CN115637513A

CN115637513A - Novel spinning frame capable of producing multi-component wool spinning

Info

Publication number: CN115637513A
Application number: CN202211386262.7A
Authority: CN
Inventors: 周建恒; 华新忠; 陆卫国
Original assignee: ZHEJIANG XINAO TEXTILE HOLDING CO Ltd
Current assignee: ZHEJIANG XINAO TEXTILE HOLDING CO Ltd
Priority date: 2022-11-07
Filing date: 2022-11-07
Publication date: 2023-01-24
Anticipated expiration: 2042-11-07
Also published as: CN115637513B

Abstract

The invention discloses a novel spinning machine capable of producing multi-component wool spinning, which relates to the technical field of spinning machines and comprises a driving assembly, wherein the driving assembly comprises a roller frame, a swing rod is rotatably arranged on the roller frame, a step frame is fixedly arranged on the swing rod, three steel brush supports are fixedly arranged on the step frame, two steel brushes are symmetrically arranged on each steel brush support, and a guide rod is matched on each steel brush support in a sliding manner. The invention can produce the worsted yarn with similar multi-component fancy effect, and can also spin the conventional worsted yarn with one roving into the sliver, thereby improving the adaptability of the machine; by arranging the driving assembly, yarns with various colors can be made, different components in the yarns can be changed, and the spinning machine is suitable for wool spinning production; the similar pattern clamping effect is achieved, and the problem that only one fiber exists in one yarn is solved; the residual yarn on the roller can be automatically cleaned, and the step of manually cleaning the roller is omitted.

Description

Novel spinning frame capable of producing multi-component wool spinning

Technical Field

The invention relates to the technical field of spinning machines, in particular to a novel spinning machine capable of producing multi-component wool spinning.

Background

The common spinning frame produces yarns by the combination of different roving feeding weights and the speeds of a front roller, a middle roller and a rear roller. But the roving enters from the back leather roller to the front leather roller and only has one wool top, and the color of the roving is also fixed. The speed of the middle and rear rollers is controlled by the motor and the gear, the transmission ratio is increased by the transmission of the pagoda gear and the like, the speed of the front roller is increased, the fiber is held by the rear, middle and front rollers, the speed is changed at the front jaw, the spun yarn is wound on the spun yarn tube by the twisting process of the spinning machine and the like, and finally the spun yarn is waxed when the spun yarn is steamed and wound, so that the yarn required by customers is produced. However, with the change of the market, especially the change of the color and the raw material in recent years, some customers need to have different colors in one yarn section, the color intervals are different, and the fiber component proportion of each section of some yarns is even different, so that the roving of the yarns cannot be realized. Although the problems can be partially solved in the aspect of yarn dyeing, the problems of low dyeing yield of single yarn, complex process, unsuitability for large-scale industrial production, incapability of achieving similar pattern clamping effect and incapability of solving the problem that only one fiber exists in one yarn. The spun yarn similar to fancy yarn completely keeps the superior characteristics of fine count, uniform yarn evenness, less yarn hairiness and clear cloth surface texture of the spun yarn, and is suitable for developing high-end knitted fabrics leading market trend. Spinning machines which can produce the yarn in the market do not exist, the yarn cannot be produced, so that some fashion brands feel very much trouble for not finding the yarn, and the spinning machines which can be made into various colors, can change different components in the yarn and are suitable for wool worsted production are urgently developed. On the premise of ensuring the quality, the cleanness of the roller needs to be ensured, and the roller needs to be manually treated traditionally.

In the prior art, the invention patent with the publication number CN102534883B relates to a novel winding roller device of a rotor spinning machine, a roller body combining piece is fixed on a transmission shaft through two screws, a rubber ring is arranged on the roller body combining piece, positioning convex strips are uniformly arranged on the inner circumference of the rubber ring, positioning grooves with the same number as the positioning convex strips are uniformly arranged on the outer circumference of the roller body combining piece, the positioning convex strips are arranged in the positioning grooves, an end cover is arranged on the outer side of the rubber ring, and a check ring is arranged on the roller body combining piece and is positioned outside the end cover.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the following technical scheme: a novel spinning frame capable of producing multi-component wool spinning comprises a driving assembly, wherein the driving assembly comprises a roller frame, a swing rod is rotatably arranged on the roller frame, a step frame is fixedly arranged on the swing rod, three steel brush supports are fixedly arranged on the step frame, two steel brushes are symmetrically arranged on each steel brush support, a guide rod is matched on each steel brush support in a sliding manner, a push-pull block is fixedly arranged on the guide rod and movably connected with the two steel brushes through a linkage rod, four rollers are further rotatably arranged on the roller frame, two rollers are arranged on the roller frame in parallel, and the other two rollers are coaxially arranged on the roller frame; still include the extrusion subassembly, the extrusion subassembly includes the regulation electro-magnet of fixed mounting on the slope frame, has belt pulley magnetism support through slip polished rod sliding connection on the regulation electro-magnet, rotates on the belt pulley magnetism support and installs two belt pulleys, and two belt pulleys pass through belt normal running fit, and last still fixed mounting of belt pulley magnetism support has pressure sensor, pressure sensor and belt normal running fit.

Preferably, the steel brush is in sliding fit with the steel brush support, a return spring is wound on the guide rod, and two ends of the return spring are fixedly connected with the push-pull block and the steel brush support respectively.

Preferably, each push-pull block is fixedly provided with a push-pull rod, the push-pull rods are fixedly arranged on permanent magnets, electromagnets are arranged above the permanent magnets in a magnetic matching mode, and the electromagnets are fixedly arranged on the step frame through electromagnet supports.

Preferably, four the roller is fixed mounting respectively on four driving motor's output shaft, and four equal fixed mounting of driving motor are on the roller frame, slidable mounting has the anti-rotation pole on the roller frame, and anti-rotation pole fixed mounting is on preventing the rotation pole support, and anti-rotation pole support fixed mounting is on the slope frame.

Preferably, a cam motor is slidably mounted on the slope frame, a cam is fixedly mounted on an output shaft of the cam motor, the cam is movably mounted on the cam frame, the cam frame is fixedly connected with the roller frame, two neodymium magnets are further fixedly mounted on the roller frame, and the neodymium magnets are magnetically matched with the oscillating bar.

Preferably, the sliding polished rod is surrounded by a squeezing spring, two ends of the squeezing spring are respectively and fixedly connected with the belt pulley magnetic support and the adjusting electromagnet, and a first belt pulley is fixedly mounted on one belt pulley.

Preferably, still fixed mounting has a conveying motor on the slope frame, and fixed mounting has the second band pulley on conveying motor's the output shaft, fixed mounting has elastic component on the regulation electro-magnet, and the running fit has the tensioning band pulley on the elastic component, through drive belt transmission cooperation between first band pulley, tensioning band pulley and the second band pulley.

Preferably, the pressing component is arranged on the side of the roller.

Compared with the prior art, the invention has the following beneficial effects: (1) The invention can produce the worsted yarn with similar multi-component fancy effect, and can also spin the conventional worsted yarn of one roving, thereby improving the adaptability of the machine; (2) The invention can make yarns with various colors and change different components in the yarns by arranging the driving component, and is suitable for wool spinning production; (3) The invention achieves similar pattern clamping effect and simultaneously solves the problem that only one fiber exists in one yarn; (4) The invention can also automatically clean the residual yarn on the roller, and the step of manually cleaning the roller is omitted.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

FIG. 2 is a schematic view of the structure at A in FIG. 1 according to the present invention.

FIG. 3 is a schematic view of the top roller structure of the present invention.

FIG. 4 is a schematic view of the structure of the steel brush of the present invention.

FIG. 5 is a schematic view of the structure of the ramp of the present invention.

FIG. 6 is a schematic view of the structure of FIG. 5B according to the present invention.

Fig. 7 is a schematic structural view of the cam motor according to the present invention.

Fig. 8 is a schematic view of the roller stand structure of the present invention.

FIG. 9 is a schematic view of the extrusion assembly of the present invention.

FIG. 10 is a side view of the extrusion assembly configuration of the present invention.

In the figure: 101-a roller frame; 102-a swing rod; 103-a ladder rack; 104-an electromagnet support; 105-an electromagnet; 106-permanent magnet; 107-push-pull rod; 108-a push-pull block; 109-linkage rod; 110-a steel brush; 111-a guide bar; 112-reset spring; 113-steel brush holder; 114-a drive motor; 115-roller; 116-a ramp rack; 117-anti-rotation bar support; 1171-anti-rotation bar; 118-a cam motor; 119-a cam; 120-a cam rack; 201-a belt; 202-a pulley; 203-a pressure sensor; 204-a first pulley; 205-pulley magnetic mount; 206-adjusting the electromagnet; 207-a transmission belt; 208-a tension pulley; 209-an elastic component; 210-a second pulley; 211-a conveyor motor; 212-a sliding polish rod; 213-compression spring; 3-neodymium magnet.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and not for the purpose of limiting the same, the same is shown by way of illustration only and not in the form of limitation; to better illustrate the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

As shown in fig. 1 to 8, the present invention provides a technical solution: a novel spinning machine capable of producing multi-component wool spinning comprises a driving assembly, wherein the driving assembly comprises a roller frame 101, a swing rod 102 is rotatably arranged on the roller frame 101, a step frame 103 is fixedly arranged on the swing rod 102, three steel brush supports 113 are fixedly arranged on the step frame 103, two steel brushes 110 are symmetrically arranged on each steel brush support 113, a guide rod 111 is slidably matched on each steel brush support 113, a push-pull block 108 is fixedly arranged on each guide rod 111, the push-pull block 108 is movably connected with the two steel brushes 110 through a linkage rod 109, four rollers 115 are rotatably arranged on the roller frame 101, two rollers 115 are arranged on the roller frame 101 in parallel, the other two rollers 115 are coaxially arranged on the roller frame 101, a steel brush 110 is in sliding fit with a steel brush support 113, a return spring 112 is wound on a guide rod 111, two ends of the return spring 112 are fixedly connected with a push-pull block 108 and the steel brush support 113 respectively, a push-pull rod 107 is fixedly installed on each push-pull block 108, the push-pull rod 107 is fixedly installed on a permanent magnet 106, an electromagnet 105 is arranged above the permanent magnet 106 in a magnetic fit mode, the electromagnet 105 is fixedly installed on a stepped frame 103 through an electromagnet support 104, the four rollers 115 are fixedly installed on output shafts of four driving motors 114 respectively, the four driving motors 114 are fixedly installed on the roller frame 101, an anti-rotation rod 1171 is installed on the roller frame 101 in a sliding mode, the anti-rotation rod 1171 is fixedly installed on the anti-rotation rod support 117, the anti-rotation rod support 117 is fixedly installed on an inclined slope frame 116, a cam motor 118 is installed on the slope frame 116 in a sliding mode, a cam 119 is fixedly installed on an output shaft of the cam 118, the cam 119 is movably installed on the cam frame 120, the cam frame 120 is fixedly connected with the roller frame 101, two neodymium magnets 102 are fixedly installed on the roller frame, and the magnetic attraction magnet 3.

As shown in fig. 9-10, the device further includes an extrusion assembly, the extrusion assembly includes an adjusting electromagnet 206 fixedly installed on the slope frame 116, the adjusting electromagnet 206 is slidably connected with a pulley magnetic support 205 through a sliding polished rod 212, two pulleys 202 are rotatably installed on the pulley magnetic support 205, the two pulleys 202 are rotatably matched through a belt 201, a pressure sensor 203 is further fixedly installed on the pulley magnetic support 205, the pressure sensor 203 is slidably matched with the belt 201, an extrusion spring 213 is wound on the sliding polished rod 212, two ends of the extrusion spring 213 are respectively fixedly connected with the pulley magnetic support 205 and the adjusting electromagnet 206, a first pulley 204 is fixedly installed on one pulley 202, a transmission motor 211 is further fixedly installed on the slope frame 116, a second pulley 210 is fixedly installed on an output shaft of the transmission motor 211, an elastic assembly 209 is fixedly installed on the adjusting electromagnet 206, a tension pulley 208 is rotatably matched on the elastic assembly 209, the first pulley 204, the tension pulley 208 and the second pulley 210 are in transmission matching through a transmission belt 207, and the extrusion assembly is disposed at a side of the slope frame 115.

The working principle of the novel spinning machine capable of producing the multicomponent wool spinning is as follows: specifically, the method is implemented by adopting the structure shown in fig. 1-10, the unwound coarse sand is placed between the roller 115 and the belt 201, then the driving motor 114 and the transmission motor 211 are controlled, the driving motor 114 drives the roller 115 to rotate, the output shaft of the transmission motor 211 drives the belt pulley 202 to rotate through the second belt pulley 210, the transmission belt 207 and the first belt pulley 204, the belt pulley 202 drives the belt 201 to rotate, the linear velocity of the belt 201 and the outermost side of the roller 115 is enabled to be the same, meanwhile, the magnetic force of the adjusting electromagnet 206 is controlled, the force repelling the belt pulley magnetic bracket 205 can be controlled, the contact force between the belt 201 and the roller 115 is controlled, a user can control the rotation of the cam motor 118, the output shaft of the cam motor 118 drives the cam 119 to rotate, the output shaft of the cam motor 118 is eccentrically arranged on the cam 119, the cam 119 rotates to drive the cam bracket 120 to linearly move, and the bracket fixing the cam motor 118 slides relative to the slope bracket 116 at the same time of the cam bracket 120 driving the roller frame 101 to linearly move, and the distance between the roller 115 and the belt 201 is adjusted. After the two coaxial rollers 115 are controlled by the two driving motors 114, the rotating speed of the top coaxial roller 115 is changed through a specific program, so that the feeding weight of the roving is changed, one roller 115 can be static, the other roller 115 normally rotates, the two rollers 115 alternatively rotate, and the produced yarn can be divided into sections; or the two rollers 115 can be matched with each other to rotate, but the total weight of roving feeding is always kept consistent, so that the number of times of combining the rovings is only 2, the yarn has the effect of uneven mixing of two raw materials, the proportions of the two components in the yarn are different, and the two modes are combined together to produce the yarn with the special effect in mass production. The middle roller 115 and the bottom roller 115 are respectively controlled by a separate driving motor 114, the rotating speed of the two parallel rollers 115 is controlled, the drafting multiple between the two parallel rollers 115 is determined, and the weight of roving fed by the top roller 115 is stable, so that the stability of the number of spinning counts is achieved.

Meanwhile, normal yarns can be produced by only using one group of rollers 115 at the top, putting one roving into one drafting area and enabling the other coaxial roller 115 to be stationary, so that the machine can produce the worsted yarns with the effect similar to the multi-component fancy effect and can also spin the worsted yarns of one conventional roving, and the adaptability is improved.

After the device is used, a user can swing the swing rod 102 to a position shown in fig. 3, so that the swing rod 102 is attracted by the neodymium magnet 3, the steel brush 110 is in contact with the roller 115 at the moment, then the driving motor 114 is started, the roller 115 is driven to rotate by the driving motor 114, then the steel brush 110 wipes the surface of the roller 115 to remove hairs on the surface of the roller 115, meanwhile, the user can intermittently control the on-off of the electromagnet 105, so that the electromagnet 105 intermittently repels the permanent magnet 106, at the moment, the permanent magnet 106 continuously moves up and down, the push-pull rod 107 is driven by the permanent magnet 106 to synchronously move, the push-pull rod 107 drives the push-pull block 108 to synchronously move, the push-pull block 108 drives the two steel brushes 110 to move along the axial direction of the roller 115 through the two linkage rods 109, and therefore the steel brush 110 is continuously wiped along the axial direction of the roller 115.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A novel spinning frame capable of producing multi-component wool spinning is characterized in that: the roller frame comprises a driving assembly, the driving assembly comprises a roller frame (101), a swing rod (102) is rotatably mounted on the roller frame (101), a step frame (103) is fixedly mounted on the swing rod (102), three steel brush supports (113) are fixedly mounted on the step frame (103), two steel brushes (110) are symmetrically arranged on each steel brush support (113), a guide rod (111) is slidably matched on each steel brush support (113), a push-pull block (108) is fixedly mounted on each guide rod (111), the push-pull block (108) is movably connected with the two steel brushes (110) through a linkage rod (109), four rollers (115) are further rotatably mounted on the roller frame (101), two rollers (115) are arranged on the roller frame (101) in parallel, and the other two rollers (115) are coaxially arranged on the roller frame (101);

still include the extrusion subassembly, the extrusion subassembly includes regulation electro-magnet (206) of fixed mounting on slope frame (116), has belt pulley magnetism support (205) through slip polished rod (212) sliding connection on regulation electro-magnet (206), rotates on belt pulley magnetism support (205) and installs two belt pulleys (202), and two belt pulleys (202) are through belt (201) normal running fit, and still fixed mounting has pressure sensor (203) on belt pulley magnetism support (205), pressure sensor (203) and belt (201) sliding fit.

2. The novel spinning frame capable of producing the multi-component wool spinning according to claim 1, is characterized in that: the steel brush (110) is in sliding fit with the steel brush support (113), the return spring (112) is arranged on the guide rod (111) in a surrounding mode, and two ends of the return spring (112) are fixedly connected with the push-pull block (108) and the steel brush support (113) respectively.

3. The novel spinning frame capable of producing multicomponent wool spinning according to claim 2, is characterized in that: each push-pull block (108) is fixedly provided with a push-pull rod (107), the push-pull rods (107) are fixedly arranged on a permanent magnet (106), an electromagnet (105) is arranged above the permanent magnet (106) in a magnetic force fit mode, and the electromagnet (105) is fixedly arranged on the step frame (103) through an electromagnet support (104).

4. The novel spinning frame capable of producing the multi-component wool spinning according to claim 3, is characterized in that: four roller (115) fixed mounting respectively is on the output shaft of four driving motor (114), and four driving motor (114) are equal fixed mounting on roller frame (101), slidable mounting has on roller frame (101) prevents commentaries on classics pole (1171), prevents changeing pole (1171) fixed mounting on preventing commentaries on classics pole support (117), prevents changeing pole support (117) fixed mounting on slope frame (116).

5. The novel spinning frame capable of producing multicomponent wool spinning according to claim 4, is characterized in that: there are cam motor (118) on slope frame (116) slidable mounting, fixed mounting has cam (119) on the output shaft of cam motor (118), and cam (119) movable mounting is on cam frame (120), cam frame (120) and roller frame (101) fixed connection, still fixed mounting has two neodymium magnet (3) on roller frame (101), and neodymium magnet (3) and pendulum rod (102) magnetism inhale the cooperation.

6. The novel spinning frame capable of producing multicomponent wool spinning according to claim 5, is characterized in that: and the sliding polish rod (212) is surrounded with a squeezing spring (213), two ends of the squeezing spring (213) are respectively fixedly connected with the belt pulley magnetic support (205) and the adjusting electromagnet (206), and one belt pulley (202) is fixedly provided with a first belt pulley (204).

7. The novel spinning frame capable of producing multicomponent wool spinning according to claim 6, is characterized in that: still fixed mounting has transfer motor (211) on slope frame (116), and fixed mounting has second band pulley (210) on the output shaft of transfer motor (211), adjust fixed mounting elastic component (209) on electro-magnet (206), running fit has tensioning band pulley (208) on elastic component (209), through drive belt (207) transmission cooperation between first band pulley (204), tensioning band pulley (208) and second band pulley (210).

8. The novel spinning frame capable of producing the multi-component wool spinning according to claim 7, is characterized in that: the extrusion assembly is arranged on the side of the roller (115).