CN111765730B - Yarn ball drying equipment capable of obliquely rotating and used for spinning and drying method - Google Patents

Abstract

The invention relates to the field of textile equipment, and discloses tiltable and rotatable yarn ball drying equipment for textile and a drying method thereof. The yarn ball drying device solves the problems that the yarn ball drying operation is small in heating area and inconvenient to dry. Through setting up concentrated stoving processing mechanism, anti-force rotary mechanism and amplitude mechanism, the cooperation of three mechanism is used and to be can be so that the surperficial heating surface of the stoving of wire winding ball wider for the wire winding ball can be dried more fast, makes work can effectual improvement.

Description

Yarn ball drying equipment capable of obliquely rotating and used for spinning and drying method

The application is a divisional application of a tiltable and rotatable yarn ball drying device for spinning, which is invented by the application number of CN201810499098.8 and is applied for 2018, 05 and 23.

Technical Field

The invention relates to the technical field of textile equipment, in particular to yarn ball drying equipment and a yarn ball drying method for spinning, wherein the yarn ball drying equipment and the yarn ball drying method can rotate obliquely.

Background

The drying device is a combination of a series of mechanical devices for drying moisture or other liquid on the surface of an object by certain technical means. The currently popular drying technologies are mainly ultraviolet drying, infrared drying, electromagnetic drying and hot air drying. They have various characteristics and are widely applied to various mechanical equipment and food drying. Yarn ball is the globular shape of twining with the yarn, conveniently carries the storage, in the preparation work of yarn ball, also often can use drying device. The conventional yarn ball drying equipment for spinning has the defect of small working heating surface, so that the working efficiency is low.

For example, chinese patent CN201720452908.5 discloses a yarn ball drying device for textile, which adopts a yarn ball placing plate structure made of air-permeable woven material to increase the air permeability of drying and improve the drying efficiency, and adds an air flow guide plate structure in staggered arrangement to make the hot air flow alternately and in a zigzag manner in the cavity, thereby increasing the heating surface of drying.

However, the yarn ball is in a spherical state, if the method of the chinese patent CN201720452908.5 is used, the drying heating area is small, the yarn ball cannot rotate, and the workload of the drying operation is increased, and the structure of the common air current lead is not enough to alternate the hot air balloons in the cavity, which is inconvenient to operate.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides the yarn ball drying equipment for spinning, which can rotate obliquely, and solves the problems of small heating area and inconvenience in drying in the yarn ball drying operation.

(II) technical scheme

In order to achieve the purpose, the invention provides the following technical scheme: a yarn ball drying device for spinning capable of obliquely rotating comprises a square frame, wherein 4-8 groups of character-shaped clamping plates are fixedly connected to two prisms at the top of the square frame and two prisms at the bottom of the square frame, and be located between two style of calligraphy cardboards of top and be located equal fixedly connected with between two style of calligraphy cardboards of below and place the board, adjacent two are placed fixedly connected with arc stand pipe between the board, the bottom that is located the style of calligraphy cardboard of top is provided with concentrated drying process mechanism, the bottom fixedly connected with resistance force rotary mechanism of the style of calligraphy cardboard that is located the below, the lower right corner department of square frame is through type reinforcing plate fixedly connected with two-way motor of department, the output fixedly connected with pivot of two-way motor bottom, the bottom fixedly connected with gear of pivot, the output fixedly connected with amplitude mechanism at two-way motor top.

Preferably, the centralized drying mechanism comprises a support column, a square groove is formed in the top of the support column, a slide rail is fixedly connected between the left side and the right side of the inner wall of the square groove, a connecting column is arranged between the slide rails, the top of the connecting column is fixedly connected with a placing plate, arc plates are fixedly connected with the left side and the right side of the bottom of the connecting column, a pulley is fixedly connected with the other end of the arc plate, the pulley is slidably connected with the slide rail, the pulley can move up and down on the slide rail in the up-and-down moving process of the toothed plate through the support column, the square groove, the slide rail, the connecting column, the arc plates and the pulley, so that the connecting column can move more stably on the support column, a hemispherical shell is fixedly connected to the bottom of the support column, a connecting plate is fixedly connected between two adjacent support columns, a micro motor is fixedly connected to the bottom of the square groove, and a rotating shaft is fixedly connected to the output end of the micro motor, the bottom of the rotating shaft penetrates into the interior of the hemispherical shell and is fixedly connected with four fan blades, the bottom of the hemispherical shell is fixedly connected with six cross rods, annular plates are fixedly connected among the cross rods, a transmission net is fixedly connected between two adjacent cross rods, partial air flow is conducted from the transmission net by arranging the transmission net, so that the outside wind power can be diffused, the inside wind power can be intensively heated and dried, heating wires are fixedly connected inside the annular plates and are electrically connected with an external power supply, and the fan blades are rotated by arranging a centralized drying mechanism, a support post, a square groove, a slide rail, a connecting post, an arc plate, a pulley, the hemispherical shell, a connecting plate, a micro motor, a rotating shaft, the fan blades, the cross rods, the annular plates, the heating wires and the transmission net, the micro motor of the centralized drying mechanism works and the rotating shaft is rotated, the air blowing device has the advantages that the air blowing device is used for blowing the air from the upper part to the lower part, the heating wires work simultaneously, the air blown downwards is changed into warm air through the heating wires, the warm air can be intensively heated and supplied, normal air flow is sent out from the outer side of the annular plate, heat dissipation is facilitated, the winding balls can be dried more intensively, the surface heating surface of the drying is wider, and the working efficiency is improved.

Preferably, the anti-acting force rotating mechanism comprises a hemispherical shell, the hemispherical shell and the hemispherical shell are matched one by one, the concave surface of the hemispherical shell faces upwards, an inclined internal thread is arranged inside the hemispherical shell, the internal thread is inclined by arranging the internal thread, so that the winding ball can be operated in the opposite direction of the internal thread by utilizing the inclined internal thread and utilizing the friction effect, meanwhile, the bottom of the winding ball rotates upwards, meanwhile, the heated surface of the dried winding ball is wider in heated surface, the winding ball can be dried more quickly, the work can be effectively improved, the simultaneous operation among a plurality of winding balls is facilitated, the front side of the hemispherical shell is provided with a strip-shaped through groove, the inclined state of the strip-shaped through groove is the same as the adjacent internal thread, and a rotating shaft is movably connected between the top and the bottom of the inner wall of the strip-shaped through groove, the gear is fixedly connected to the surface of the rotating shaft, the gear can be manually rotated by arranging the strip-shaped through grooves, the rotating shaft and the gear, so that the rotating shaft rotates, the gear can shake while rotating, the bottom of the winding ball can rotate to the upper side, the surface heating surface for drying the winding ball is wider, the winding ball can be dried more quickly, the work can be effectively improved, and the multiple winding balls can be operated simultaneously, the arc-shaped baffle is fixedly connected to the right side of the top of the hemispherical shell, the arc-shaped baffle can block part of the winding ball to be heated by hot air and rebound for continuous drying treatment by arranging the arc-shaped baffle, the utilization is convenient, the work efficiency is improved, the surface heating surface for drying the winding ball is wider, the winding ball can be dried more quickly, the work can be effectively improved, the rotating shaft is fixedly connected to the bottom of the hemispherical shell, the bottom of rotation axis is run through and is placed the equal fixedly connected with gear of board, the meshing has the gear between two adjacent gears, fixedly connected with rotation axis on the inner wall of gear, and the top of rotation axis and place swing joint between the board, and be located the meshing between gear and the gear on rightmost side, through setting up resistance force rotary mechanism, hemisphere type casing, the internal thread, the bar leads to the groove, the apparatus further comprises a rotating shaft, the gear, the rotation axis, work through two-way motor, the pivot of bottom surface is rotatory, it is rotatory to drive the gear simultaneously, and drive gear revolve, the gear drives the gear revolve, make a plurality of rotation axes can the syntropy rotatory simultaneously, can rotate the stoving, make the effect of stoving more comprehensive, make the stoving of wire winding ball concentrate the processing more.

Preferably, the amplitude mechanism comprises a rotating shaft, the bottom of the rotating shaft is electrically connected with the output end of the two-way motor, the top of the rotating shaft is fixedly connected with a threaded rod, and the left side of the thread of the threaded rod is engaged with a toothed plate, the left side of the toothed plate is fixedly connected with a fixed rod, the left side of the fixed rod is fixedly connected with the hemispherical shell, by arranging the amplitude mechanism, the rotating shaft, the threaded rod, the toothed plate and the fixed rod and working through the bidirectional motor, so that the rotating shaft at the top of the two-way motor rotates and drives the threaded rod to rotate, the toothed plate can move up and down, and the hemispherical shell can move up and down and the distance to the hemispherical shell can be changed, so that the drying effect is more obvious, the surface heating surface of the drying of the winding ball can be wider, the winding ball can be dried more quickly, and the work can be effectively improved.

Preferably, the bottom of the hemispherical shell is provided with a circle of water leakage through holes, so that the normal flow of air can be ensured.

Preferably, the concave surface of arc makes progress, and the central angle of arc is one hundred twenty degrees, and through setting up the arc, the board that the arc set up can be so that the holding capacity is stronger for support the ability stronger in the time of the removal.

Preferably, the threaded rod and the toothed plate are matched with each other, so that the phenomenon of being stuck is prevented.

Preferably, the bottom of the square frame is fixedly connected with a support frame.

The working principle is as follows: the two-way motor works, the rotating shaft on the bottom surface rotates, the gear is driven to rotate at the same time, the gear drives the gear to rotate, a plurality of rotating shafts can rotate in the same direction, the winding ball can be operated in the opposite direction of the internal thread by utilizing the internal thread in an inclined state by utilizing the friction action, the bottom of the winding ball can rotate to the upper part, meanwhile, the heating surface of the drying surface of the winding ball is wider, the rotating shaft on the top of the two-way motor rotates by utilizing the work of the two-way motor and drives the threaded rod to rotate, the toothed plate can move up and down, the hemispherical shell can move up and down, the distance to the hemispherical shell can be changed, the drying effect is more obvious, the heating surface of the drying surface of the winding ball is wider, and the winding ball can be dried more quickly, so that the work can be effectively improved.

(III) advantageous effects

The invention provides a yarn ball drying device capable of obliquely rotating for spinning. The method has the following beneficial effects:

(1) according to the invention, through the arrangement of the centralized drying processing mechanism, the support column, the square groove, the slide rail, the connecting column, the arc-shaped plate, the pulley, the hemispherical shell A, the connecting plate, the micro motor, the rotating shaft C, the fan blade, the cross bar, the annular plate, the heating wire and the conducting net, the micro motor of the centralized drying processing mechanism works, the rotating shaft C rotates, the fan blade rotates, air is blown to the lower part from the top, meanwhile, the heating wire works, the downward blowing air is changed into warm air through the heating wire, the heating air can be intensively heated and supplied, normal air flow is sent out from the outer side of the annular plate, the heat dissipation is convenient, the winding ball can be dried and is subjected to centralized processing, the dried surface heating surface is wider, and the working efficiency is improved.

(2) According to the invention, the conduction net is arranged, so that part of air flow is conducted from the conduction net, the outside wind power can be diffused, and the inside wind power can be heated and dried in a centralized manner.

(3) According to the invention, the anti-acting force rotating mechanism, the hemispherical shell B, the internal thread, the strip-shaped through groove, the rotating shaft D, the gear B, the arc-shaped baffle plate, the gear C, the gear D and the rotating shaft B are arranged, the rotating shaft A on the bottom surface rotates by the aid of the bidirectional motor, the gear A is driven to rotate at the same time, the gear C is driven to rotate, the gear C drives the gear D to rotate, the rotating shafts A can rotate in the same direction at the same time, rotary drying can be carried out, the drying effect is more comprehensive, and the drying of the winding balls is more centralized.

(4) According to the invention, the internal thread is arranged and is inclined, so that the winding ball can be operated along the reverse direction of the internal thread by utilizing the inclined internal thread and friction action, and meanwhile, the bottom of the winding ball can rotate to the upper side, and meanwhile, the surface heating surface for drying the winding ball is wider, so that the winding ball can be dried more quickly, the work can be effectively improved, and the simultaneous operation among a plurality of winding balls is facilitated.

(5) According to the invention, through the arrangement of the strip-shaped through groove, the rotating shaft D and the gear B, the gear B can be manually rotated, so that the rotating shaft D rotates, the gear B can shake while rotating, the bottom of the winding ball can rotate to the upper side, and meanwhile, the surface heating surface for drying the winding ball is wider, so that the winding ball can be dried more quickly, the work can be effectively improved, and the simultaneous operation among a plurality of winding balls is facilitated.

(6) According to the invention, by arranging the arc-shaped baffle, the arc-shaped baffle can block part of the winding ball from being heated by hot air and rebounded to continue drying treatment, so that the utilization is convenient, the working efficiency is improved, the heating surface of the dried winding ball is wider, the drying of the winding ball is quicker, and the work can be effectively improved.

(7) According to the invention, by arranging the amplitude mechanism, the rotating shaft E, the threaded rod, the toothed plate and the fixed rod, the rotating shaft E at the top of the two-way motor rotates through the work of the two-way motor, and drives the threaded rod to rotate, so that the toothed plate can move up and down, the hemispherical shell A can move up and down, the distance from the hemispherical shell B can be changed, the drying effect is more obvious, the surface heating surface for drying the winding ball is wider, the winding ball can be dried more quickly, and the work can be effectively improved.

(8) According to the invention, the supporting column, the square groove, the sliding rail, the connecting column, the arc-shaped plate and the pulley are arranged, so that the pulley can move up and down on the sliding rail in the process of moving the toothed plate up and down, and the connecting column can move more stably on the supporting column.

(9) According to the invention, the arc-shaped plates are arranged, so that the bearing capacity is stronger, and the supporting capacity is stronger when the mobile robot moves.

(10) By arranging the centralized drying processing mechanism and the anti-acting force rotating mechanism, the drying surface heating surface of the winding ball can be wider due to the matching of the two mechanisms, so that the winding ball can be dried more quickly, and the work can be effectively improved.

(11) By arranging the centralized drying processing mechanism, the anti-acting force rotating mechanism and the amplitude mechanism, the drying surface heating surface of the winding ball can be wider due to the cooperation of the three mechanisms, so that the winding ball can be dried more quickly, and the work can be effectively improved.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic perspective view of a cube frame and a placing plate according to the present invention;

FIG. 3 is a schematic cross-sectional view of the concentrated drying mechanism according to the present invention;

FIG. 4 is a schematic structural view of the bottom of the hemispherical shell A according to the present invention;

FIG. 5 is a schematic view of the anti-force rotating mechanism of the present invention;

FIG. 6 is a schematic perspective view of a hemispherical shell B according to the present invention;

FIG. 7 is an enlarged view taken at A of FIG. 6 in accordance with the present invention;

fig. 8 is a schematic structural view of the amplitude mechanism of the present invention.

In the figure: 1 square frame, 2C-shaped clamping plate, 3 placing plate, 4 arc-shaped guide pipes, 5 centralized drying processing mechanisms, 501 support column, 502 square groove, 503 slide rail, 504 connecting column, 505 arc-shaped plate, 506 pulley, 507 hemispherical shell A, 508 connecting plate, 509 micro motor, 510 rotating shaft C, 511 fan blade, 512 cross bar, 513 annular plate, 514 heating wire, 515 transmission net, 6 anti-force rotating mechanism, 601 hemispherical shell B, 602 internal thread, 603 strip-shaped through groove, 604 rotating shaft D, 605 gear B, 606 arc-shaped baffle, 607 gear C, 608 gear D, 609 rotating shaft B, 610 rotating shaft A, 7 two-way motor, 8 rotating shaft A, 9 gear A, 10 amplitude mechanism, 1001 rotating shaft E, 1002 threaded rod, 1003 toothed plate and 1004 fixing rod.

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.

Example 1

As shown in fig. 1-2, the present invention provides a technical solution: a yarn ball drying device capable of rotating obliquely for textiles comprises a square frame 1, wherein two prisms on the top of the square frame 1 and two prisms at the bottom of the square frame 1 are fixedly connected with 4-8 groups of C-shaped clamping plates 2, placing plates 3 are fixedly connected between the two C-shaped clamping plates 2 above and between the two C-shaped clamping plates 2 below, an arc-shaped guide pipe 4 is fixedly connected between the two adjacent placing plates 3, a centralized drying processing mechanism 5 is arranged at the bottom of the C-shaped clamping plate 2 above, an anti-acting force rotating mechanism 6 is fixedly connected at the bottom of the C-shaped clamping plate 2 below, a bidirectional motor 7 is fixedly connected at the lower right corner of the square frame 1 through an L-shaped reinforcing plate, an output end at the bottom of the bidirectional motor 7 is fixedly connected with a rotating shaft A8, and a gear A9 is fixedly connected at the bottom of the rotating shaft A8, the output end of the top of the bidirectional motor 7 is fixedly connected with an amplitude mechanism 10.

Example 2

As shown in figures 1-4, a yarn ball drying device for textile capable of tilting rotation comprises a square frame 1, two prisms at the top of the square frame 1 and two prisms at the bottom of the square frame 1 are both fixedly connected with 4-8 groups of C-shaped clamping plates 2, placing plates 3 are respectively fixedly connected between the two C-shaped clamping plates 2 at the upper part and between the two C-shaped clamping plates 2 at the lower part, an arc-shaped guide pipe 4 is fixedly connected between the two adjacent placing plates 3, a centralized drying processing mechanism 5 is arranged at the bottom of the C-shaped clamping plate 2 at the upper part, an anti-acting force rotating mechanism 6 is fixedly connected at the bottom of the C-shaped clamping plate 2 at the lower part, a two-way motor 7 is fixedly connected at the lower right corner of the square frame 1 through an L-shaped reinforcing plate, an output end at the bottom of the two-way motor 7 is fixedly connected with a rotating shaft A8, the bottom of the rotating shaft A8 is fixedly connected with a gear A9, and the output end of the top of the bidirectional motor 7 is fixedly connected with an amplitude mechanism 10.

The centralized drying processing mechanism 5 comprises a support column 501, a square groove 502 is arranged at the top of the support column 501, a slide rail 503 is fixedly connected between the left side and the right side of the inner wall of the square groove 502, a connecting column 504 is arranged between the slide rails 503, the top of the connecting column 504 is fixedly connected with a placing plate 3, arc plates 505 are fixedly connected with the left side and the right side of the bottom of the connecting column 504, a pulley 506 is fixedly connected with the other end of the arc plate 505, the pulley 506 is in sliding connection with the slide rail 503, the support column 501, the square groove 502, the slide rail 503, the connecting column 504, the arc plates 505 and the pulley 506 are arranged, so that the pulley 506 can move up and down on the slide rail 503 in the up-and-down moving process of the toothed plate 1001, the connecting column 504 can move more stably on the support column 501, a hemispherical shell A507 is fixedly connected at the bottom of the support column 501, a connecting plate 508 is fixedly connected between two adjacent support columns 501, and a micro motor 509 is fixedly connected with the bottom of the inner wall of the square groove 502, the output end at the bottom of the micro motor 509 is fixedly connected with a rotating shaft C510, the bottom of the rotating shaft C510 penetrates into the hemispherical shell A507 and is fixedly connected with four fan blades 511, the bottom of the hemispherical shell A507 is fixedly connected with six cross bars 512, a ring plate 513 is fixedly connected between the cross bars 512, a transmission net 515 is fixedly connected between two adjacent cross bars 512, partial air flow is conducted from the transmission net 515 by arranging the transmission net 515, the wind power at the outer side can be diffused, the wind power at the inner side can be heated and dried in a centralized manner, a heating wire 514 is fixedly connected inside the ring plate 513, the heating wire 514 is electrically connected with an external power supply, and the concentrated drying processing mechanism 5, the support column 501, the square groove 502, the sliding rail 503, the connecting column 504, the arc plate 505, the pulley 506, the hemispherical shell A507, the connecting plate 508, the micro motor 509, the rotating shaft C510, the fan blades 511 and the like are arranged, The cross bar 512, the annular plate 513, the heating wire 514 and the conduction net 515 work through the micro motor 509 of the centralized drying processing mechanism 5, the rotating shaft C510 rotates, the fan blades 511 rotate, air is blown from the top to the bottom, meanwhile, the heating wire 514 works, the downward blowing air is changed into warm air through the heating wire 514, the air can be heated and blown in a centralized mode, normal air flow is sent out from the outer side of the annular plate 513, heat dissipation is facilitated, the winding ball can be dried in a centralized mode, the heating surface of the dried surface is wider, and the working efficiency is improved.

Example 3

As shown in figures 1-7, a yarn ball drying device for textile capable of tilting rotation comprises a square frame 1, wherein two prisms at the top of the square frame 1 and two prisms at the bottom of the square frame 1 are both fixedly connected with 4-8 groups of C-shaped clamping plates 2, a placing plate 3 is fixedly connected between the two C-shaped clamping plates 2 at the upper part and between the two C-shaped clamping plates 2 at the lower part, an arc-shaped guide pipe 4 is fixedly connected between the two adjacent placing plates 3, a centralized drying processing mechanism 5 is arranged at the bottom of the C-shaped clamping plate 2 at the upper part, an anti-acting force rotating mechanism 6 is fixedly connected at the bottom of the C-shaped clamping plate 2 at the lower part, a two-way motor 7 is fixedly connected at the lower right corner of the square frame 1 through an L-shaped reinforcing plate, an output end at the bottom of the two-way motor 7 is fixedly connected with a rotating shaft A8, the bottom of the rotating shaft A8 is fixedly connected with a gear A9, and the output end of the top of the bidirectional motor 7 is fixedly connected with an amplitude mechanism 10.

The centralized drying processing mechanism 5 comprises a support column 501, a square groove 502 is arranged at the top of the support column 501, a slide rail 503 is fixedly connected between the left side and the right side of the inner wall of the square groove 502, a connecting column 504 is arranged between the slide rails 503, the top of the connecting column 504 is fixedly connected with a placing plate 3, arc plates 505 are fixedly connected with the left side and the right side of the bottom of the connecting column 504, a pulley 506 is fixedly connected with the other end of the arc plate 505, the pulley 506 is in sliding connection with the slide rail 503, the support column 501, the square groove 502, the slide rail 503, the connecting column 504, the arc plates 505 and the pulley 506 are arranged, so that the pulley 506 can move up and down on the slide rail 503 in the up-and-down moving process of the toothed plate 1001, the connecting column 504 can move more stably on the support column 501, a hemispherical shell A507 is fixedly connected at the bottom of the support column 501, a connecting plate 508 is fixedly connected between two adjacent support columns 501, and a micro motor 509 is fixedly connected with the bottom of the inner wall of the square groove 502, the output end at the bottom of the micro motor 509 is fixedly connected with a rotating shaft C510, the bottom of the rotating shaft C510 penetrates into the hemispherical shell A507 and is fixedly connected with four fan blades 511, the bottom of the hemispherical shell A507 is fixedly connected with six cross bars 512, a ring plate 513 is fixedly connected between the cross bars 512, a transmission net 515 is fixedly connected between two adjacent cross bars 512, partial air flow is conducted from the transmission net 515 by arranging the transmission net 515, the wind power at the outer side can be diffused, the wind power at the inner side can be heated and dried in a centralized manner, a heating wire 514 is fixedly connected inside the ring plate 513, the heating wire 514 is electrically connected with an external power supply, and the concentrated drying processing mechanism 5, the support column 501, the square groove 502, the sliding rail 503, the connecting column 504, the arc plate 505, the pulley 506, the hemispherical shell A507, the connecting plate 508, the micro motor 509, the rotating shaft C510, the fan blades 511 and the like are arranged, The cross bar 512, the annular plate 513, the heating wire 514 and the conduction net 515 work through the micro motor 509 of the centralized drying processing mechanism 5, the rotating shaft C510 rotates, the fan blades 511 rotate, air is blown from the top to the bottom, meanwhile, the heating wire 514 works, the downward blowing air is changed into warm air through the heating wire 514, the air can be heated and blown in a centralized mode, normal air flow is sent out from the outer side of the annular plate 513, heat dissipation is facilitated, the winding ball can be dried in a centralized mode, the heating surface of the dried surface is wider, and the working efficiency is improved.

The anti-acting force rotating mechanism 6 comprises a hemispherical shell B601, the hemispherical shell B601 and a hemispherical shell A507 are matched one by one, the concave surface of the hemispherical shell B601 faces upwards, an inclined internal thread 602 is arranged inside the hemispherical shell B601, the internal thread 602 is inclined by arranging the internal thread 602, so that the winding ball can be operated along the reverse direction of the internal thread 602 by utilizing the inclined internal thread 602 and utilizing the friction effect, the bottom of the winding ball can rotate to the upper part, meanwhile, the drying surface of the winding ball is heated more widely, the winding ball can be dried more quickly, the work can be effectively improved, the simultaneous operation among a plurality of winding balls is facilitated, the front side of the hemispherical shell B601 is provided with a strip-shaped through groove 603, the inclined state of the strip-shaped through groove 603 is the same as that of the adjacent hemispherical shell 602, and a rotating shaft D604 is movably connected between the top and the bottom of the inner wall of the strip-shaped through groove 603, the gear B605 is fixedly connected on the surface of the rotating shaft D604, the gear B605 can be manually rotated by arranging the strip-shaped through groove 603, the rotating shaft D604 and the gear B605, so that the rotating shaft D604 rotates, the gear B605 can shake while rotating, the bottom of a winding ball can rotate to the upper side, meanwhile, the drying surface heating surface of the winding ball is wider, the winding ball can be dried more quickly, the work can be effectively improved, the simultaneous operation among a plurality of winding balls is also convenient, an arc baffle 606 is fixedly connected to the right side of the top of the hemispherical shell B601, the arc baffle 606 can block part of the winding ball to be heated by hot air and rebound for continuous drying treatment by arranging the arc baffle 606, the utilization is convenient, the work efficiency is improved, the drying surface heating surface of the winding ball can be wider, the winding ball can be dried more quickly, and the work can be effectively improved, the bottom of the hemispherical shell B601 is fixedly connected with a rotating shaft A610, the bottom of the rotating shaft A610 penetrates through the placing plate 3 and is fixedly connected with gears C607, a gear D608 is meshed between every two adjacent gears C607, the inner wall of the gear D608 is fixedly connected with a rotating shaft B609, the top of the rotating shaft B609 is movably connected with the placing plate 3, the gear C607 positioned at the rightmost side is meshed with the gear A9, the rotating shaft A8 at the bottom surface rotates through the work of the bidirectional motor 7 by arranging the anti-acting force rotating mechanism 6, the hemispherical shell B601, the internal thread 602, the strip-shaped through groove 603, the rotating shaft D604, the gear B605, the arc-shaped baffle 606, the gear C607, the gear D608 and the rotating shaft B609, the rotating shaft A8 at the bottom surface rotates and simultaneously drives the gear A9 to rotate and drives the gear C607 to rotate, the gear C607 drives the gear D608 to rotate, meanwhile, the rotating shafts A610 can rotate in the same direction, the rotating drying can be carried out, and the drying effect is more comprehensive, so that the drying of the wire winding ball is more centralized. Through setting up concentrated stoving processing mechanism 5 and anti-force rotary mechanism 6 for can be so that the surface heating surface of the stoving of wire winding ball wider by the cooperation of two mechanisms, make the wire winding ball can dry more fast, make work can effectual improvement.

Example 4

As shown in figures 1-8, a yarn ball drying device for textile capable of tilting rotation comprises a square frame 1, two prisms at the top of the square frame 1 and two prisms at the bottom of the square frame 1 are both fixedly connected with 4-8 groups of C-shaped clamping plates 2, placing plates 3 are respectively fixedly connected between the two C-shaped clamping plates 2 at the upper part and between the two C-shaped clamping plates 2 at the lower part, an arc-shaped guide pipe 4 is fixedly connected between the two adjacent placing plates 3, a centralized drying processing mechanism 5 is arranged at the bottom of the C-shaped clamping plate 2 at the upper part, an anti-acting force rotating mechanism 6 is fixedly connected at the bottom of the C-shaped clamping plate 2 at the lower part, a two-way motor 7 is fixedly connected at the lower right corner of the square frame 1 through an L-shaped reinforcing plate, an output end at the bottom of the two-way motor 7 is fixedly connected with a rotating shaft A8, the bottom of the rotating shaft A8 is fixedly connected with a gear A9, and the output end of the top of the bidirectional motor 7 is fixedly connected with an amplitude mechanism 10.

The centralized drying processing mechanism 5 comprises a support column 501, a square groove 502 is arranged at the top of the support column 501, a slide rail 503 is fixedly connected between the left side and the right side of the inner wall of the square groove 502, a connecting column 504 is arranged between the slide rails 503, the top of the connecting column 504 is fixedly connected with a placing plate 3, arc plates 505 are fixedly connected with the left side and the right side of the bottom of the connecting column 504, a pulley 506 is fixedly connected with the other end of the arc plate 505, the pulley 506 is in sliding connection with the slide rail 503, the support column 501, the square groove 502, the slide rail 503, the connecting column 504, the arc plates 505 and the pulley 506 are arranged, so that the pulley 506 can move up and down on the slide rail 503 in the up-and-down moving process of the toothed plate 1001, the connecting column 504 can move more stably on the support column 501, a hemispherical shell A507 is fixedly connected at the bottom of the support column 501, a connecting plate 508 is fixedly connected between two adjacent support columns 501, and a micro motor 509 is fixedly connected with the bottom of the inner wall of the square groove 502, the output end at the bottom of the micro motor 509 is fixedly connected with a rotating shaft C510, the bottom of the rotating shaft C510 penetrates into the hemispherical shell A507 and is fixedly connected with four fan blades 511, the bottom of the hemispherical shell A507 is fixedly connected with six cross bars 512, a ring plate 513 is fixedly connected between the cross bars 512, a transmission net 515 is fixedly connected between two adjacent cross bars 512, partial air flow is conducted from the transmission net 515 by arranging the transmission net 515, the wind power at the outer side can be diffused, the wind power at the inner side can be heated and dried in a centralized manner, a heating wire 514 is fixedly connected inside the ring plate 513, the heating wire 514 is electrically connected with an external power supply, and the concentrated drying processing mechanism 5, the support column 501, the square groove 502, the sliding rail 503, the connecting column 504, the arc plate 505, the pulley 506, the hemispherical shell A507, the connecting plate 508, the micro motor 509, the rotating shaft C510, the fan blades 511 and the like are arranged, The cross bar 512, the annular plate 513, the heating wire 514 and the conduction net 515 work through the micro motor 509 of the centralized drying processing mechanism 5, the rotating shaft C510 rotates, the fan blades 511 rotate, air is blown from the top to the bottom, meanwhile, the heating wire 514 works, the downward blowing air is changed into warm air through the heating wire 514, the air can be heated and blown in a centralized mode, normal air flow is sent out from the outer side of the annular plate 513, heat dissipation is facilitated, the winding ball can be dried in a centralized mode, the heating surface of the dried surface is wider, and the working efficiency is improved.

The anti-acting force rotating mechanism 6 comprises a hemispherical shell B601, the hemispherical shell B601 and a hemispherical shell A507 are matched one by one, the concave surface of the hemispherical shell B601 faces upwards, an inclined internal thread 602 is arranged inside the hemispherical shell B601, the internal thread 602 is inclined by arranging the internal thread 602, so that the winding ball can be operated along the reverse direction of the internal thread 602 by utilizing the inclined internal thread 602 and utilizing the friction effect, the bottom of the winding ball can rotate to the upper part, meanwhile, the drying surface of the winding ball is heated more widely, the winding ball can be dried more quickly, the work can be effectively improved, the simultaneous operation among a plurality of winding balls is facilitated, the front side of the hemispherical shell B601 is provided with a strip-shaped through groove 603, the inclined state of the strip-shaped through groove 603 is the same as that of the adjacent hemispherical shell 602, and a rotating shaft D604 is movably connected between the top and the bottom of the inner wall of the strip-shaped through groove 603, the gear B605 is fixedly connected on the surface of the rotating shaft D604, the gear B605 can be manually rotated by arranging the strip-shaped through groove 603, the rotating shaft D604 and the gear B605, so that the rotating shaft D604 rotates, the gear B605 can shake while rotating, the bottom of a winding ball can rotate to the upper side, meanwhile, the drying surface heating surface of the winding ball is wider, the winding ball can be dried more quickly, the work can be effectively improved, the simultaneous operation among a plurality of winding balls is also convenient, an arc baffle 606 is fixedly connected to the right side of the top of the hemispherical shell B601, the arc baffle 606 can block part of the winding ball to be heated by hot air and rebound for continuous drying treatment by arranging the arc baffle 606, the utilization is convenient, the work efficiency is improved, the drying surface heating surface of the winding ball can be wider, the winding ball can be dried more quickly, and the work can be effectively improved, the bottom of the hemispherical shell B601 is fixedly connected with a rotating shaft A610, the bottom of the rotating shaft A610 penetrates through the placing plate 3 and is fixedly connected with gears C607, a gear D608 is meshed between every two adjacent gears C607, the inner wall of the gear D608 is fixedly connected with a rotating shaft B609, the top of the rotating shaft B609 is movably connected with the placing plate 3, the gear C607 positioned at the rightmost side is meshed with the gear A9, the rotating shaft A8 at the bottom surface rotates through the work of the bidirectional motor 7 by arranging the anti-acting force rotating mechanism 6, the hemispherical shell B601, the internal thread 602, the strip-shaped through groove 603, the rotating shaft D604, the gear B605, the arc-shaped baffle 606, the gear C607, the gear D608 and the rotating shaft B609, the rotating shaft A8 at the bottom surface rotates and simultaneously drives the gear A9 to rotate and drives the gear C607 to rotate, the gear C607 drives the gear D608 to rotate, meanwhile, the rotating shafts A610 can rotate in the same direction, the rotating drying can be carried out, and the drying effect is more comprehensive, so that the drying of the wire winding ball is more centralized.

The amplitude mechanism 10 comprises a rotating shaft E1001, the bottom of the rotating shaft E1001 is electrically connected with the output end of the two-way motor 7, the top of the rotating shaft E1001 is fixedly connected with a threaded rod 1002, the left side of the threaded part of the threaded rod 1002 is meshed with a toothed plate 1003, the left side of the toothed plate 1003 is fixedly connected with a fixing rod 1004, the left side of the fixing rod 1004 is fixedly connected with a hemispherical shell A507, through the arrangement of the amplitude mechanism 10, the rotating shaft E1001, the threaded rod 1002, the toothed plate 1003 and the fixing rod 1004, the rotating shaft E1001 at the top of the two-way motor 7 rotates through the work of the two-way motor 7, the threaded rod 1002 is driven to rotate, the toothed plate 1003 can move up and down, the hemispherical shell A507 can move up and down, the distance to the hemispherical shell B601 can be changed, the drying effect is more obvious, the drying surface of the winding ball can be heated more widely, and the winding ball can be dried more quickly, so that the work can be effectively improved. Through setting up concentrated stoving processing mechanism 5, anti effort rotary mechanism 6 and amplitude mechanism 10, the cooperation of three mechanism is used and can be so that the surperficial heating surface of the stoving of wire winding ball is wider for the wire winding ball can be dried more fast, makes work can effectual improvement

The bottom of the hemispherical shell B601 is provided with a circle of water leakage through holes, so that the normal flow of air can be ensured.

The concave surface of arc 505 is upwards, and the central angle of arc 505 is one hundred twenty degrees, and through setting up arc 505, the board that the arc set up can be so that the holding capacity is stronger for support ability is stronger when removing.

Threaded rod 1002 and toothed plate 1003 are mutually adapted, and the phenomenon of being stuck is prevented.

The bottom of the square frame 1 is fixedly connected with a support frame.

The electrical components presented in the document are all electrically connected with an external master controller and 220V mains, and the master controller can be a conventional known device controlled by a computer or the like.

Examples of methods of use are:

the two-way motor 7 works, the rotating shaft A8 at the bottom surface rotates, meanwhile, the gear A9 is driven to rotate, the gear C607 is driven to rotate, the gear D608 is driven to rotate by the gear C607, meanwhile, the rotating shafts A610 can rotate in the same direction, the inclined internal thread 602 is utilized, the winding ball can be operated in the opposite direction of the internal thread 602 by utilizing the friction effect, meanwhile, the bottom of the winding ball rotates to the upper side, meanwhile, the drying surface heating surface of the winding ball is wider, meanwhile, the rotating shaft E1001 at the top of the two-way motor 7 rotates and drives the threaded rod 1002 to rotate, the toothed plate 1003 can move up and down, the hemispherical shell A507 can move up and down, the distance to the hemispherical shell B601 can be changed, the drying effect is more obvious, and the drying surface heating surface of the winding ball is wider, the wire winding ball can be dried more quickly, and work can be improved effectively.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising a reference structure" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

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 (4)

1. The utility model provides a yarn ball drying equipment is used in weaving of tilting rotation, includes square frame (1), its characterized in that: two prisms at the top of the square frame (1) and two prisms at the bottom of the square frame (1) are both fixedly connected with 4-8 groups of C-shaped clamping plates (2), placing plates (3) are both fixedly connected between the two C-shaped clamping plates (2) positioned above and between the two C-shaped clamping plates (2) positioned below, an arc-shaped guide pipe (4) is fixedly connected between the two adjacent placing plates (3), the bottom of the C-shaped clamping plate (2) positioned above is provided with a centralized drying treatment mechanism (5), the bottom of the C-shaped clamping plate (2) positioned below is fixedly connected with an anti-acting force rotating mechanism (6), the lower right corner of the square frame (1) is fixedly connected with a two-way motor (7) through an L-shaped reinforcing plate, the output end at the bottom of the two-way motor (7) is fixedly connected with a rotating shaft A (8), the bottom of the rotating shaft A (8) is fixedly connected with a gear A (9), the output end of the top of the bidirectional motor (7) is fixedly connected with an amplitude mechanism (10);

the concentrated drying mechanism (5) comprises struts (501), a square groove (502) is formed in the top of the strut (501), a sliding rail (503) is fixedly connected between the left inner wall and the right inner wall of the square groove (502), a connecting column (504) is arranged between the sliding rails (503), the top of the connecting column (504) is fixedly connected with a placing plate (3), arc plates (505) are fixedly connected to the left side and the right side of the bottom of the connecting column (504), pulleys (506) are fixedly connected to the other ends of the arc plates (505), the pulleys (506) are slidably connected with the sliding rails (503), a hemispherical shell A (507) is fixedly connected to the bottom of the strut (501), a connecting plate (508) is fixedly connected between every two adjacent struts (501), a micro motor (509) is fixedly connected to the bottom of the inner wall of the square groove (502), and a rotating shaft C (510) is fixedly connected to the output end of the bottom of the micro motor (509), the bottom of the rotating shaft C (510) penetrates into the hemispherical shell A (507) and is fixedly connected with four fan blades (511), the bottom of the hemispherical shell A (507) is fixedly connected with six cross rods (512), annular plates (513) are fixedly connected among the cross rods (512), a conducting net (515) is fixedly connected between every two adjacent cross rods (512), heating wires (514) are fixedly connected inside the annular plates (513), and the heating wires (514) are electrically connected with an external power supply;

the anti-acting force rotating mechanism (6) comprises a hemispherical shell B (601), the hemispherical shell B (601) and a hemispherical shell A (507) are matched one by one, the concave surface of the hemispherical shell B (601) faces upwards, an inclined internal thread (602) is arranged inside the hemispherical shell B (601), a strip-shaped through groove (603) is arranged on the front surface of the hemispherical shell B (601), the inclined state of the strip-shaped through groove (603) is the same as that of the adjacent internal thread (602), a rotating shaft D (604) is movably connected between the top and the bottom of the inner wall of the strip-shaped through groove (603), a gear B (605) is fixedly connected on the surface of the rotating shaft D (604), an arc-shaped baffle (606) is fixedly connected on the right side of the top of the hemispherical shell B (601), a rotating shaft A (610) is fixedly connected at the bottom of the hemispherical shell B (601), and gears C (607) are fixedly connected at the bottoms of the rotating shaft A (610) penetrating through the placing plate (3), a gear D (608) is meshed between every two adjacent gears C (607), a rotating shaft B (609) is fixedly connected to the inner wall of the gear D (608), the top of the rotating shaft B (609) is movably connected with the placing plate (3), and the gear C (607) positioned on the rightmost side is meshed with the gear A (9); the amplitude mechanism (10) comprises a rotating shaft E (1001), the bottom of the rotating shaft E (1001) is electrically connected with the output end of the two-way motor (7), the top of the rotating shaft E (1001) is fixedly connected with a threaded rod (1002), the left side of the threaded part of the threaded rod (1002) is meshed with a toothed plate (1003), the left side of the toothed plate (1003) is fixedly connected with a fixing rod (1004), and the left side of the fixing rod (1004) is fixedly connected with a hemispherical shell A (507);

a circle of water leakage through holes are formed in the bottom of the hemispherical shell B (601);

the concave surface of the arc-shaped plate (505) faces upwards, and the central angle of the arc-shaped plate (505) is one hundred twenty degrees.

2. The inclinable rotary yarn ball drying device for spinning of claim 1, wherein: the threaded rod (1002) and the toothed plate (1003) are matched with each other.

3. The inclinable rotary yarn ball drying device for spinning of claim 1, wherein: the bottom of the square frame (1) is fixedly connected with a support frame.

4. The inclinable rotary drying device and method for yarn balls for spinning according to any one of claims 1 to 3, wherein: the bidirectional motor (7) works, a rotating shaft A (8) on the bottom surface rotates, meanwhile, a gear A (9) is driven to rotate, a gear C (607) is driven to rotate, the gear C (607) drives a gear D (608) to rotate, meanwhile, a plurality of rotating shafts A (610) can rotate in the same direction, so that a winding ball can be operated in the opposite direction of an internal thread (602) by utilizing the friction effect by utilizing the internal thread (602) in an inclined state, meanwhile, the bottom of the winding ball can rotate to the upper side through rotation, meanwhile, the heating surface of the dried winding ball is wider, meanwhile, the rotating shaft E (1001) on the top of the bidirectional motor (7) rotates and drives a threaded rod (1002) to rotate, so that a toothed plate (1003) can move up and down, the hemispherical shell A (507) can move up and down, and the distance to the hemispherical shell B (601) can be changed, the drying effect is more obvious, the surface heating surface for drying the winding ball is wider, the winding ball can be dried more quickly, and the work can be effectively improved.

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