CN209975010U

CN209975010U - Energy-saving yarn doubling device

Info

Publication number: CN209975010U
Application number: CN201920322410.6U
Authority: CN
Inventors: 徐欣妤; 叶丽君
Original assignee: Zhejiang Carolina Textile Co Ltd
Current assignee: Zhejiang Carolina Textile Co Ltd
Priority date: 2019-03-14
Filing date: 2019-03-14
Publication date: 2020-01-21
Anticipated expiration: 2029-03-14

Abstract

The utility model discloses an energy-saving yarn drawing device belongs to weaving equipment technical field, including output sliver can, drafting assembly, extrusion subassembly and stoving subassembly, output sliver can sets up the left end at the drafting assembly, the left end of extrusion subassembly is equipped with blows the material subassembly, the extrusion subassembly is including the portal frame, support the touch panel down, on support the touch panel and move the material subassembly, the bottom of supporting the touch panel down is equipped with two support pole settings. The beneficial effects of the utility model are that can accurate control go up the distance between the conflict board and the lower conflict board through the extrusion subassembly to can further extrude the yarn after the drawing, improve the yarn quality after the drawing, still provide certain tension for the yarn, can blow off the impurity in the yarn of tension state through air nozzle work, the dust catcher can be with the impurity suction dust catcher that blows off in, the completion is to the clearance of impurity.

Description

Energy-saving yarn doubling device

Technical Field

The utility model relates to a weaving equipment technical field specifically is a relate to an energy-saving yarn doubling device.

Background

The drawing frame is used for improving the internal structure of a sliver, thereby improving the uniformity of long sections of the sliver, simultaneously reducing the uneven rate of weight, straightening and paralleling fibers in the sliver, reducing hooks, enabling the fineness to accord with the specification, enabling raw materials of different types or different qualities to be uniformly mixed, and achieving the specified mixing ratio.

SUMMERY OF THE UTILITY MODEL

The utility model provides an energy-saving yarn drawing device to it is difficult to handle and lack the technical problem who improves yarn quality structure behind the drawing to the impurity that appears in the yarn among the solution prior art.

In order to solve the technical problem, the utility model provides a following technical scheme: the utility model provides an energy-saving yarn doubling device, is including output sliver can, drawing subassembly, extrusion subassembly and stoving subassembly, the extrusion subassembly sets up between drawing subassembly and stoving subassembly, and the drawing subassembly sets up the left end at the extrusion subassembly, the output sliver can sets up the left end at the drawing subassembly, the left end of extrusion subassembly is equipped with blows the material subassembly, the extrusion subassembly is including the portal frame, down to the touch panel, go up to the touch panel and move the material subassembly, it sets up the top of touch panel under to go up the touch panel, it sets up the top at the portal frame to move the material subassembly, the bottom of touch panel is equipped with the support pole setting of two vertical settings down, the hypomere of portal frame corresponds every support pole setting and all is equipped with the deflector, deflector and rather than the support pole setting sliding fit that corresponds.

Further, the support pole setting is gone up to overlap and is equipped with reset spring, reset spring's both ends are contradicted respectively at the top of deflector and the bottom of lower touch panel, the top of touch panel is equipped with rather than the lower recipient of being connected of rotating down.

Further, move the driver part that the material subassembly set up including lead screw slip table, connecting plate, two symmetries and two slide bars that set up at last touch panel top, the connecting plate level sets up the top at two slide bars, the slider of lead screw slip table and the lateral wall fixed connection of connecting plate, be equipped with the bearing board on the portal frame, two the driver part all sets up on the lateral wall of bearing board.

Further, every drive unit all includes and rotates the connecting axle of being connected with the bearing board, the cover is equipped with the dwang on the connecting axle, the one end of dwang is equipped with the lateral wall articulated connecting rod with last conflict board, the other end of dwang is equipped with the conflict wheel, the bottom of going up the conflict board is equipped with rather than the last recipient of rotating the connection, be equipped with the drive board of contradicting and being connected with the conflict wheel on the lateral wall of conflict board down.

Further, the draft subassembly is including plummer, sliding block and the link of setting at the plummer top, be equipped with the draft roller that a plurality of set up along a horizontal direction interval on the plummer, be equipped with the bracing piece that two intervals set up between the bottom of link and the top of plummer, the sliding block can gliding cover establish on two bracing pieces, be equipped with on the lateral wall of sliding block and compress tightly the roller.

Further, the draft subassembly is still including the vertical screw rod that sets up on the link, be equipped with on the sliding block with screw rod threaded connection's screw, the top of screw rod is equipped with the knob, the cover is equipped with buffer spring on the bracing piece, buffer spring's both ends are contradicted respectively on link and plummer.

Furthermore, the drying assembly comprises an installation frame arranged at the right end of the portal frame, and heating wires are arranged in the installation frame.

Furthermore, the blowing assembly comprises a tensioning part, a support frame arranged at the right end of the bearing table and a dust collector arranged at the top of the gantry frame, a plurality of air injection pipelines arranged at equal intervals along a straight line are arranged at the top of the support frame, and air nozzles are arranged on the air injection pipelines.

Further, the tensioning part is including the tensioning plate of arc structure and with portal frame left side sliding fit's connecting block, the tensioning plate sets up in the top of jet-propelled pipeline, be equipped with logical groove on the tensioning plate, the both sides of tensioning plate all are equipped with the round chamfer, the left side of portal frame is equipped with the backup pad, be equipped with expanding spring between backup pad and the connecting block.

Compared with the prior art, the utility model following beneficial effect has:

firstly, the utility model can precisely control the distance between the upper touch plate and the lower touch plate through the extrusion component, further extrude the drawn yarn, improve the yarn quality after drawing, provide a certain tightening force for the yarn, lead the yarn to complete the winding operation for the yarn,

and secondly, the utility model discloses well air nozzle work can blow off the impurity in the yarn of tight state, can inhale the dust catcher with the impurity that blows off in through the dust catcher, accomplishes the clearance to impurity, and the yarn is the impurity blowdown in the yarn more easily of tight state.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a front view schematically illustrating the present invention;

fig. 3 is a schematic partial cross-sectional view of the present invention;

FIG. 4 is a schematic side view of a compression assembly;

fig. 5 is a schematic view of a partial three-dimensional structure of the present invention;

fig. 6 is a schematic diagram of a partial three-dimensional structure of the present invention.

The reference numbers in the figures are:

1-output sliver can, 2-drafting assembly, 2 a-bearing table, 2 b-sliding block, 2 c-connecting frame, 2 d-drafting roller, 2 e-supporting rod, 2 f-pressing roller, 2 g-screw, 2 h-rotating button, 2 i-buffer spring, 3-extruding assembly, 3 a-portal frame, 3 b-lower contact plate, 3 c-supporting vertical rod, 3 d-guide plate, 3 e-reset spring, 3 f-lower extruding can, 3 g-upper contact plate, 3 h-upper extruding can, 4-drying assembly, 4 a-mounting frame, 4 b-electric heating wire, 5-blowing assembly, 5 a-supporting frame, 5 b-dust collector, 5 c-air injection pipeline, 5 d-air injection nozzle, 6-material moving assembly, 6 a-screw rod sliding table, 6 b-connecting plate, 6 c-driving part, 6 d-connecting shaft, 6 e-rotating rod, 6 f-connecting rod, 6 g-contact wheel, 6 h-sliding rod, 6 i-driving plate, 6 j-supporting plate, 7-tensioning part, 7 a-tensioning plate, 7 b-connecting block, 7 c-supporting plate and 7 d-expansion spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description of the present invention, and do not indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

Referring to fig. 1 to 6, an energy-saving yarn doubling device comprises an output sliver can 1, a drafting assembly 2, an extrusion assembly 3 and a drying assembly 4, wherein the extrusion assembly 3 is arranged between the drafting assembly 2 and the drying assembly 4, the drafting assembly 2 is arranged at the left end of the extrusion assembly 3, the output sliver can 1 is arranged at the left end of the drafting assembly 2, a blowing assembly 5 is arranged at the left end of the extrusion assembly 3, the extrusion assembly 3 comprises a portal frame 3a, a lower collision plate 3b, an upper collision plate 3g and a material moving assembly 6, the upper collision plate 3g is arranged above the lower collision plate 3b, the material moving assembly 6 is arranged at the top of the portal frame 3a, two vertically arranged supporting vertical rods 3c are arranged at the bottom of the lower collision plate 3b, a guide plate 3d is arranged at the lower section of the portal frame 3a corresponding to each supporting rod 3c, the guide plate 3d is in sliding fit with the corresponding supporting upright rod 3 c; can accurate control go up the distance between 3g of touch-pad and the lower conflict board 3b through extrusion subassembly 3, and can further extrude the yarn after the drawing, improve the yarn quality after the drawing, still provide certain tight power for the yarn, make the yarn can accomplish the coiling operation to it, can actively feed in and gather together the yarn through drafting subassembly 2, but the worker manual adjustment compresses tightly the position of roller 2f, air nozzle 5d work can blow off the impurity in the yarn of tight state, can inhale dust catcher 5b with the impurity that blows off in through dust catcher 5b, accomplish the clearance to impurity, the yarn is the tight state and blows off the impurity in the yarn more easily.

Specifically, a reset spring 3e is sleeved on the supporting upright rod 3c, two ends of the reset spring 3e respectively abut against the top of the guide plate 3d and the bottom of the lower abutting plate 3b, and a lower extrusion cylinder 3f rotatably connected with the top of the lower abutting plate 3b is arranged at the top of the lower abutting plate 3 b; lower conflict board 3b can remove under reset spring 3 e's effect, makes conflict board 3b can drive down recipient 3f and remove down.

Specifically, the material moving assembly 6 comprises a screw rod sliding table 6a, a connecting plate 6b, two symmetrically arranged driving parts 6c and two sliding rods 6h arranged at the top of an upper contact plate 3g, the connecting plate 6b is horizontally arranged at the tops of the two sliding rods 6h, a sliding block of the screw rod sliding table 6a is fixedly connected with the side wall of the connecting plate 6b, a bearing plate 6j is arranged on the portal frame 3a, and the two driving parts 6c are both arranged on the side wall of the bearing plate 6 j; the screw rod sliding table 6a can drive the connecting plate 6b to move when working, so that the connecting plate 6b can drive the sliding rod 6h to move in the moving process, the sliding rod 6h can drive the upper touch plate 3g to move, the upper touch plate 3g can drive the rotating rod 6e to rotate in the moving process, the rotating rod 6e can drive the touch wheel 6g to move in the rotating process, the touch wheel 6g can rotate, the lower touch plate 3b can move under the action of the return spring 3e, the lower touch plate 3b and the upper touch plate 3g can move relatively or move back to back, the upper extrusion cylinder 3h and the lower extrusion cylinder 3f can keep a proper distance to touch yarns, the distance between the upper extrusion cylinder 3h and the lower extrusion cylinder 3f is enlarged, the worker can conveniently detach the yarns, the driving force of the extrusion assembly 3 is only the screw rod sliding table 6a, compared with the traditional extrusion device, the device is more skilled and has higher precision.

Specifically, each driving part 6c comprises a connecting shaft 6d rotatably connected with a supporting plate 6j, a rotating rod 6e is sleeved on the connecting shaft 6d, a connecting rod 6f hinged with the side wall of an upper abutting plate 3g is arranged at one end of the rotating rod 6e, an abutting wheel 6g is arranged at the other end of the rotating rod 6e, an upper extrusion cylinder 3h rotatably connected with the upper abutting plate 3g is arranged at the bottom of the upper abutting plate 3g, and a driving plate 6i in abutting connection with the abutting wheel 6g is arranged on the side wall of a lower abutting plate 3 b; make connecting plate 6b can drive slide bar 6h at the in-process that removes and remove, make slide bar 6h can drive conflict board 3g and remove, it can drive dwang 6e at the in-process that removes to make last conflict board 3g rotate, make dwang 6e can drive the removal of conflict wheel 6g at the pivoted in-process, make the rotation of taking place to conflict wheel 6g, it can remove under reset spring 3 e's effect to make conflict board 3b down, it can relative movement or the back of the body removal mutually to make conflict board 3b and last conflict board 3g down.

Specifically, the drafting assembly 2 comprises a bearing table 2a, a sliding block 2b and a connecting frame 2c arranged at the top of the bearing table 2a, wherein a plurality of drafting rollers 2d arranged at intervals along a horizontal direction are arranged on the bearing table 2a, two supporting rods 2e arranged at intervals are arranged between the bottom of the connecting frame 2c and the top of the bearing table 2a, the sliding block 2b can be slidably sleeved on the two supporting rods 2e, and a pressing roller 2f is arranged on the side wall of the sliding block 2 b; draw out the yarn from output sliver can 1, can be with the yarn active feeding and gather together through draft subassembly 2, but the worker manual adjustment compresses tightly roller 2 f's position, and the worker can make screw rod 2g take place to rotate through the knob, screw rod 2g can with screw threaded connection, make sliding block 2b move in vertical direction, make sliding block 2b can drive and compress tightly roller 2f and go up and down, make and compress tightly roller 2f and draft roller 2d and keep suitable distance.

Specifically, the drafting assembly 2 further comprises a screw rod 2g vertically arranged on the connecting frame 2c, a nut in threaded connection with the screw rod 2g is arranged on the sliding block 2b, a rotating button 2h is arranged at the top end of the screw rod 2g, a buffer spring 2i is sleeved on the supporting rod 2e, and two ends of the buffer spring 2i respectively abut against the connecting frame 2c and the bearing platform 2 a; the worker can make screw rod 2g take place to rotate through the knob, and screw rod 2g can with screw threaded connection, make sliding block 2b remove in vertical direction, make sliding block 2b can drive and compress tightly roller 2f and go up and down, and buffer spring 2i can play the effect of buffering.

Specifically, the drying assembly 4 comprises an installation frame 4a arranged at the right end of the portal frame 3a, and an electric heating wire 4b is arranged in the installation frame 4 a; the drying component 4 can dry the drawn yarns.

Specifically, the blowing assembly 5 comprises a tensioning part 7, a support frame 5a arranged at the right end of the bearing table 2a and a dust collector 5b arranged at the top of the portal frame 3a, wherein a plurality of air injection pipelines 5c arranged at equal intervals along a straight line are arranged at the top of the support frame 5a, and air nozzles 5d are arranged on the air injection pipelines 5 c; the air nozzle 5d can blow out the impurity in the yarn in the tight state in the work, can inhale the impurity that blows out in the dust catcher 5b through the dust catcher 5b, accomplishes the clearance to impurity, and the yarn is the impurity blowdown in the yarn more easily of tight state.

Specifically, the tensioning part 7 comprises a tensioning plate 7a with an arc-shaped structure and a connecting block 7b in sliding fit with the left side of the portal frame 3a, the tensioning plate 7a is arranged above the air injection pipeline 5c, a through groove is formed in the tensioning plate 7a, round chamfers are arranged on two sides of the tensioning plate 7a, a supporting plate 7c is arranged on the left side of the portal frame 3a, and a telescopic spring 7d is arranged between the supporting plate 7c and the connecting block 7 b; the yarn can be contradicted with the bottom of tensioning plate 7a, makes the yarn keep certain tension, and expanding spring 7d can play the effect of buffering, leads to the groove and can make the gaseous of air nozzle 5d pass through, and the round chamfer can avoid the yarn to take place the damage.

The working principle of the invention is as follows: the yarn is led out from the output sliver can 1, the yarn can be actively fed and gathered through the drafting assembly 2, an operator can manually adjust the position of the pressing roller 2f, the operator can enable the screw rod 2g to rotate through a rotating button, the screw rod 2g can be in threaded connection with a nut, the sliding block 2b can move in the vertical direction, the sliding block 2b can drive the pressing roller 2f to lift, the pressing roller 2f and the drafting roller 2d can keep a proper distance, the yarn can be abutted against the bottom of the tensioning plate 7a to keep a certain tensioning force, the expansion spring 7d can play a role of buffering, the air nozzle 5d can blow out impurities in the yarn in a tight state, the blown impurities can be sucked into the dust collector 5b through the dust collector 5b to complete the cleaning of the impurities, the distance between the upper abutting plate 3g and the lower abutting plate 3b can be precisely controlled through the squeezing assembly 3, the yarn after drawing can be further extruded, the yarn quality after drawing is improved, a certain tightening force is provided for the yarn, the yarn can be wound, the connecting plate 6b can be driven to move by the operation of the screw rod sliding table 6a, the connecting plate 6b can drive the sliding rod 6h to move in the moving process, the sliding rod 6h can drive the upper touch plate 3g to move, the upper touch plate 3g can drive the rotating rod 6e to rotate in the moving process, the rotating rod 6e can drive the touch wheel 6g to move in the rotating process, the touch wheel 6g can rotate, the lower touch plate 3b can move under the action of the reset spring 3e, the lower touch plate 3b and the upper touch plate 3g can move relatively or move back to back, and the upper extrusion barrel 3h and the lower extrusion barrel 3f can keep a proper distance to touch the yarn, and the interval of expanding last recipient 3h and lower recipient 3f can be convenient for the dismantlement operation of worker to the yarn, and extrusion subassembly 3's drive power only is lead screw slip table 6a, and more traditional extrusion device is more skilled to the precision is higher.

Claims

1. The energy-saving yarn doubling device is characterized by comprising an output sliver can (1), a drafting assembly (2), an extrusion assembly (3) and a drying assembly (4), wherein the extrusion assembly (3) is arranged between the drafting assembly (2) and the drying assembly (4), the drafting assembly (2) is arranged at the left end of the extrusion assembly (3), the output sliver can (1) is arranged at the left end of the drafting assembly (2), the left end of the extrusion assembly (3) is provided with a blowing assembly (5), the extrusion assembly (3) comprises a portal frame (3a), a lower contact plate (3b), an upper contact plate (3g) and a moving assembly (6), the upper contact plate (3g) is arranged above the lower contact plate (3b), the moving assembly (6) is arranged at the top of the portal frame (3a), two vertically-arranged support vertical rods (3c) are arranged at the bottom of the lower contact plate (3b), the lower section of the portal frame (3a) is provided with a guide plate (3d) corresponding to each supporting upright rod (3c), and the guide plates (3d) are in sliding fit with the corresponding supporting upright rods (3 c).

2. Energy-saving yarn doubling device according to claim 1, wherein a return spring (3e) is sleeved on the supporting upright rod (3c), two ends of the return spring (3e) respectively abut against the top of the guide plate (3d) and the bottom of the lower abutting plate (3b), and the top of the lower abutting plate (3b) is provided with a lower extrusion cylinder (3f) rotatably connected with the lower extrusion cylinder.

3. The energy-saving yarn doubling device according to claim 1, wherein the material moving assembly (6) comprises a screw rod sliding table (6a), a connecting plate (6b), two symmetrically arranged driving parts (6c) and two sliding rods (6h) arranged at the top of the upper touch plate (3g), the connecting plate (6b) is horizontally arranged at the tops of the two sliding rods (6h), the sliding blocks of the screw rod sliding table (6a) are fixedly connected with the side wall of the connecting plate (6b), a bearing plate (6j) is arranged on the portal frame (3a), and the two driving parts (6c) are arranged on the side wall of the bearing plate (6 j).

4. Energy-saving yarn doubling device according to claim 3, wherein each driving part (6c) comprises a connecting shaft (6d) rotatably connected with a supporting plate (6j), a rotating rod (6e) is sleeved on the connecting shaft (6d), one end of the rotating rod (6e) is provided with a connecting rod (6f) hinged to the side wall of the upper touch plate (3g), the other end of the rotating rod (6e) is provided with a touch wheel (6g), the bottom of the upper touch plate (3g) is provided with an upper extrusion cylinder (3h) rotatably connected with the upper touch plate, and the side wall of the lower touch plate (3b) is provided with a driving plate (6i) which is connected with the touch wheel (6g) in a touching manner.

5. The energy-saving yarn doubling device according to claim 1, wherein the drafting assembly (2) comprises a bearing platform (2a), a sliding block (2b) and a connecting frame (2c) arranged at the top of the bearing platform (2a), a plurality of drafting rollers (2d) arranged at intervals along a horizontal direction are arranged on the bearing platform (2a), two supporting rods (2e) arranged at intervals are arranged between the bottom of the connecting frame (2c) and the top of the bearing platform (2a), the sliding block (2b) can be slidably sleeved on the two supporting rods (2e), and a pressing roller (2f) is arranged on the side wall of the sliding block (2 b).

6. The energy-saving yarn doubling device according to claim 5, wherein the drafting assembly (2) further comprises a screw rod (2g) vertically arranged on the connecting frame (2c), a nut in threaded connection with the screw rod (2g) is arranged on the sliding block (2b), a rotating button (2h) is arranged at the top end of the screw rod (2g), a buffer spring (2i) is sleeved on the supporting rod (2e), and two ends of the buffer spring (2i) respectively abut against the connecting frame (2c) and the bearing platform (2 a).

7. The energy-saving yarn doubling device according to claim 1, wherein the drying assembly (4) comprises a mounting frame (4a) arranged at the right end of the portal frame (3a), and the heating wire (4b) is arranged in the mounting frame (4 a).

8. The energy-saving yarn doubling device according to claim 1, wherein the blowing assembly (5) comprises a tensioning part (7), a support frame (5a) arranged at the right end of the bearing table (2a) and a dust collector (5b) arranged at the top of the portal frame (3a), a plurality of air injection pipelines (5c) arranged at equal intervals along a straight line are arranged at the top of the support frame (5a), and air nozzles (5d) are arranged on the air injection pipelines (5 c).

9. The energy-saving yarn doubling device according to claim 8, wherein the tensioning member (7) comprises a tensioning plate (7a) with an arc-shaped structure and a connecting block (7b) in sliding fit with the left side of the portal frame (3a), the tensioning plate (7a) is arranged above the air injection pipeline (5c), a through groove is formed in the tensioning plate (7a), round chamfers are arranged on two sides of the tensioning plate (7a), a supporting plate (7c) is arranged on the left side of the portal frame (3a), and a telescopic spring (7d) is arranged between the supporting plate (7c) and the connecting block (7 b).