CN2839305Y - The acrylic fibre tow splicer - Google Patents

Abstract

The acrylic fibre tow splicer discloses a kind of machinery equipment that is used for the machined acrylic wool top.It comprises top nozzle 1, following nozzle 3, support 4, working panel 5, two thread pressing boards 8, two cylinders 2, valve 9 and compressed air source unit 11, on the upper surface that two were located at 5 place, both sides of the edge in 8 minutes, an end of 8 is hinged on 5,2 piston rod points upwards also contacts with 8,3 upper top has two fumaroles, an end of 1 is fixed on the edge of working panel 5, have two gas holes on the lower surface of 1 the other end, 1 the other end is hung to 3 top, step on 9 switch, compressed air source unit is to 1,3 and 2 air feed, the gas in 1 and 3 sprays to the acrylic filaments bundle by gas hole and fumarole respectively.Upwards air-flow and downward air-flow have formed a moment of reversing, and just adhering to two acrylic filaments bundles in packing case strand network that tussles separately, it has solved, and existing tow joint style had not only been lost time but also the defective of waste material.

Description

The acrylic fibre tow splicer

Technical field:

The utility model relates to a kind of machinery equipment that is used for the machined acrylic wool top.

Background technology:

In acrylic top system bar is produced, there is one procedure to be to use break machine that acrylic filaments is broken.Break machine is a capital equipment of producing acrylic top, the employed raw material of break machine are the acrylic filaments bundle, because endless tow is to be divided in each packing case, the endless tow of every case uses up its terminal head end with next case endless tow of back and ties up mutually, before passing through the feeding frame of break machine thread guide mechanism introducing equipment then, open and tie up the place, the end of last bag tow is removed from break machine, draw the feeding roller that new tow is wrapped in break machine again, the after-drawing roller, preceding draw roll, on the predraft roller, clock over,, till the tow thin and thick on the break machine evenly, will stop behind the tow process break machine rebreaking zone again with the hand seal wire.Repiece is driven, and finishes the operating process of newly drawing tow.In whole joint process, it is 18.4 meters that last bag tow end is removed the length of coming from break machine, and one case tow in back draws silk again on break machine even to the seal wire thin and thick, and the tow length of getting off is 20.0 meters.These raw materials all can not become wool top, can only become leftover bits and pieces.And this tying up connects per two the casees and just carries out once, so existing tow joint style had not only been lost time but also waste material.

The utility model content:

The purpose of this utility model provide a kind of can be the tail head of two casees endless tows strand network acrylic fibre tow splicer together, existing tow joint style had not only been lost time but also the defective of waste material to overcome.The utility model is realized by following proposal: the acrylic fibre tow splicer, it comprises top nozzle 1, following nozzle 3, support 4, working panel 5, two thread pressing boards 8, two cylinders 2, valve 9 and compressed air source unit 11, working panel 5 is fixed on the last end face of support 4, two thread pressing boards 8 are parallel to each other and divide on the upper surface at the place, both sides of the edge that is located at working panel 5, one end of thread pressing board 8 is hinged on the working panel 5, the cylinder body of two cylinders 2 is separately fixed at the hinged place of the below of two thread pressing boards 8 on the working panel 5 near thread pressing board 8, the piston rod points upwards of cylinder 2 also contacts with thread pressing board 8, following nozzle 3 is fixed on the lower surface of working panel 5 centers, the upper top of following nozzle 3 penetrates working panel 5 and mutually concordant with the upper surface of working panel 5, the upper top of following nozzle 3 has two fumarole 3-1, one end of top nozzle 1 is fixed on the edge of working panel 5, have two gas hole 1-1 on the lower surface of the other end of top nozzle 1, the other end of top nozzle 1 is hung to down the top of nozzle 3, two gas hole 1-1 arrange along the length direction of top nozzle 1, two fumarole 3-1 and two gas hole 1-1 are positioned at a same side that lists and be arranged on two gas hole 1-1 in the vertical plane, the gas outlet 3-3 of nozzle 3 and the air inlet of cylinder 2 under the air inlet 1-2 of top nozzle 1 is communicated with, the air inlet 3-2 of following nozzle 3 is communicated with the exhaust nozzle of valve 9, the suction nozzle of valve 9 is communicated with compressed air source unit 11, and valve 9 is arranged on the lower end of support 4.

The operation principle of acrylic fibre tow splicer of the present utility model as shown in Figures 1 to 4, during work in the last packing case head end of the end of acrylic filaments bundle and the acrylic filaments bundle of back in one packing case overlap and be placed on the working panel 5, the lap of splice is the 400-500 millimeter, the workman steps on the switch of a lower valve 9, compressed air source unit 11 upward nozzles, following nozzle and cylinder air feed, the piston rod of cylinder 2 jack-up that makes progress is pressed in thread pressing board 8 on the acrylic filaments bundle overlap two ends, and the gas in top nozzle and the following nozzle sprays to the acrylic filaments bundle by gas hole 1-1 and fumarole 3-1 respectively.Because the air-flow and the downward air-flow that make progress have formed a moment of reversing, just twine one and buckle adhering to two acrylic filaments bundle knobs in the packing case separately, along the length direction segmentation of acrylic fibre tow the overlap joint tow is moved between top nozzle and the following nozzle then and carry out knob snarl network, the moving direction of acrylic fibre tow is perpendicular to thread pressing board 8, each distance that moves is 13-16mm, the number of times that tow moves is about 30 times, in order to make tow strand network get tightr, in operating process, can suitably increase the position of strand network, with the reliability of guaranteeing to connect.After having used splicer of the present utility model, the tow end adopts tow splicer wind to rotate and twists network, many casees tow twisted network together end to end in order, form a rhizoid bundle, break machine can turn round continuously, can reduce operation widely, reduce machine down time, improve operating efficiency, also reduced wastage of material, improved the running rate and the product quality of equipment.The utlity model has simple in structure, reliable operation, advantage such as easy to operate.

Description of drawings:

Fig. 1 is a structural representation of the present utility model, and Fig. 2 is the side view of Fig. 1, and Fig. 3 is the vertical view of Fig. 1, and Fig. 4 is the structural representation of embodiment four, and Fig. 5 is a pneumatic principle schematic diagram of the present utility model.

The specific embodiment:

The specific embodiment one: specify the utility model below in conjunction with Fig. 1 and Fig. 2, Fig. 3, Fig. 5.Present embodiment is by top nozzle 1, following nozzle 3, support 4, working panel 5, two thread pressing boards 8, two cylinders 2, valve 9 and compressed air source unit 11 are formed, working panel 5 is fixed on the last end face of support 4, two thread pressing boards 8 are parallel to each other and divide on the upper surface at the place, both sides of the edge that is located at working panel 5, one end of thread pressing board 8 is hinged on the working panel 5, the cylinder body of two cylinders 2 is separately fixed at the hinged place of the below of two thread pressing boards 8 on the working panel 5 near thread pressing board 8, the piston rod points upwards of cylinder 2 also contacts with thread pressing board 8, following nozzle 3 is fixed on the lower surface of working panel 5 centers, the upper top of following nozzle 3 penetrates working panel 5 and mutually concordant with the upper surface of working panel 5, the upper top of following nozzle 3 has two fumarole 3-1, one end of top nozzle 1 is fixed on the edge of working panel 5, have two gas hole 1-1 on the lower surface of the other end of top nozzle 1, the other end of top nozzle 1 is hung to down the top of nozzle 3, distance between the upper surface of the lower surface of the other end of top nozzle 1 and working panel 5 is 10 millimeters, two gas hole 1-1 arrange along the length direction of top nozzle 1, two fumarole 3-1 and two gas hole 1-1 are positioned at a same side that lists and be arranged on two gas hole 1-1 in the vertical plane, adjacent gas hole 1-1 and the centre-to-centre spacing between the fumarole 3-1 are 2.5 to 2.7 millimeters, the diameter of gas hole 1-1 and fumarole 3-1 is 1.2 millimeters, the gas outlet 3-3 of nozzle 3 and the air inlet of cylinder 2 under the air inlet 1-2 of top nozzle 1 is communicated with, the air inlet 3-2 of following nozzle 3 is communicated with the exhaust nozzle of valve 9, the suction nozzle of valve 9 is communicated with compressed air source unit 11, and valve 9 is arranged on the lower end of support 4.

The specific embodiment two: specify present embodiment below in conjunction with Fig. 5.The difference of present embodiment and embodiment one is: compressed air source unit 11 is by air compressor 11-1, stop valve 11-2, gas, water separation device 11-3, pressure-reducing valve 11-4, oil, air separation 11-5 and Pressure gauge 11-6 form, the exhaust end of air compressor 11-1 is communicated with the end of stop valve 11-2, the other end of stop valve 11-2 is communicated with gas, the inlet of water separation device 11-3, gas, the exhaust outlet of water separation device 11-3 is communicated with the end of going into of pressure-reducing valve 11-4, the end that goes out of pressure-reducing valve 11-4 is communicated with Pressure gauge 11-6 and oil, the inlet of air separation 11-5, oil, the outlet of air separation 11-5 is communicated with the suction nozzle of valve 9, and described valve 9 is 2/2-way valves.Other composition is identical with embodiment one with connected mode.During present embodiment work, start air compressor, open stop valve 11-2, moisture in the compressed air is by gas, water separation device 11-3 filters, set up gas pressure by pressure-reducing valve, oil, air separation 11-5 filters the oil in the compressed air, in Pressure gauge, show supply gas pressure, gas enters valve 9, with the foot-operated firmly correlated parts of valve 9, make valve 9 replace into conducting state, to cylinder and last, following nozzle air feed, on, following nozzle is started working, cylinder is with thread pressing board jack-up, the tow that operating personnel will pave overlap joint passes through last along its length direction segmentation, between the following nozzle, after the strand network is intact tow is removed from working panel, finished whole strand network overall process.

The specific embodiment three: specify present embodiment below in conjunction with Fig. 1 and Fig. 2.The difference of present embodiment and embodiment one is: it also comprises four universal wheels 12, and each universal wheel 12 is separately fixed on the bottom of four column 4-1 of support 4.Other composition is identical with embodiment one with connected mode.It is whole mobile very convenient that the splicer that makes present embodiment so is set.

The specific embodiment four: specify present embodiment below in conjunction with Fig. 3 and Fig. 4.The difference of present embodiment and embodiment one is: top nozzle 1 is made up of nozzle body 1-3, riser 1-4 and soleplate 1-5, nozzle body 1-3 cylindraceous with closed cavity is fixed on the horizontally disposed soleplate 1-5 by riser, have four lower margin hole 1-5-1 on the soleplate 1-5, lower margin hole 1-5-1 is the slotted hole along the length direction of nozzle body 1-3.Other composition is identical with embodiment one with connected mode.The top nozzle 1 of present embodiment is fixed on the upper surface of working panel 5 by lower margin hole and bolt 15, and the axial line distance that can regulate fumarole 3-1 and gas hole 1-1 so is set.

Claims (4)

1, the acrylic fibre tow splicer, it is characterized in that it comprises top nozzle (1), following nozzle (3), support (4), working panel (5), two thread pressing boards (8), two cylinders (2), valve (9) and compressed air source unit (11), working panel (5) is fixed on the last end face of support (4), two thread pressing boards (8) are parallel to each other and divide on the upper surface at the place, both sides of the edge be located at working panel (5), one end of thread pressing board (8) is hinged on the working panel (5), the cylinder body of two cylinders (2) is separately fixed at the hinged place of the below of last two thread pressing boards of working panel (5) (8) near thread pressing board (8), the piston rod points upwards of cylinder (2) also contacts with thread pressing board (8), following nozzle (3) is fixed on the lower surface of working panel (5) center, the upper top of following nozzle (3) penetrates working panel (5) and mutually concordant with the upper surface of working panel (5), the upper top of following nozzle (3) has two fumaroles (3-1), one end of top nozzle (1) is fixed on the edge of working panel (5), have two gas holes (1-1) on the lower surface of the other end of top nozzle (1), the other end of top nozzle (1) is hung to down the top of nozzle (3), two gas holes (1-1) are arranged along the length direction of top nozzle (1), two fumaroles (3-1) are positioned at a same side that lists and be arranged on two gas holes (1-1) with two gas holes (1-1) in the vertical plane, the gas outlet (3-3) of nozzle (3) and the air inlet of cylinder (2) under the air inlet (1-2) of top nozzle (1) is communicated with, the air inlet (3-2) of following nozzle (3) is communicated with the exhaust nozzle of valve (9), the suction nozzle of valve (9) is communicated with compressed air source unit (11), and valve (9) is arranged on the lower end of support (4).

2, acrylic fibre tow splicer according to claim 1, it is characterized in that compressed air source unit (11) is by air compressor (11-1), stop valve (11-2), gas, water separation device (11-3), pressure-reducing valve (11-4), oil, air separation (11-5) and Pressure gauge (11-6) are formed, the exhaust end of air compressor (11-1) is communicated with an end of stop valve (11-2), the other end of stop valve (11-2) is communicated with gas, the inlet of water separation device (11-3), gas, the exhaust outlet of water separation device (11-3) is communicated with the end of going into of pressure-reducing valve (11-4), the end that goes out of pressure-reducing valve (11-4) is communicated with Pressure gauge (11-6) and oil, the inlet of air separation (11-5), oil, the outlet of air separation (11-5) is communicated with the suction nozzle of valve (9), and described valve (9) is the 2/2-way valve.

3, acrylic fibre tow splicer according to claim 1 is characterized in that it also comprises four universal wheels (12), and each universal wheel (12) is separately fixed on the bottom of four columns (4-1) of support (4).

4, acrylic fibre tow splicer according to claim 1, it is characterized in that top nozzle (1) is made up of nozzle body (1-3), riser (1-4) and soleplate (1-5), nozzle body cylindraceous (1-3) with closed cavity is fixed on the horizontally disposed soleplate (1-5) by riser, have four lower margin holes (1-5-1) on the soleplate (1-5), lower margin hole (1-5-1) is the slotted hole along the length direction of nozzle body (1-3).

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