the crank shaft II (8-1) respectively, the crank shaft II (8-1) is rotatably connected to a side plate (1-1) located on the rear side, the crank belt wheel II (8-3) is connected with a transmission belt wheel II (4-3) through belt transmission, the diameter of the crank belt wheel II (8-3) is the same as that of the crank belt wheel I (5-2), the lower end of the lower connecting rod (9) is hinged to the eccentric position of the crank II (8-2), and the diameters of the crank II (8-2) and the crank I (5-3) are the same.

9. A high precision textile machine according to claim 8, wherein: the lower weaving frame (10) comprises a lower weaving frame body (10-1) and a plurality of lower threading supports (10-2), the plurality of lower threading supports (10-2) are uniformly and fixedly connected to the upper end of the lower weaving frame body (10-1), the plurality of lower threading supports (10-2) and the plurality of upper threading supports (7-2) are arranged in a crossed mode, the upper end of a lower connecting rod (9) is hinged to the lower weaving frame body (10-1), and two ends of the lower weaving frame body (10-1) are respectively connected into two vertical sliding grooves (1-3) in a sliding mode.