CN209520205U - A kind of ultra-thin pipe burning optimization on line drawing equipment - Google Patents

Abstract

The utility model discloses ultra-thin pipe burning optimization on line drawing equipments, it is related to drawing technique field, including bottom plate, the upper surface of the bottom plate is fixedly installed with thread depressing mechanism, the upper surface of bottom plate is fixedly installed with rotation drawing mechanism, and rotates the right side that drawing mechanism is located at thread depressing mechanism, and the upper surface of bottom plate is fixedly installed with conducting mechanism, and conducting mechanism is located at the right side of rotation drawing mechanism, the upper surface of bottom plate is fixedly installed with annealing mechanism.The ultra-thin pipe burning optimization on line drawing equipment, ultra-thin pipe is pulled to carry out plasticity by drawing mould manually by staff, it is wrapped in ultra-thin pipe on wire-drawing wheel, rotating electric machine drives wire-drawing wheel and rotation axis rotation, and pulling ultra-thin pipe, quickly movement carries out plastotype inside drawing mould, improves work efficiency, under the action of slide bar, slip ring and brute spring, make push-pull rod that pressure ram be pushed to be in contact always with ultra-thin pipe, avoids ultra-thin pipe from occurring in winding at random, causing to knot influences work progress.

Description

A kind of ultra-thin pipe burning optimization on line drawing equipment

Technical field

The utility model relates to drawing technique field, specially a kind of ultra-thin pipe burning optimization on line drawing equipment.

Background technique

Drawing is to be drawn metal stock from the die hole for being less than blank section in the front end belonged to by lashing wire with external force Out, to obtain a kind of plastic processing method of the product of corresponding shape and size, since drawing mostly carries out in the cold state, Also cold-drawn or cold drawing are cried.

When carrying out drawing processing, it usually needs it is first annealed and carries out drawing again, because annealing is completed to need certain time, It carries out when drawing that workpiece and external environment time of contact are longer again, leads to workpiece quality decline and the poor problem of efficiency, for this purpose, It is proposed that ultra-thin pipe burning optimization on line drawing equipment solves problem above.

Utility model content

The purpose of this utility model is exactly in order to make up for the deficiencies of the prior art, to provide a kind of ultra-thin pipe burning optimization on line Drawing equipment, it has the advantages that high in machining efficiency, solves the problems, such as that processing efficiency is poor.

The utility model is in order to solve the above technical problems, provide the following technical solutions: a kind of ultra-thin pipe burning optimization on line drawing Equipment, including bottom plate are pulled out, the upper surface of the bottom plate is fixedly installed with thread depressing mechanism, and the upper surface of the bottom plate is fixedly installed with Drawing mechanism is rotated, and rotates the right side that drawing mechanism is located at thread depressing mechanism, the upper surface of the bottom plate is fixedly installed with conducting wire Mechanism, and conducting mechanism is located at the right side of rotation drawing mechanism, the upper surface of the bottom plate is fixedly installed with annealing mechanism, and moves back Lighter structure is located at the right side of conducting mechanism.

The thread depressing mechanism include the first pin shaft, push-pull rod, positioning column, the second pin shaft, through slot, pressure ram, third pin shaft, Sliding slot, slide bar, slip ring and brute spring.

The rotation drawing mechanism include wire-drawing wheel, rotation axis, the first positioning plate, pedestal, rotating electric machine, first bearing, Second positioning plate, drawing mould and mounting plate.

The conducting mechanism include column, sliding panel, bearing plate, electric pushrod, through-hole, second bearing, the first guide roller, Bull stick, the 4th pin shaft, the second guide roller and limit hole.

The annealing mechanism include ultra-thin pipe, discharge nozzle, annelaing pot, cooling cylinder, escape pipe, circulating fan, feed pipe, into Tracheae, the first valve, gas tube, connecting tube, the second valve, support column, supporting leg, filter screen, coil pipe, air inlet, downwind plate And air accumulator.

Further, annelaing pot is placed with above the bottom plate, four edges of the annelaing pot bottom surface are fixed It is connected with supporting leg, and the bottom surface of supporting leg is fixedly connected with the upper surface of bottom plate, the fixed connection in the left side of the annelaing pot There is discharge nozzle, the right side fixation of the annelaing pot is communicated with feed pipe, and the inner bottom wall of the annelaing pot is fixedly connected with support Column, the upper surface of the support column are fixedly connected with cooling cylinder, and air accumulator, and air accumulator are fixedly connected with above the bottom plate Positioned at the side of annelaing pot, the lower part of the air accumulator right side is fixed to be communicated with gas tube, and the upper surface of the annelaing pot is solid Surely it is connected with circulating fan, the input terminal fixation of the circulating fan is communicated with air inlet pipe, and the air inlet pipe is far from circulating fan One end be connected with the upper surface of air accumulator, and air inlet pipe outer surface fixation be communicated with the first valve, the circulating fan Output end fixed be communicated with escape pipe, upper surface and extension of the one end of the escape pipe far from circulating fan through annelaing pot To the inside of annelaing pot, and the one end of escape pipe far from circulating fan is connected with the upper surface of cooling cylinder, the feed pipe Inside is placed with ultra-thin pipe, and the left end of the ultra-thin pipe sequentially passes through cooling cylinder and discharge nozzle and extends to the left side of annelaing pot.

It by using above-mentioned technical proposal, flows inert gas rapidly, contacts inert gas with workpiece more uniform, Avoiding workpiece annealing from reacting again with oxygen after the completion influences quality.

Further, the upper surface of the bottom plate is fixedly connected with column, and column is located at the left side of annelaing pot, described vertical The top of column right side offers limit hole, and the inner sidewall of the limit hole is fixedly hinged with the second conducting wire by the 4th pin shaft Wheel, the upper surface of the column are opened up there are two symmetrical through-hole, and the upper surface of the column is fixedly connected with electric pushrod, The telescopic end of the electric pushrod is fixedly connected with bearing plate, and the left and right sides of the bearing plate are fixedly connected to sliding Plate, the bottom end of two sliding panels extend through two through-holes and extend to the inside of limit hole, and two sliding panels are left The fixation of the bottom of side is inlaid with second bearing, and bull stick, the bull stick left and right ends are placed between two sliding panels Outer surface be fixedly connected respectively with the inner ring of two second bearings, the outer surface of the bull stick is fixedly connected with the first conducting wire The left end of wheel, the ultra-thin pipe runs through limit hole and extends to the left side of column, and ultra-thin pipe is located at the first guide roller and second Between guide roller.

By using above-mentioned technical proposal, make ultra-thin pipe between the first guide roller and the second guide roller, prevents ultra-thin Pipe occurs deviateing or knot.

Further, mounting plate is fixedly connected on the left of the column, the upper surface of the mounting plate is fixedly connected with The left end of drawing mould, the ultra-thin pipe runs through drawing mould and extends to the left side of drawing mould, the upper surface of the bottom plate It is fixedly connected with the first positioning plate and the second positioning plate, and the first positioning plate and the second positioning plate are respectively positioned on the left side of column, institute State that the first positioning plate and the second positioning plate one side close to each other are fixed to be inlaid with first bearing, first positioning plate and Rotation axis is placed between second positioning plate, and the outer surface at rotation axis both ends is fixed with the inner ring of two first bearings connect respectively It connects, the outer surface of the rotation axis is fixedly connected with wire-drawing wheel, and the ultra-thin pipe is far from drawing mould and one end and wire-drawing wheel Outer surface is mutually wound, and first positioning plate is fixedly connected with rotating electric machine, the rotation far from the one side of the second positioning plate The output end of motor is fixedly connected with rotation axis far from one end of the second positioning plate.

By using above-mentioned technical proposal, pulling ultra-thin pipe, quickly movement carries out plastotype inside drawing mould, improves Working efficiency.

Further, the upper surface of the bottom plate is fixedly connected with positioning column, and the positioning column is located at the first positioning plate Left side, the upper surface of the positioning column offer through slot, and the inside of the through slot is placed with pressure ram, the pressure ram right end Outer surface is in contact with the outer surface of ultra-thin pipe, and the outer surface of the pressure ram is cut with scissors by the way that the inner wall of the second pin shaft and through slot is fixed It connects, the outer surface of the pressure ram left end is fixedly hinged with push-pull rod by the first pin shaft, and the left side of the positioning column opens up There is sliding slot, the inside of the sliding slot is placed with slip ring, and the inner roof wall of the sliding slot is fixedly connected with slide bar, and slip ring and slide bar phase Socket, the outer surface of the push-pull rod bottom end pass through the outer surface fixed hinge of third pin shaft and slip ring, the bottom surface of the slip ring It is fixedly connected with brute spring, the bottom end of the brute spring is fixedly connected with the inner bottom wall of sliding slot.

By using above-mentioned technical proposal, ultra-thin pipe is avoided to occur in winding at random, causing to knot influences work progress.

Further, first positioning plate is fixedly connected with pedestal, the pedestal far from the one side of the second positioning plate Upper surface be fixedly connected with the bottom surface of rotating electric machine.

By using above-mentioned technical proposal, keeps rotating electric machine easier for installation, rotating electric machine is avoided to occur at work It shakes, ensure that the normal use of rotating electric machine.

Further, the inner bottom wall of the annelaing pot is fixedly connected with whole circle coil pipe, and the outer surface of the coil pipe offers Air inlet, the inner wall of each air inlet are fixedly connected to filter screen compatible with air inlet, the air accumulator left side The bottom in face is fixed to be communicated with connecting tube, and the connecting tube runs through the bottom surface of annelaing pot and extend to far from one end of air accumulator moves back The inside of fire-box, and the one end of connecting tube far from air accumulator is connected to coil pipe fixation, the fixed connection in the outer surface of the connecting tube There is the second valve.

By using above-mentioned technical proposal, inert gas inside annelaing pot is made to form circulation, inert gas stagnation is avoided to lead It causes to react irregular with workpiece, improves workpiece quality.

Further, the inner wall of the cooling cylinder is fixedly connected with downwind plate, and downwind plate is in inner concavity.

By using above-mentioned technical proposal, inert gas is rotated, improves workpiece and react equal with inert gas Evenness.

Further, the right end of the pressure ram is in arc-shaped, and the discharge nozzle and feed pipe are located at same level.

By using above-mentioned technical proposal, pressure ram is avoided to scratch workpiece, causes workpiece flaw and workpiece fracture occur, mention The high safety and stability of the device.

Compared with prior art, the ultra-thin pipe burning optimization on line drawing equipment have it is following the utility model has the advantages that

1, the utility model staff when process is processed opens the first valve and the second valve manually, and circulating fan is logical It electrically activates, forms air accumulator inside inert gas under the action of escape pipe, air inlet pipe and connecting tube and circulate, by working Ultra-thin pipe is put into from feed pipe by cooling cylinder and discharge nozzle by personnel, and ultra-thin pipe and inert gas is made to react to form guarantor Sheath, preventing ultra-thin pipe from reacting with dioxygen oxidation ensure that workpiece quality, and electric pushrod, which is powered, to be started, and drive sliding panel and load-bearing Plate decline, makes ultra-thin pipe between the first guide roller and the second guide roller, prevents ultra-thin pipe from occurring deviateing or knot.

2, the utility model is pulled ultra-thin pipe to carry out plasticity by drawing mould manually by staff, winds ultra-thin pipe On wire-drawing wheel, rotating electric machine drive wire-drawing wheel and rotation axis rotation, pull ultra-thin pipe quickly moved inside drawing mould into Row plastotype, improves work efficiency, under the action of slide bar, slip ring and brute spring, make push-pull rod push pressure ram always with Ultra-thin pipe is in contact, and avoids ultra-thin pipe from occurring in winding at random, causing to knot influences work progress.

Detailed description of the invention

Fig. 1 is the sectional view of the utility model annelaing pot main view；

Fig. 2 is the sectional view of the utility model cooling cylinder side view；

Fig. 3 is the sectional view of the utility model column side view；

Fig. 4 is the sectional view of the first positioning plate of the utility model side view；

Fig. 5 is structure enlargement diagram at A in the utility model Fig. 1；

Fig. 6 is structure enlargement diagram at B in the utility model Fig. 1.

In figure: 1, thread depressing mechanism；101, the first pin shaft；102, push-pull rod；103, positioning column；104, the second pin shaft；105, Through slot；106, pressure ram；107, third pin shaft；108, sliding slot；109, slide bar；110, slip ring；111, brute spring；2, rotation is drawn Drawing machine structure；201, wire-drawing wheel；202, rotation axis；203, the first positioning plate；204, pedestal；205, rotating electric machine；206, first axle It holds；207, the second positioning plate；208, drawing mould；209, mounting plate；3, conducting mechanism；301, column；302, sliding panel；303, Bearing plate；304, electric pushrod；305, through-hole；306, second bearing；307, the first guide roller；308, bull stick；309, the 4th pin Axis；310, the second guide roller；311, limit hole；4, annealing mechanism；401, ultra-thin pipe；402, discharge nozzle；403, annelaing pot；404, Cooling cylinder；405, escape pipe；406, circulating fan；407, feed pipe；408, air inlet pipe；409, the first valve；410, gas tube； 411, connecting tube；412, the second valve；413, support column；414, supporting leg；415, filter screen；416, coil pipe；417, air inlet； 418, downwind plate；419, air accumulator；5, bottom plate.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Fig. 1-6 is please referred to, the utility model provides a kind of technical solution: a kind of ultra-thin pipe burning optimization on line drawing equipment, Including bottom plate 5, the upper surface of bottom plate 5 is fixedly installed with thread depressing mechanism 1, and the upper surface of bottom plate 5 is fixedly installed with rotation drawbench Structure 2, and the right side that drawing mechanism 2 is located at thread depressing mechanism 1 is rotated, the upper surface of bottom plate 5 is fixedly installed with conducting mechanism 3, and leads Line mechanism 3 is located at the right side of rotation drawing mechanism 2, and the upper surface of bottom plate 5 is fixedly installed with annealing mechanism 4, and annealing mechanism 4 In the right side of conducting mechanism 3.

Thread depressing mechanism 1 includes the first pin shaft 101, push-pull rod 102, positioning column 103, the second pin shaft 104, through slot 105, squeezes Bar 106, third pin shaft 107, sliding slot 108, slide bar 109, slip ring 110 and brute spring 111.

Rotating drawing mechanism 2 includes wire-drawing wheel 201, rotation axis 202, the first positioning plate 203, pedestal 204, rotating electric machine 205, first bearing 206, the second positioning plate 207, drawing mould 208 and mounting plate 209.

Conducting mechanism 3 includes column 301, sliding panel 302, bearing plate 303, electric pushrod 304, through-hole 305, second bearing 306, the first guide roller 307, bull stick 308, the 4th pin shaft 309, the second guide roller 310 and limit hole 311.

Annealing mechanism 4 includes ultra-thin pipe 401, discharge nozzle 402, annelaing pot 403, cooling cylinder 404, escape pipe 405, circulated air Machine 406, feed pipe 407, air inlet pipe 408, the first valve 409, gas tube 410, connecting tube 411, the second valve 412, support column 413, supporting leg 414, filter screen 415, coil pipe 416, air inlet 417, downwind plate 418 and air accumulator 419.

Further, the top of bottom plate 5 is placed with annelaing pot 403, and four edges of 403 bottom surface of annelaing pot are fixed to be connected It is connected to supporting leg 414, and the bottom surface of supporting leg 414 is fixedly connected with the upper surface of bottom plate 5, the left side of annelaing pot 403 is fixed It is communicated with discharge nozzle 402, the right side of annelaing pot 403 is fixed to be communicated with feed pipe 407, and the inner bottom wall of annelaing pot 403 is fixed to be connected It is connected to support column 413, the upper surface of support column 413 is fixedly connected with cooling cylinder 404, and the top of bottom plate 5 is fixedly connected with gas storage Tank 419, and air accumulator 419 is located at the side of annelaing pot 403, the lower part fixation of 419 right side of air accumulator is communicated with gas tube 410, the upper surface of annelaing pot 403 is fixedly connected with circulating fan 406, and the input terminal fixation of circulating fan 406 is communicated with air inlet Pipe 408, the one end of air inlet pipe 408 far from circulating fan 406 are connected with the upper surface of air accumulator 419, and air inlet pipe 408 is outer Surface is fixed to be communicated with the first valve 409, and the output end of circulating fan 406 is fixed to be communicated with escape pipe 405, and escape pipe 405 is remote One end from circulating fan 406 runs through the upper surface of annelaing pot 403 and extends to the inside of annelaing pot 403, and escape pipe 405 is remote One end from circulating fan 406 is connected with the upper surface of cooling cylinder 404, and the inside of feed pipe 407 is placed with ultra-thin pipe 401, The left end of ultra-thin pipe 401 sequentially passes through cooling cylinder 404 and discharge nozzle 402 and the left side for extending to annelaing pot 403, makes inert gas Rapidly flowing, contacts inert gas with workpiece more uniform, and react with oxygen influence again after the completion of avoiding workpiece from annealing Quality.

Further, the upper surface of bottom plate 5 is fixedly connected with column 301, and column 301 is located at the left side of annelaing pot 403, The top of 301 right side of column offers limit hole 311, and the inner sidewall of limit hole 311 is fixedly hinged with by the 4th pin shaft 309 Second guide roller 310, the upper surface of column 301 are opened up there are two symmetrical through-hole 305, and the upper surface of column 301 is fixed to be connected It is connected to electric pushrod 304, the telescopic end of electric pushrod 304 is fixedly connected with bearing plate 303, the left and right sides of bearing plate 303 It is fixedly connected to sliding panel 302, the bottom end of two sliding panels 302 extends through two through-holes 305 and extends to limit hole 311 Inside, the bottom of two 302 left sides of sliding panel fixation is inlaid with second bearing 306, placed between two sliding panels 302 There is bull stick 308, the outer surface of 308 left and right ends of bull stick is fixedly connected with the inner ring of two second bearings 306 respectively, bull stick 308 Outer surface be fixedly connected with the first guide roller 307, the left end of ultra-thin pipe 401 through limit hole 311 and extends to column 301 Left side, and ultra-thin pipe 401 makes ultra-thin pipe 401 be located at the first conducting wire between the first guide roller 307 and the second guide roller 310 Between wheel 307 and the second guide roller 310, prevent ultra-thin pipe 401 from occurring deviateing or knot.

Further, the left side of column 301 is fixedly connected with mounting plate 209, and the upper surface of mounting plate 209 is fixedly connected with Drawing mould 208, the left end of ultra-thin pipe 401 is through drawing mould 208 and extends to the left side of drawing mould 208, bottom plate 5 it is upper Surface is fixedly connected with the first positioning plate 203 and the second positioning plate 207, and the first positioning plate 203 and the equal position of the second positioning plate 207 In the left side of column 301, the first positioning plate 203 and the fixation of the second positioning plate 207 one side close to each other are inlaid with first Bearing 206 is placed with rotation axis 202, and the appearance at 202 both ends of rotation axis between first positioning plate 203 and the second positioning plate 207 Face is fixedly connected with the inner ring of two first bearings 206 respectively, and the outer surface of rotation axis 202 is fixedly connected with wire-drawing wheel 201, is surpassed Light wall pipe 401 is mutually wound far from drawing mould 208 and one end and the outer surface of wire-drawing wheel 201, and the first positioning plate 203 is fixed far from second The one side of position plate 207 is fixedly connected with rotating electric machine 205, and the output end and rotation axis 202 of rotating electric machine 205 are fixed far from second One end of position plate 207 is fixedly connected, and pulling ultra-thin pipe 401 in 208 inside of drawing mould, quickly movement carries out plastotype, improves work Make efficiency.

Further, the upper surface of bottom plate 5 is fixedly connected with positioning column 103, and positioning column 103 is located at the first positioning plate 203 Left side, the upper surface of positioning column 103 offers through slot 105, and the inside of through slot 105 is placed with pressure ram 106, pressure ram 106 The outer surface of right end is in contact with the outer surface of ultra-thin pipe 401, and the outer surface of pressure ram 106 passes through the second pin shaft 104 and through slot The outer surface of 105 inner wall fixed hinge, 106 left end of pressure ram is fixedly hinged with push-pull rod 102 by the first pin shaft 101, fixed The left side of position column 103 offers sliding slot 108, and the inside of sliding slot 108 is placed with slip ring 110, and the inner roof wall of sliding slot 108 is fixed to be connected It is connected to slide bar 109, and slip ring 110 socket-connects with slide bar 109, the outer surface of 102 bottom end of push-pull rod by third pin shaft 107 and is slided The outer surface fixed hinge of ring 110, the bottom surface of slip ring 110 are fixedly connected with brute spring 111, the bottom end of brute spring 111 with The inner bottom wall of sliding slot 108 is fixedly connected, and avoids ultra-thin pipe 401 from occurring in winding at random, causing to knot influences work progress.

Further, the first positioning plate 203 is fixedly connected with pedestal 204, pedestal far from the one side of the second positioning plate 207 204 upper surface is fixedly connected with the bottom surface of rotating electric machine 205, is kept rotating electric machine 205 easier for installation, is avoided rotating electric machine 205 shake at work, ensure that the normal use of rotating electric machine 205.

Further, the inner bottom wall of annelaing pot 403 is fixedly connected with whole circle coil pipe 416, and the outer surface of coil pipe 416 offers Air inlet 417, the inner wall of each air inlet 417 are fixedly connected to filter screen 415 compatible with air inlet 417, air accumulator The bottom of 419 left sides is fixed to be communicated with connecting tube 411, and connecting tube 411 runs through annelaing pot 403 far from one end of air accumulator 419 Bottom surface and extend to the inside of annelaing pot 403, and the one end of connecting tube 411 far from air accumulator 419 and coil pipe 416 is fixed connects Logical, the outer surface fixation of connecting tube 411 is communicated with the second valve 412, so that 403 inside inert gas of annelaing pot is formed circulation, keeps away Exempting from inert gas stagnation causes to react irregular with workpiece, improves workpiece quality.

Further, the inner wall of cooling cylinder 404 is fixedly connected with downwind plate 418, and downwind plate 418 is in inner concavity, is made lazy Property gas rotates, and improves the uniformity that workpiece is reacted with inert gas.

Further, the right end of pressure ram 106 is in arc-shaped, and discharge nozzle 402 and feed pipe 407 are located at same level, It avoids pressure ram 106 from scratching workpiece, causes workpiece flaw and workpiece fracture occur, improve the safety and stabilization of the device Property.

Working principle: rotating electric machine 205, bearing plate 303 and circulating fan 406 are connected with municipal power supply, when processing Staff opens the first valve 409 and the second valve 412 manually, and circulating fan 406, which is powered, to be started, and makes inside air accumulator 419 Inert gas is formed under the action of escape pipe 405, air inlet pipe 408 and connecting tube 411 and is circulated, will be ultra-thin by staff Pipe 401 is put by cooling cylinder 404 and discharge nozzle 402 from feed pipe 407, and ultra-thin pipe 401 is made to react with inert gas Protective layer is formed, preventing ultra-thin pipe 401 from reacting with dioxygen oxidation ensure that workpiece quality, and electric pushrod 304, which is powered, to be started, and drive Sliding panel 302 and bearing plate 303 decline, and make ultra-thin pipe 401 between the first guide roller 307 and the second guide roller 310, prevent Ultra-thin pipe 401 occurs deviateing or knot, and ultra-thin pipe 401 is carried out plasticity by drawing mould 208 by staff, makes ultra-thin pipe 401 are wrapped on wire-drawing wheel 201, and rotating electric machine 205, which is powered to starting, drives wire-drawing wheel 201 and rotation axis 202 to rotate, and pull ultra-thin Pipe 401 quickly carries out plastotype in 208 inside of drawing mould, improves work efficiency, in slide bar 109, slip ring 110 and brute spring Under the action of 111, makes push-pull rod 102 that pressure ram 106 be pushed to be in contact always with ultra-thin pipe 401, ultra-thin pipe 401 is avoided to wind When occur it is at random, cause knot influence work carry out.

The terms "include", "comprise" or its any other variant are intended to non-row in the description of the present invention, His property includes, so that the process, method, article or equipment for including a series of elements not only includes those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or equipment institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence " including a reference structure ", it is not excluded that wrapping Include in the process, method, article or equipment of the element that there is also other identical elements.It should be noted that herein In, the relational terms of such as " first ", " second " or the like be used merely to by an entity or operation with another entity or Operation distinguishes, without necessarily requiring or implying between these entities or operation there are any this actual relationship or Sequentially.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (9)

1. a kind of ultra-thin pipe burning optimization on line drawing equipment, including bottom plate (5), it is characterised in that: the upper surface of the bottom plate (5) It is fixedly installed with thread depressing mechanism (1), the upper surface of the bottom plate (5) is fixedly installed with rotation drawing mechanism (2), and rotates drawing Mechanism (2) is located at the right side of thread depressing mechanism (1), and the upper surface of the bottom plate (5) is fixedly installed with conducting mechanism (3), and conducting wire Mechanism (3) is located at the right side of rotation drawing mechanism (2), and the upper surface of the bottom plate (5) is fixedly installed with annealing mechanism (4), and Annealing mechanism (4) is located at the right side of conducting mechanism (3)；

The thread depressing mechanism (1) includes the first pin shaft (101), push-pull rod (102), positioning column (103), the second pin shaft (104), leads to Slot (105), pressure ram (106), third pin shaft (107), sliding slot (108), slide bar (109), slip ring (110) and brute spring (111)；

The rotation drawing mechanism (2) include wire-drawing wheel (201), rotation axis (202), the first positioning plate (203), pedestal (204), Rotating electric machine (205), first bearing (206), the second positioning plate (207), drawing mould (208) and mounting plate (209)；

The conducting mechanism (3) includes column (301), sliding panel (302), bearing plate (303), electric pushrod (304), through-hole (305), second bearing (306), the first guide roller (307), bull stick (308), the 4th pin shaft (309), the second guide roller (310) and Limit hole (311)；

The annealing mechanism (4) includes ultra-thin pipe (401), discharge nozzle (402), annelaing pot (403), cooling cylinder (404), escape pipe (405), circulating fan (406), feed pipe (407), air inlet pipe (408), the first valve (409), gas tube (410), connecting tube (411), the second valve (412), support column (413), supporting leg (414), filter screen (415), coil pipe (416), air inlet (417), downwind plate (418) and air accumulator (419).

2. a kind of ultra-thin pipe burning optimization on line drawing equipment according to claim 1, it is characterised in that: the bottom plate (5) Top be placed with annelaing pot (403), four edges of annelaing pot (403) bottom surface are fixedly connected to supporting leg (414), and the bottom surface of supporting leg (414) is fixedly connected with the upper surface of bottom plate (5), and the left side of the annelaing pot (403) is solid Surely it is communicated with discharge nozzle (402), the right side fixation of the annelaing pot (403) is communicated with feed pipe (407), the annelaing pot (403) inner bottom wall is fixedly connected with support column (413), and the upper surface of the support column (413) is fixedly connected with cooling cylinder (404), it is fixedly connected with air accumulator (419) above the bottom plate (5), and air accumulator (419) is located at the one of annelaing pot (403) The lower part fixation of side, air accumulator (419) right side is communicated with gas tube (410), and the upper surface of the annelaing pot (403) is solid Surely it is connected with circulating fan (406), the input terminal fixation of the circulating fan (406) is communicated with air inlet pipe (408), the air inlet Pipe (408) is connected far from the one end of circulating fan (406) with the upper surface of air accumulator (419), and the appearance of air inlet pipe (408) Face fixation is communicated with the first valve (409), and the output end fixation of the circulating fan (406) is communicated with escape pipe (405), described Escape pipe (405) runs through the upper surface of annelaing pot (403) far from the one end of circulating fan (406) and extends to annelaing pot (403) Inside, and escape pipe (405) is connected far from the one end of circulating fan (406) with the upper surface of cooling cylinder (404), it is described into The inside of expects pipe (407) is placed with ultra-thin pipe (401), and the left end of the ultra-thin pipe (401) sequentially passes through cooling cylinder (404) and goes out Expects pipe (402) and the left side for extending to annelaing pot (403).

3. a kind of ultra-thin pipe burning optimization on line drawing equipment according to claim 1, it is characterised in that: the bottom plate (5) Upper surface be fixedly connected with column (301), and column (301) is located at the left side of annelaing pot (403), and the column (301) is right The top of side offers limit hole (311), and the inner sidewall of the limit hole (311) passes through the 4th pin shaft (309) fixed hinge Have the second guide roller (310), the upper surface of the column (301) is opened up there are two symmetrical through-hole (305), the column (301) upper surface is fixedly connected with electric pushrod (304), and the telescopic end of the electric pushrod (304) is fixedly connected with load-bearing The left and right sides of plate (303), the bearing plate (303) are fixedly connected to sliding panel (302), two sliding panels (302) bottom end extends through two through-holes (305) and extends to the inside of limit hole (311), two sliding panels (302) The fixation of the bottom of left side is inlaid with second bearing (306), is placed with bull stick (308) between two sliding panels (302), The outer surface of bull stick (308) left and right ends is fixedly connected with the inner ring of two second bearings (306) respectively, the bull stick (308) outer surface is fixedly connected with the first guide roller (307), and limit hole (311) are run through simultaneously in the left end of the ultra-thin pipe (401) The left side of column (301) is extended to, and ultra-thin pipe (401) is between the first guide roller (307) and the second guide roller (310).

4. a kind of ultra-thin pipe burning optimization on line drawing equipment according to claim 1, it is characterised in that: the column (301) it is fixedly connected on the left of mounting plate (209), the upper surface of the mounting plate (209) is fixedly connected with drawing mould (208), the left end of the ultra-thin pipe (401) runs through drawing mould (208) and extends to the left side of drawing mould (208), described The upper surface of bottom plate (5) is fixedly connected with the first positioning plate (203) and the second positioning plate (207), and the first positioning plate (203) and Second positioning plate (207) is respectively positioned on the left side of column (301), and first positioning plate (203) and the second positioning plate (207) are mutual The fixation of close one side is inlaid with first bearing (206), first positioning plate (203) and the second positioning plate (207) it Between be placed with rotation axis (202), and the outer surface at rotation axis (202) both ends is solid with the inner ring of two first bearings (206) respectively Fixed connection, the outer surface of the rotation axis (202) are fixedly connected with wire-drawing wheel (201), and the ultra-thin pipe (401) is far from drawing die Tool (208) is mutually wound with one end and the outer surface of wire-drawing wheel (201), and first positioning plate (203) is far from the second positioning plate (207) one side is fixedly connected with rotating electric machine (205), and the output end of the rotating electric machine (205) and rotation axis (202) are remote One end from the second positioning plate (207) is fixedly connected.

5. a kind of ultra-thin pipe burning optimization on line drawing equipment according to claim 1, it is characterised in that: the bottom plate (5) Upper surface be fixedly connected with positioning column (103), the positioning column (103) is located at the left side of the first positioning plate (203), described fixed The upper surface of position column (103) offers through slot (105), and the inside of the through slot (105) is placed with pressure ram (106), described to squeeze The outer surface of compression bar (106) right end is in contact with the outer surface of ultra-thin pipe (401), and the outer surface of the pressure ram (106) passes through The outer surface of the inner wall fixed hinge of second pin shaft (104) and through slot (105), pressure ram (106) left end passes through the first pin Axis (101) is fixedly hinged with push-pull rod (102), and the left side of the positioning column (103) offers sliding slot (108), the sliding slot (108) inside is placed with slip ring (110), and the inner roof wall of the sliding slot (108) is fixedly connected with slide bar (109), and slip ring (110) it socket-connects with slide bar (109), the outer surface of push-pull rod (102) bottom end passes through third pin shaft (107) and slip ring (110) bottom surface of outer surface fixed hinge, the slip ring (110) is fixedly connected with brute spring (111), the brute spring (111) bottom end is fixedly connected with the inner bottom wall of sliding slot (108).

6. a kind of ultra-thin pipe burning optimization on line drawing equipment according to claim 1, it is characterised in that: first positioning Plate (203) is fixedly connected with pedestal (204) far from the one side of the second positioning plate (207), the upper surface of the pedestal (204) with The bottom surface of rotating electric machine (205) is fixedly connected.

7. a kind of ultra-thin pipe burning optimization on line drawing equipment according to claim 1, it is characterised in that: the annelaing pot (403) inner bottom wall is fixedly connected with whole circle coil pipe (416), and the outer surface of the coil pipe (416) offers air inlet (417), The inner wall of each air inlet (417) is fixedly connected to and air inlet (417) compatible filter screen (415), the storage The bottom fixation of gas tank (419) left side is communicated with connecting tube (411), and the one of the connecting tube (411) separate air accumulator (419) End runs through the bottom surface of annelaing pot (403) and extends to the inside of annelaing pot (403), and connecting tube (411) is far from air accumulator (419) One end and coil pipe (416) fixation be connected to, the outer surface of the connecting tube (411), which is fixed, is communicated with the second valve (412).

8. a kind of ultra-thin pipe burning optimization on line drawing equipment according to claim 1, it is characterised in that: the cooling cylinder (404) inner wall is fixedly connected with downwind plate (418), and downwind plate (418) is in inner concavity.

9. a kind of ultra-thin pipe burning optimization on line drawing equipment according to claim 1, it is characterised in that: the pressure ram (106) right end is in arc-shaped, and the discharge nozzle (402) and feed pipe (407) are located at same level.