阅读说明：本技术 一种利用形变回弹防止棉团凝结的节能环保纺织处理装置 (Energy-saving and environment-friendly textile processing device for preventing cotton balls from condensing by utilizing deformation resilience ) 是由 姚成晟 于 2020-12-10 设计创作，主要内容包括：本发明涉及纺织技术领域,提供一种利用形变回弹防止棉团凝结的节能环保纺织处理装置,包括机体,所述机体的内壁活动连接有转轴,转轴的外壁活动连接有销钉,销钉的外壁活动连接有联动杆。该利用形变回弹防止棉团凝结的节能环保纺织处理装置,驱动机构带动转轴进行旋转,转轴外壁的棉线不断的被使用,转轴的重力变轻会升高,第一弧形块对第二弧形块的阻碍变小,第二弧形块产生位移使推板移动,螺旋弹簧辅助第二弧形块回弹使推板产生位移,推板利用其外壁的横板改变弹簧杆的夹角,弹簧杆改变拉杆的高度,拉杆减小摩擦板与转轴的接触面积,防止运输处理棉线的辊拉断棉线,维持棉线运输速度防止棉线被拉断。(The invention relates to the technical field of spinning, and provides an energy-saving and environment-friendly spinning treatment device for preventing cotton balls from being condensed by utilizing deformation resilience. This utilize deformation resilience to prevent energy-concerving and environment-protective weaving processing apparatus that cotton group condenses, actuating mechanism drives the pivot and rotates, the continuous quilt of cotton thread of pivot outer wall is used, the gravity of pivot becomes light can rise, first arc piece diminishes the hindrance of second arc piece, second arc piece produces the displacement and makes the push pedal remove, coil spring assists second arc piece resilience to make the push pedal produce the displacement, the push pedal utilizes the diaphragm of its outer wall to change the contained angle of spring beam, the spring beam changes the height of pull rod, the pull rod reduces the area of contact of friction plate and pivot, the roller that prevents the transportation processing cotton thread breaks the cotton thread, it prevents that the cotton thread from being broken to maintain cotton thread transport speed.)

1. The utility model provides an utilize deformation to kick-back and prevent energy-concerving and environment-protective weaving processing apparatus that cotton group condenses, includes organism (1), its characterized in that: the inner wall of the machine body (1) is movably connected with a rotating shaft (2), the outer wall of the rotating shaft (2) is movably connected with a pin (3), the outer wall of the pin (3) is movably connected with a linkage rod (4), the outer wall of the linkage rod (4) is movably connected with a first arc-shaped block (5), the outer wall of the first arc-shaped block (5) is movably connected with a second arc-shaped block (6), the outer wall of the second arc-shaped block (6) is fixedly connected with a push plate (7), the outer wall of the push plate (7) is elastically connected with a spiral spring (8), the outer wall of the spiral spring (8) is movably connected with a backing plate (9), the outer wall of the push plate (7) is fixedly connected with a transverse plate (10), the outer wall of the transverse plate (10) is movably connected with a spring rod (11), the outer wall of the spring rod (11) is movably connected with a pull rod (12), the outer wall, the outer wall swing joint of guide roll (14) has pressure roller (15), the outer wall swing joint of pressure roller (15) has switch (16), the outer wall swing joint of switch (16) has electro-magnet (17), the outer wall swing joint of electro-magnet (17) has rack plate (18), the outer wall swing joint of rack plate (18) has slide rail (19), the outer wall swing joint of slide rail (19) has rotatory piece (20), the outer wall swing joint of rotatory piece (20) has movable clamping plate (21), the outer wall fixedly connected with heating block (22) of movable clamping plate (21).

2. The energy-saving and environment-friendly textile processing device for preventing cotton balls from coagulating by utilizing deformation rebound as claimed in claim 1, characterized in that: the outer wall swing joint of pivot (2) has weaving cotton thread, and pivot (2) have first arc piece (5) through setting up gangbar (4) swing joint at its outer wall, and gangbar (4) set up in the bottom of pivot (2) not rotatory along with pivot (2), and the outer wall swing joint of pivot (2) has actuating mechanism.

3. The energy-saving and environment-friendly textile processing device for preventing cotton balls from coagulating by utilizing deformation rebound as claimed in claim 1, characterized in that: the outer wall of the first arc-shaped block (5) is movably connected with an organism (1), the outer wall of the backing plate (9) is fixedly connected with the organism (1), and the push plate (7) is movably connected with a spring rod (11) through a transverse plate (10) arranged on the outer wall of the push plate.

4. The energy-saving and environment-friendly textile processing device for preventing cotton balls from coagulating by utilizing deformation rebound as claimed in claim 1, characterized in that: the pull rod (12) is movably connected with the rotating shaft (2) through the friction plate (13) arranged on the outer wall of the pull rod, and the heavier the integral gravity of the rotating shaft (2), the larger the contact area between the friction plate (13) and the rotating shaft (2) is.

5. The energy-saving and environment-friendly textile processing device for preventing cotton balls from coagulating by utilizing deformation rebound as claimed in claim 1, characterized in that: the outer wall swing joint of guide roll (14) has the support frame, and the outer wall swing joint of guide roll (14) has the cotton thread, and switch (16) receives extrusion electromagnet (17) circular telegram.

6. The energy-saving and environment-friendly textile processing device for preventing cotton balls from coagulating by utilizing deformation rebound as claimed in claim 1, characterized in that: the outer wall swing joint of removing splint (21) has the pulley, and rotatory piece (20) have heating piece (22) through removing splint (21) swing joint who sets up at its outer wall, and the outer wall swing joint of heating piece (22) has the weaving cotton thread.

Technical Field

The invention relates to the technical field of spinning, in particular to an energy-saving and environment-friendly spinning treatment device for preventing cotton balls from coagulating by utilizing deformation resilience.

Background

Spinning is a general name of spinning and weaving, cotton threads are common textile materials, the cotton threads are formed by twisting and spinning cotton fibers, the cotton threads are made into textile fabrics and need to be subjected to spinning, weaving and printing and dyeing, the treatment on the cotton threads before spinning is particularly important, and the comfort level of the cotton threads is directly influenced.

In prior art, the cotton thread can meet with various environment when the transportation, and the cotton thread is inside can be because of the cotton group of moist production, and cotton group can make the cotton thread sclerosis, directly takes out and to make the yarn fracture cotton thread abandonment, and the cotton thread utilizes the roller bearing transmission, and the linear velocity of roller bearing can be along with using constantly to change, and the linear velocity can lead to the cotton thread to be broken with up the transport speed, consequently an energy-concerving and environment-protective weaving processing apparatus that utilizes deformation resilience to prevent that cotton group from condensing takes turns to the suitable delivery.

Disclosure of Invention

In order to solve the technical problems, the invention provides an energy-saving and environment-friendly textile processing device for preventing cotton balls from coagulating by utilizing deformation resilience, which is achieved by the following specific technical means:

an energy-saving and environment-friendly textile processing device for preventing cotton balls from condensing by utilizing deformation resilience comprises a machine body, wherein the inner wall of the machine body is movably connected with a rotating shaft, the outer wall of the rotating shaft is movably connected with a pin, the outer wall of the pin is movably connected with a linkage rod, the outer wall of the linkage rod is movably connected with a first arc-shaped block, the outer wall of the first arc-shaped block is movably connected with a second arc-shaped block, the outer wall of the second arc-shaped block is fixedly connected with a push plate, the outer wall of the push plate is elastically connected with a spiral spring, the outer wall of the spiral spring is movably connected with a backing plate, the outer wall of the push plate is fixedly connected with a transverse plate, the outer wall of the transverse plate is movably connected with a spring rod, the outer wall of the spring rod is movably connected with a pull rod, the outer wall of the pull, the outer wall swing joint of electro-magnet has the rack board, and the outer wall swing joint of rack board has the slide rail, and the outer wall swing joint of slide rail has rotatory piece, and the outer wall swing joint of rotatory piece has movable clamp plate, movable clamp plate's outer wall fixedly connected with heating block.

Preferably, the outer wall swing joint of pivot has the weaving cotton thread, and the pivot has first arc piece through setting up the gangbar swing joint at its outer wall, and the gangbar setting is not rotatory along with the pivot in the bottom of pivot.

Preferably, the outer wall of the first arc-shaped block is movably connected with an organism, the outer wall of the backing plate is fixedly connected with the organism, the push plate is movably connected with a spring rod through a transverse plate arranged on the outer wall of the push plate, and the spring rod controls the contact area of the friction plate and the rotating shaft.

Preferably, the pull rod is movably connected with a rotating shaft through a friction plate arranged on the outer wall of the pull rod, the heavier the integral gravity of the rotating shaft is, the larger the contact area between the friction plate and the rotating shaft is, and the slower the rotating speed of the rotating shaft is.

Preferably, the outer wall of the guide roller is movably connected with a support frame, the outer wall of the guide roller is movably connected with cotton threads, the switch is electrified by the extrusion electromagnet, and the electromagnet is electrified to attract the rack plate.

Preferably, the outer wall swing joint of removal splint has the pulley, and rotatory piece has the heating piece through the removal splint swing joint who sets up at its outer wall, and the outer wall swing joint of heating piece has the weaving cotton thread.

The invention has the following beneficial effects:

1. the energy-saving and environment-friendly textile processing device for preventing cotton balls from condensing by utilizing deformation resilience drives the rotating shaft to rotate through the driving mechanism, cotton threads on the outer wall of the rotating shaft are continuously used, the gravity of the rotating shaft is lightened and can be influenced by the elasticity of a spiral spring at the bottom of the rotating shaft to rise, the rotating shaft and the linkage rod are matched to use and pull the first arc-shaped block, the first arc-shaped block has small obstruction on the second arc-shaped block, the second arc-shaped block generates displacement to enable the push plate to move, the spiral spring assists the resilience of the second arc-shaped block to enable the push plate to generate displacement, the push plate changes the included angle of the spring rod by utilizing the transverse plate on the outer wall of the push plate, the spring rod, under the condition that the original input power is unchanged, the friction force is reduced, the angular speed is increased, the linear speed is maintained to be stable, the cotton threads are prevented from being broken by rollers for transporting and processing the cotton threads, and therefore the effect that the cotton thread transportation speed is maintained to prevent the cotton threads from being broken is achieved.

2. The energy-saving and environment-friendly textile processing device for preventing cotton balls from condensing by utilizing deformation resilience drives the rotating shaft to rotate through the driving mechanism, cotton threads on the outer wall of the rotating shaft are continuously used, the gravity of the rotating shaft becomes light and can be increased under the influence of the elasticity of a spiral spring at the bottom of the rotating shaft, the rotating shaft and the linkage rod are matched to use and pull the first arc-shaped block, the first arc-shaped block has small obstruction on the second arc-shaped block, the second arc-shaped block generates displacement to enable the push plate to move, the spiral spring assists the resilience of the second arc-shaped block to enable the push plate to generate displacement, the transverse plate on the outer wall of the push plate changes the included angle of the spring rod, the spring rod changes the height of the pull rod, the pull rod reduces the contact area between the friction plate and the rotating shaft, under the condition that the original input power is unchanged, the friction force is reduced, the angular velocity is increased, the, drive the guide roll when first arc piece removes and removes, the guide roll removes and begins to be close to the pivot along with the reduction of the outside cotton thread of pivot, it ties to maintain the cotton thread straight unbent, the guide roll also controls the outer wall that the cotton thread level got into the pressure roller, distance between the pressure roller is less than the cotton thread diameter, the cotton thread produces and just can pass through the pressure roller after deformation, the coil spring elastic stiffness of pressure roller outer wall is weak, there is cotton ball in the cotton thread, the cotton thread that has cotton ball can promote the pressure roller to both sides, coil spring receives the influence very easily, the pressure roller produces displacement extrusion switch, the switch makes the electro-magnet circular telegram, the electro-magnet attracts the rack plate to move, the rack plate drives rotatory piece rotation and makes the removal splint remove, remove the splint and make the continuous cotton thread of patting of heating block, thereby realize the effect that.

Drawings

FIG. 1 is a schematic top view of the body structure of the present invention;

FIG. 2 is a schematic top view of a spindle structure according to the present invention;

FIG. 3 is a schematic top view of a cross plate structure according to the present invention;

FIG. 4 is a schematic top view of an electromagnet according to the present invention;

FIG. 5 is an enlarged view of a portion A of FIG. I.

In the figure: 1. a body; 2. a rotating shaft; 3. a pin; 4. a linkage rod; 5. a first arc-shaped block; 6. a second arc-shaped block; 7. pushing the plate; 8. a coil spring; 9. a base plate; 10. a transverse plate; 11. a spring lever; 12. a pull rod; 13. a friction plate; 14. a guide roller; 15. a pressure roller; 16. a switch; 17. an electromagnet; 18. a rack plate; 19. a slide rail; 20. rotating the block; 21. moving the clamping plate; 22. and heating the block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an energy-saving and environment-friendly textile processing device for preventing cotton balls from coagulating by utilizing deformation resilience comprises a machine body 1, wherein the inner wall of the machine body 1 is movably connected with a rotating shaft 2, the outer wall of the rotating shaft 2 is movably connected with textile cotton threads, the rotating shaft 2 is movably connected with a first arc-shaped block 5 through a linkage rod 4 arranged on the outer wall of the rotating shaft 2, the linkage rod 4 is arranged at the bottom of the rotating shaft 2 and does not rotate along with the rotating shaft 2, the outer wall of the rotating shaft 2 is movably connected with a pin 3, the outer wall of the pin 3 is movably connected with a linkage rod 4, the outer wall of the linkage rod 4 is movably connected with the first arc-shaped block 5, the outer wall of the first arc-shaped block 5 is movably connected with the machine body 1, the outer wall of a backing plate 9 is fixedly connected with the machine body 1, a push plate 7 is movably connected with a spring rod 11 through a transverse, the outer wall of the second arc-shaped block 6 is fixedly connected with a push plate 7.

Outer wall elastic connection of push pedal 7 has coil spring 8, coil spring 8's outer wall swing joint has backing plate 9, push pedal 7's outer wall fixedly connected with diaphragm 10, diaphragm 10's outer wall swing joint has spring beam 11, spring beam 11's outer wall swing joint has pull rod 12, pull rod 12 has pivot 2 through setting up the friction plate 13 swing joint at its outer wall, the whole gravity of pivot 2 is heavier, friction plate 13 is bigger with pivot 2's area of contact, pivot 2's rotational speed is slower, pull rod 12's outer wall fixedly connected with friction plate 13, the outer wall swing joint of first arc piece 5 has guide roll 14, guide roll 14's outer wall swing joint has the support frame, guide roll 14's outer wall swing joint has the cotton thread.

Switch 16 receives extrusion electromagnet 17 circular telegram, electromagnet 17 circular telegram attracts rack plate 18, the outer wall swing joint of guide roll 14 has pressure roller 15, the outer wall swing joint of pressure roller 15 has switch 16, switch 16's outer wall swing joint has electromagnet 17, electromagnet 17's outer wall swing joint has rack plate 18, rack plate 18's outer wall swing joint has slide rail 19, slide rail 19's outer wall swing joint has rotatory piece 20, the outer wall swing joint of rotatory piece 20 has movable clamp plate 21, movable clamp plate 21's outer wall swing joint has the pulley, rotatory piece 20 has heating block 22 through the movable clamp plate 21 swing joint who sets up at its outer wall, heating block 22's outer wall swing joint has the weaving cotton thread, movable clamp plate 21's outer wall fixedly connected with heating block 22.

In conclusion, in the energy-saving and environment-friendly textile processing device for preventing cotton clusters from being condensed by utilizing deformation resilience, the driving mechanism drives the rotating shaft 2 to rotate, cotton threads on the outer wall of the rotating shaft 2 are continuously used, the gravity of the rotating shaft 2 becomes light and is influenced by the elasticity of the spiral spring 8 at the bottom of the rotating shaft to rise, the rotating shaft 2 and the linkage rod 4 are matched to use and pull the first arc-shaped block 5, the first arc-shaped block 5 has less obstruction on the second arc-shaped block 6, the second arc-shaped block 6 generates displacement to enable the push plate 7 to move, the spiral spring 8 assists the second arc-shaped block 6 to rebound to enable the push plate 7 to generate displacement, the transverse plate 10 on the outer wall of the push plate 7 changes the included angle of the spring rod 11, the spring rod 11 changes the height of the pull rod 12, the pull rod 12 reduces the contact area between the friction plate 13 and the rotating shaft 2, under the condition that the original input power is unchanged, the friction, maintaining the speed of the cotton thread transport prevents the cotton thread from being pulled apart.

The energy-saving and environment-friendly textile processing device for preventing cotton balls from condensing by utilizing deformation resilience, a driving mechanism drives a rotating shaft 2 to rotate, cotton threads on the outer wall of the rotating shaft 2 are continuously used, the gravity of the rotating shaft 2 becomes light and is influenced by the elasticity of a spiral spring 8 at the bottom of the rotating shaft to rise, the rotating shaft 2 and a linkage rod 4 are matched to use and pull a first arc-shaped block 5, the first arc-shaped block 5 has less obstruction on a second arc-shaped block 6, the second arc-shaped block 6 generates displacement to enable a push plate 7 to move, the spiral spring 8 assists the second arc-shaped block 6 to rebound to enable the push plate 7 to generate displacement, the push plate 7 utilizes a transverse plate 10 on the outer wall of the push plate to change the included angle of a spring rod 11, the spring rod 11 changes the height of a pull rod 12, the pull rod 12 reduces the contact area between a friction plate 13 and the rotating shaft 2, under the condition that the original input power is unchanged, the cotton thread transportation speed is maintained to prevent the cotton thread from being broken, the first arc-shaped block 5 drives the guide roller 14 to move while moving, the guide roller 14 moves to be close to the rotating shaft 2 along with the reduction of the cotton thread outside the rotating shaft 2, the cotton thread is kept to be straightened and not bent to be knotted, the guide roller 14 also controls the cotton thread to horizontally enter the outer wall of the pressure roller 15, the distance between the pressure rollers 15 is smaller than the diameter of the cotton thread, the cotton thread can pass through the pressure roller 15 after being deformed, the elastic rigidity of the spiral spring 8 on the outer wall of the pressure roller 15 is weak, when the cotton thread has cotton balls, the cotton thread with the cotton balls can push the pressure roller 15 to two sides, the spiral spring 8 is easily influenced, the pressure roller 15 generates displacement to extrude the switch 16, the switch 16 enables the electromagnet 17 to be electrified, the electromagnet 17 attracts the rack plate 18 to move, the rack plate 18 drives the rotating block 20 to rotate to enable the, and (5) sensing hardness extrusion to beat the cotton balls.

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.