CN216204995U - Mixed fiber polyester low stretch yarn processing equipment - Google Patents

Abstract

The application discloses mix fine dacron low stretch yarn processing equipment relates to dacron low stretch yarn production system field, including setting up the stoving board at the dyeing pond discharge end, a plurality of drying chutes that run through the stoving board and supply dacron low stretch yarn to pass are seted up to the stoving board along dacron low stretch yarn direction of motion, the inside cavity of stoving board, a plurality of ventilation holes of intercommunication stoving inboard cavity are seted up to the stoving inslot wall, be fixed with the air-blower on the stoving board, be connected with the blast pipe of intercommunication stoving inboard cavity on the air-blower, be connected with the heating cabinet that heats for the air on the blast pipe.

Description

Mixed fiber polyester low stretch yarn processing equipment

Technical Field

The application relates to the field of polyester low stretch yarn processing devices, in particular to mixed fiber polyester low stretch yarn processing equipment.

Background

The low elastic polyester yarn is one kind of deformed polyester fiber produced with polyester chip as material and through high speed spinning of pre-oriented polyester yarn, drafting and false twisting. Has the characteristics of short flow, high efficiency, good quality and the like. In the processing process of the polyester low stretch yarn, in order to meet the subsequent processing requirements, the polyester low stretch yarn is often dyed, and then the dyed polyester low stretch yarn is processed into required articles.

Among the correlation technique, carrying out the in-process of dyeing to the dacron low stretch yarn, can drawing the dacron low stretch yarn through drive arrangement, the dacron low stretch yarn is at the in-process of motion, earlier through the dyeing pond to color in the dyeing pond and handle, the dacron low stretch yarn that colors air-dries through the fan, and the rolling on the wind-up roll.

In the process of realizing the application, the inventor finds that at least the following problems exist in the technology, and the dyed terylene low stretch yarn is air-dried under the action of natural wind or an electric fan, so that the defects of low drying efficiency and the like exist.

SUMMERY OF THE UTILITY MODEL

In order to improve the drying efficiency of the low stretch yarn of dyeing back dacron, this application provides a mix fine dacron low stretch yarn processing equipment.

The application provides a mix fine dacron low stretch yarn processing equipment adopts following technical scheme:

the utility model provides a mix fine dacron low stretch yarn processing equipment, is including setting up the stoving board at the dyeing pond discharge end, a plurality of drying chutes that run through the stoving board and supply the dacron low stretch yarn to pass are seted up to the stoving board along the dacron low stretch yarn direction of motion, the inside cavity of stoving board, a plurality of ventilation holes of intercommunication stoving inboard inside cavity are seted up to the stoving inslot wall, be fixed with the air-blower on the stoving board, be connected with the blast pipe of intercommunication stoving inboard inside cavity on the air-blower, be connected with the heating cabinet that carries out the heating for the air on the blast pipe.

Through adopting above-mentioned technical scheme, the dacron after the dyeing hangs down the bullet silk and enters into the drying groove in, and the air-blower heats in sending into the heating cabinet with the air, and hot-air enters into the inside cavity of stoving board and discharges from the ventilation hole, dries the dacron and hangs down the bullet silk, has improved the drying efficiency of the dacron and hangs down the bullet silk.

Optionally, the stoving board is including fixing the fixed plate at the dyeing pond discharge end and connecting in the movable plate of fixed plate upper surface, the stoving groove is including seting up at the last minute groove of movable plate lower surface and seting up at the lower minute groove of fixed plate upper surface, divide the groove down and correspond with last minute groove, fixed plate and the inside cavity of movable plate, the ventilation hole is seted up on corresponding last minute groove and lower minute inslot wall.

Through adopting above-mentioned technical scheme, the stoving board comprises fixed plate and movable plate, the dismantlement of the stoving board of being convenient for to conveniently make the low stretch yarn of dacron pass from the stoving inslot.

Optionally, the upper surface of the fixing plate is provided with a plurality of positioning holes, and the lower surface of the moving plate is fixed with a plurality of positioning blocks inserted into the corresponding positioning holes.

Through adopting above-mentioned technical scheme, the locating piece inserts in the locating hole that corresponds to realize the preliminary connection of movable plate on the fixed plate, be convenient for the location of movable plate on the fixed plate.

Optionally, the discharge end and the feeding end of the movable plate are both fixed with limiting rods perpendicular to the movement direction of the polyester low stretch yarns, limiting rollers are rotatably connected to the limiting rods and located at two ends of the lower branch groove, and the diameters of the limiting rollers are gradually reduced from two ends to the middle.

Through adopting above-mentioned technical scheme, spacing roller plays certain guide effect to the low stretch yarn of dacron, reduces the low stretch yarn of dacron and scrapes colored possibility on the fixed plate.

Optionally, the side walls of the moving plate and the fixed plate, which are parallel to the movement direction of the polyester low stretch yarn, are both fixed with a semi-cylindrical barrel, the semi-cylindrical barrel on the moving plate and the corresponding semi-cylindrical barrel on the fixed plate are connected to form a positioning pipe, the positioning pipe is a cylindrical barrel and is communicated with the fixed plate and the inner cavity of the moving plate, and the air supply pipe is provided with a connecting mechanism for connecting the positioning pipe.

By adopting the technical scheme, the movable plate is connected to the fixed plate, the semi-cylindrical barrel on the movable plate and the semi-cylindrical barrel on the fixed plate form a complete cylindrical barrel, the movable plate is connected to the fixed plate and is fixed through the connecting mechanism, so that the movable plate is connected to the fixed plate, and air in the blast pipe can be smoothly sent into the movable plate and the fixed plate.

Optionally, the air supply pipe is a steel pipe, the air outlet position of the air supply pipe is kept unchanged, the connecting mechanism comprises a connecting cylinder which is sleeved outside the air supply pipe and the positioning pipe and the end of the connecting cylinder abuts against the side wall of the fixing plate, the connecting cylinder is arranged on the air supply pipe in a sliding mode, and the connecting mechanism further comprises a connecting assembly which is arranged on the air supply pipe and prevents the connecting cylinder from being separated from the positioning pipe.

Through adopting above-mentioned technical scheme, be connected to the fixed plate with the movable plate on, make the connecting cylinder slide on the blast pipe, the connecting cylinder cup joints on blast pipe and registration arm, and the lateral wall of connecting cylinder tip butt at movable plate and fixed plate prevents the connecting cylinder under coupling assembling's effect and moves on the blast pipe to realize the connection of blast pipe and registration arm.

Optionally, the outer wall of the air supply pipe is radially provided with a connecting hole, the connecting assembly comprises a connecting rod penetrating through the connecting hole, a connecting spring is fixed in the connecting hole, and the end part of the connecting spring is fixed on the connecting rod and pushes the connecting rod part to protrude out of the connecting hole and enable the side wall of the connecting rod to abut against the end part of the connecting cylinder.

Through adopting above-mentioned technical scheme, the connecting cylinder cup joints outside registration arm and blast pipe, and the connecting cylinder tip butt is on the lateral wall of fixed plate and movable plate, under coupling spring's effect, makes the connecting rod part outstanding outside the connecting hole, and connecting rod lateral wall butt prevents the connecting cylinder along axial motion at the terminal surface of connecting cylinder to realize being connected of blast pipe and registration arm.

Optionally, the feeding ends of the fixed plate and the moving plate are located above the dyeing tank, and the fixed plate and the moving plate are downwards inclined from the discharging end of the polyester low-elasticity yarns to the feeding end.

Through adopting above-mentioned technical scheme, fixed plate and movable plate incline down towards dyeing pond one side, are convenient for unnecessary dyestuff from the stoving inslot flow to the dyeing pond.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the dyed polyester low-stretch yarns enter a drying groove, heated air is sent into a cavity in a drying plate under the action of an air blower and is discharged from a vent hole, and the polyester low-stretch yarns are dried, so that the drying efficiency of the polyester low-stretch yarns is improved;

2. the fixed plate and the movable plate are washed downwards towards one side of the dyeing tank, so that redundant dye can conveniently flow back into the dyeing tank, and the waste of raw materials is reduced.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is a schematic view of a connection structure of a moving plate and a fixed plate according to an embodiment of the present application.

Fig. 3 is a mechanism diagram of the connection mechanism.

Description of reference numerals:

1. a support; 2. drying the plate; 3. a drying tank; 4. a fixing plate; 5. moving the plate; 6. positioning holes; 7. positioning blocks; 8. dividing the groove upwards; 9. lower sub-grooves; 10. a vent hole; 11. a blower; 12. an air inlet pipe; 13. a heating box; 14. an air supply pipe; 15. a positioning tube; 16. a connecting cylinder; 17. connecting holes; 18. a connecting rod; 19. a connecting spring; 20. a limiting rod; 21. and (5) limiting rollers.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses mixed fine dacron low stretch yarn processing equipment. Referring to fig. 1, the drying device comprises a support 1 fixed at the discharge end of a dyeing tank through a bolt, a drying plate 2 in a cuboid shape is bonded on the support 1, a plurality of drying grooves 3 penetrating through the drying plate 2 are formed in the drying plate 2 along the movement direction of the terylene low stretch yarns, and the dyed terylene low stretch yarns pass through the corresponding drying grooves 3 and are dried in the drying grooves 3.

Referring to fig. 1 and 2, the drying plate 2 includes a fixed plate 4 adhered to the support 1 and a movable plate 5 connected to the upper surface of the fixed plate 4, the feeding ends of the fixed plate 4 and the movable plate 5 are located above the dyeing tank, and the feeding ends of the fixed plate 4 and the movable plate 5 on the drying plate 2 of the polyester low stretch yarn are inclined upward toward the discharging end, so that the redundant dye can flow into the dyeing tank along the drying tank 3. A plurality of locating holes 6 have been seted up to fixed plate 4 upper surface, and moving plate 5 lower surface bonds and has a plurality of locating pieces 7, and locating piece 7 and locating hole 6 one-to-one, when moving plate 5 connects on fixed plate 4, locating hole 6 inserts in locating hole 6, moving plate 5 lower surface and fixed plate 4 upper surface butt to realize moving plate 5 and fixed plate 4's preliminary connection.

Referring to fig. 1 and 2, the drying slot 3 includes a plurality of upper sub slots 8 formed in the lower surface of the moving plate 5 and a plurality of lower sub slots 9 formed in the upper surface of the fixing plate 4, the lower sub slots 9 correspond to the upper sub slots 8 one to one, when the moving plate 5 is connected to the fixing plate 4, the positioning blocks 7 are inserted into the corresponding positioning holes 6, and the upper sub slots 8 and the lower sub slots 9 jointly form the corresponding drying slot 3. Fixed plate 4 and the inside cavity of movable plate 5 have seted up a plurality of ventilation holes 10 on the inner wall of dividing groove 8 and dividing groove 9 down at last, and ventilation hole 10 intercommunication corresponds movable plate 5 or the inside cavity of fixed plate 4, and ventilation hole 10 is along 3 dacron low stretch yarn direction of motion evenly distributed in stoving groove.

Referring to fig. 1 and 2, a blower 11 is fixed on the lower surface of the fixing plate 4 through bolts, an air inlet pipe 12 is connected to an air outlet pipe of the blower 11 through a clamp, a heating box 13 is connected to an end of the air inlet pipe 12, the air inlet pipe 12 is communicated with the heating box 13, the heating box 13 is bonded to the lower surface of the fixing plate 4, and an electric heating wire for heating air is installed in the heating box 13. Air supply pipes 14 are adhered to two opposite side walls of the heating box 13, the air supply pipes 14 are communicated with the interior of the heating box 13, one ends of the two air supply pipes 14 are connected to the heating box 13, and the other ends of the two air supply pipes 14 are connected to the corresponding side walls of the drying plate 2.

Referring to fig. 2 and 3, semi-cylindrical cylinders are bonded on the side walls of the moving plate 5 and the fixed plate 4 parallel to the movement direction of the polyester low stretch yarn, the semi-cylindrical cylinders on the moving plate 5 are opposite to corresponding semi-cylindrical cylinder openings on the fixed plate 4, when the moving plate 5 is connected to the fixed plate 4, the positioning blocks 7 are inserted into the positioning holes 6, the semi-cylindrical cylinders on the moving plate 5 are abutted to the end faces of the corresponding semi-cylindrical cylinders on the fixed plate 4 to form positioning tubes 15, and the positioning tubes 15 are complete cylindrical cylinders and are communicated with the inner cavities of the fixed plate 4 and the moving plate 5. The air supply pipe 14 is a steel pipe, the air outlet position of the air supply pipe 14 is kept unchanged, a connecting mechanism for connecting the positioning pipe 15 is arranged on the air supply pipe 14 and comprises a connecting barrel 16 sleeved outside the air supply pipe 14, the connecting barrel 16 is arranged on the air supply pipe 14 in a sliding mode and can move axially along the air supply pipe 14, the connecting barrel 16 is connected in a sliding mode, the connecting barrel 16 is sleeved on the air supply pipe 14 and the positioning pipe 15, the end portion of the connecting barrel 16 abuts against the side walls of the fixed plate 4 and the movable plate 5, and the outer wall of the positioning pipe 15 and the outer wall of the air supply pipe 14 abut against the inner wall of the connecting barrel 16.

Referring to fig. 2 and 3, a connecting hole 17 is formed in the outer wall of the air supply pipe 14 along the radial direction, a connecting assembly is arranged in the connecting hole 17, the connecting assembly comprises a connecting rod 18 penetrating into the connecting hole 17, a connecting spring 19 is fixed in the connecting hole 17, one end of the connecting spring 19 is bonded on the bottom wall of the connecting hole 17, the other end of the connecting spring 19 is bonded on the end portion of the connecting rod 18 and pushes the connecting rod 18 to move towards the outside of the connecting hole 17, so that the connecting rod 18 partially protrudes out of the connecting hole 17, and two ends of a connecting cylinder 16 are respectively abutted against the side wall of the connecting rod 18 and the side wall of the fixing plate 4, so that the connecting cylinder 16 is prevented from moving on the air supply pipe 14, and the connection between the air supply pipe 14 and the positioning pipe 15 is realized.

Referring to fig. 1 and 2, the discharge end and the feeding end of the movable plate 5 are all bonded with a limiting rod 20 perpendicular to the movement direction of the terylene low stretch yarn, the limiting rod 20 is connected with a plurality of limiting rollers 21 in a rotating manner, the limiting rollers 21 are coaxial with the limiting rod 20, the diameters of the limiting rollers 21 and the lower sub-grooves 9 are gradually reduced towards the middle of the two ends, the terylene low stretch yarn enters the drying groove 3 under the guiding effect of the limiting rollers 21 at the feeding end, and penetrates out of the drying groove 3 under the effect of the limiting rollers 21 at the discharge end, so that the possibility that the terylene low stretch yarn is scratched at the two ends of the fixed plate 4 is reduced.

The implementation principle of the mixed-fiber polyester low-stretch yarn processing equipment in the embodiment of the application is as follows: the dacron low stretch yarn after dyeing enters into drying groove 3 under the effect of pan feeding end spacing roller 21 in, and air-blower 11 starts, and the electrical heating silk in heating cabinet 13 heats the air, and the air after the heating enters into fixed plate 4 and the inside cavity of movable plate 5 through blast pipe 14, registration arm 15 to discharge from ventilation hole 10 position, on using the dacron low stretch yarn, dry the dacron low stretch yarn.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a mix fine dacron low stretch yarn processing equipment which characterized in that: including setting up stoving board (2) at the dyeing pond discharge end, stoving board (2) are seted up a plurality of drying grooves (3) that run through stoving board (2) and supply the low stretch yarn of dacron to pass along the low stretch yarn direction of motion of dacron, the inside cavity of stoving board (2), a plurality of ventilation holes (10) of intercommunication stoving board (2) inner cavity are seted up to drying groove (3) inner wall, be fixed with air-blower (11) on stoving board (2), be connected with blast pipe (14) of intercommunication stoving board (2) inner cavity on air-blower (11), be connected with on blast pipe (14) and carry out heating-box (13) that heat for the air.

2. The mixed fiber polyester low stretch yarn processing equipment according to claim 1, characterized in that: drying plate (2) including fixing fixed plate (4) at the dyeing pond discharge end and connecting in movable plate (5) of fixed plate (4) upper surface, stoving groove (3) divide groove (8) and division groove (9) down at fixed plate (4) upper surface on seting up at movable plate (5) lower surface, divide groove (9) to correspond with last minute groove (8) down, fixed plate (4) and movable plate (5) inside cavity, ventilation hole (10) are seted up on corresponding last minute groove (8) and divide groove (9) inner wall down.

3. The mixed fiber polyester low stretch yarn processing equipment according to claim 2, characterized in that: the upper surface of the fixed plate (4) is provided with a plurality of positioning holes (6), and the lower surface of the movable plate (5) is fixed with a plurality of positioning blocks (7) inserted into the corresponding positioning holes (6).

4. The mixed fiber polyester low stretch yarn processing equipment according to claim 2, characterized in that: the discharging end and the feeding end of the movable plate (5) are both fixed with limiting rods (20) perpendicular to the movement direction of the polyester low stretch yarns, limiting rollers (21) are connected to the limiting rods (20) in a rotating mode, the limiting rollers (21) are located at two ends of the lower branch groove (9), and the diameters of the limiting rollers (21) are gradually reduced from two ends to the middle.

5. The mixed fiber polyester low stretch yarn processing equipment according to claim 2, characterized in that: the side walls, parallel to the movement direction of the polyester low stretch yarns, of the moving plate (5) and the fixed plate (4) are respectively fixed with a semi-cylindrical barrel, the semi-cylindrical barrels positioned on the moving plate (5) and the corresponding semi-cylindrical barrels positioned on the fixed plate (4) are connected to form a positioning pipe (15), the positioning pipes (15) are cylindrical barrels and communicated with inner cavities of the fixed plate (4) and the moving plate (5), and a connecting mechanism connected with the positioning pipes (15) is arranged on the air supply pipe (14).

6. The mixed fiber polyester low stretch yarn processing equipment according to claim 5, characterized in that: the air supply pipe (14) is a steel pipe, the air outlet position of the air supply pipe (14) is kept unchanged, the connecting mechanism comprises a connecting barrel (16) which is sleeved outside the air supply pipe (14) and the positioning pipe (15) and the end part of the connecting barrel abuts against the side wall of the fixing plate (4), the connecting barrel (16) is arranged on the air supply pipe (14) in a sliding mode, and the connecting mechanism further comprises a connecting assembly which is arranged on the air supply pipe (14) and prevents the connecting barrel (16) from being separated from the positioning pipe (15).

7. The mixed fiber polyester low stretch yarn processing equipment according to claim 6, characterized in that: connecting holes (17) are formed in the outer wall of the air supply pipe (14) along the radial direction, the connecting assembly comprises a connecting rod (18) penetrating through the connecting holes (17), a connecting spring (19) is fixed in the connecting holes (17), the end portion of the connecting spring (19) is fixed on the connecting rod (18) and pushes the connecting rod (18) to partially protrude out of the connecting holes (17), and the side wall of the connecting rod (18) abuts against the end portion of the connecting cylinder (16).

8. The mixed fiber polyester low stretch yarn processing equipment according to claim 2, characterized in that: the feeding end of the fixed plate (4) and the moving plate (5) is located above the dyeing tank, and the fixed plate (4) and the moving plate (5) are downwards inclined from the discharging end of the polyester low stretch yarn to the feeding end.

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