CN218174190U - Ninety-degree elbow winding machine for numerical control electric melting pipe fitting - Google Patents

Abstract

The utility model discloses a ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting relates to pipe fitting production trade technical field. Including the lathe knife rest, the top of lathe knife rest is connected with the wire winding backup pad, the right-hand member of wire winding backup pad is provided with slow line mechanism, the top of wire winding backup pad is provided with resistance adjustment mechanism, resistance adjustment mechanism's left side is provided with walks line mechanism, the rear end of wire winding backup pad is connected with the lathe tailstock, the inboard of anchor clamps main part all is provided with rotary fixture mechanism. The utility model provides a ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting through setting up resistance adjustment mechanism, like this in production, because of the utility model discloses can act as go-between without the manual work, so only need adjust resistance adjustment mechanism according to the size of the required resistance as required, just can make the product of producing be a stable resistance, the qualification article quantity that the dynamics inequality leads to producing when preventing artifical act as go-between is low, has promoted the efficiency of qualification article production.

Description

Ninety-degree elbow winding machine for numerical control electric melting pipe fitting

Technical Field

The utility model relates to a pipe fitting production industry technical field especially relates to ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting.

Background

The manual lathe has large adjusting range of the rotating speed and the feeding amount of the main shaft, and can process the inner surface, the outer surface, the end surface and the inner thread and the outer thread of a workpiece. The lathe is mainly manually operated by workers, is provided with a turret tool rest or a return tool rest which can be provided with a plurality of tools, can finish a plurality of working procedures by using different tools in sequence by the workers in one-time clamping of workpieces, has low production efficiency, and is suitable for single-piece and small-batch production. The numerical control system of the numerical control lathes GSK988TA and 808D is designed for CNC numerical control of inclined lathe bed numerical control lathes and turning centers, 6 feed shafts can be controlled by the series of numerical control technologies, the lathes are also provided with GSK-Link buses and are linked with servo driving and I/O units, a matched servo motor adopts a high-resolution right-angle encoder to realize 0.1u and m-level position precision, and the lathes simultaneously have X, Y, Z, C, A and B shafts to realize plane milling and eccentric hole and groove processing. The numerical control machine tool has high reliability, high precision and high efficiency, obtains good benefit and realizes multiple purposes and functions.

The manual lathe has the defects of multiple attention aspects, long training time, more consumed raw materials and high overall cost. Workman is tired fast in production, needs copper line and copper post earlier to be fixed in on the mold core, then manual control lathe rotational speed carries out the manual work and pulls the wire winding, when the copper line is pulled in the manual work, along with the time overlength, can have the damage to workman's hand, and the copper line is pulled in the manual work and resistance is not controlled well, if resistance is too high, perhaps crosses lowly, the electric fuse that the injection molding came out like this will be unqualified, so we need the ninety degrees elbow coiling machine of numerical control electric fuse pipe fitting.

In the prior art, two people are needed, and the wiring can be carried out on a small common lathe only after 8 months of on-duty training. The fixed copper line of copper post is inserted to the mold core hole site before the wiring, need control the rotational speed of small lathe pivot when the wiring, and the copper line is dragged to the manual work, comes the wiring distance and the copper line resistance value of control copper line, and the shortcoming of wiring is exactly that manual control speed is inhomogeneous like this, and the inhomogeneous resistance meeting height of exerting oneself when dragging the copper line artificially has the damage to workman's hand when dragging the copper line with the hand, and is high to the material loss during manual production, causes manufacturing cost to rise. After improvement, wiring is carried out on the numerical control lathe, and the advantages that training is not needed, production cost is saved, wiring is not needed manually, and after a program is input into the improved numerical control lathe, a control switch is pressed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting for mention in solving above-mentioned background art in prior art, need artifical two people, need the training month of going on duty just can lay wire at small-size lathe. The fixed copper line of copper post is inserted to the mold core hole site before the wiring, need control the rotational speed of small lathe pivot when the wiring, and the copper line is dragged in the manual work, comes the wiring distance and the copper line resistance value of control copper line, and the shortcoming of wiring just like this is manual control speed inhomogeneous, and the manual work is dragged when the copper line uneven resistance can the height vary hard, has the damage to workman's hand when dragging the copper line with the hand, and is high to the material loss during manual production, causes manufacturing cost to rise. The improved numerical control lathe is wired, and the method has the advantages that training is not needed, production cost is saved, manual wiring is not needed, and after a program is input into the improved numerical control lathe, a control switch is pressed, and the problem is solved.

In order to solve the technical problem, the ninety-degree elbow winding machine for the numerical control electric melting pipe fitting comprises a machine tool knife rest and is characterized in that: the clamp is characterized in that a winding supporting plate is connected to the top end of the machine tool knife rest, a wire buffering mechanism is arranged at the right end of the winding supporting plate, a resistance adjusting mechanism is arranged at the top end of the winding supporting plate, a wire routing mechanism is arranged on the left side of the resistance adjusting mechanism, a machine tool tailstock is connected to the rear end of the winding supporting plate, a wire pressing clamping mechanism is arranged on the outer side of the machine tool tailstock, the left end of the machine tool tailstock is connected with a tailstock umbrella-shaped tip, a mold core is connected to the left end of the tailstock umbrella-shaped tip, a clamp main body is arranged at the left end of the mold core, rotary clamp mechanisms are arranged on the inner side of the clamp main body, a movable joint is connected to the lower end of the clamp main body, a pull arm is connected to the left end of the movable joint, a pull arm rotating shaft is connected to the left end of the pull arm, a guide rail is connected to the inner portion of the clamp main body, a pull rod connecting disc is arranged inside the connecting disc, and a machine tool spindle is connected to the left end of the connecting disc.

Preferably, the mechanism of slowing down the line includes that the line connection piece slows down line slide rail, slip and slow line wheel and fixed slow line wheel, the right-hand member of wire winding backup pad is provided with the line connection piece that slows down, the right-hand member of the line connection piece that slows down is connected with and slows down the line slide rail, the outside swing joint that slows down the line slide rail has the slip and slows down the line wheel, the top that slides and slow the line wheel is provided with fixed slow line wheel.

Preferably, resistance adjustment mechanism is including adjusting connecting block, resistance adjustment slide rail, adjusting block, regulator and stopper, the top of wire winding backup pad is provided with the regulation connecting block, and the right-hand member of adjusting the connecting block is connected with the resistance adjustment slide rail, the upper end of resistance adjustment slide rail is connected with adjusting block, adjusting block's top is installed the regulator, the right-hand member of resistance adjustment slide rail is provided with the stopper.

Preferably, walk the line mechanism including the connecting block of polishing, polish the hole, walk the line connecting block, walk the line pole, lead wheel connecting block and lead wheel, resistance adjustment mechanism's left side is provided with the connecting block of polishing, the front end of the connecting block of polishing is connected with the hole of polishing, the left end of the connecting block of polishing is connected with walks the line connecting block, the top of walking the line connecting block is connected with walks the line pole, the left end of walking the line connecting block is connected with the lead wheel connecting block, the lead wheel is installed on the top of lead wheel connecting block.

Preferably, the line ball clamp mechanism includes fixed go-between, set screw, clamp mount table and line ball clamp, the outside of lathe tailstock is connected with fixed go-between, set screw is installed on the top of fixed go-between, the top of fixed go-between is connected with the clamp mount table, the line ball clamp is installed on the top of clamp mount table.

Preferably, the tailstock umbrella-shaped tip comprises a tailstock connecting groove, the mold core is connected with the tip, the left end of the tailstock of the machine tool is connected with the tailstock connecting groove, and the left end of the tailstock connecting groove is connected with the mold core connecting tip.

Preferably, the rotary fixture mechanism comprises a rotary connecting table, a lower fixture and an upper fixture, the rotary connecting table is arranged on the inner side of the fixture main body, the lower fixture is mounted on the periphery of the rotary connecting table, and the upper fixture is arranged above the lower fixture.

Compared with the prior art, the utility model provides a ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting has following beneficial effect:

the utility model provides a ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting through setting up resistance adjustment mechanism, like this in production, because of the utility model discloses can act as go-between without the manual work, so only need adjust resistance adjustment mechanism according to the size of the required resistance as required, just can make the product of producing be a stable resistance, the qualification article quantity that the dynamics inequality leads to producing when preventing artifical act as go-between is low, has promoted the efficiency of qualification article production.

The utility model provides a ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting is through setting up rotary fixture mechanism, is in like this the utility model discloses combine numerical control lathe to press from both sides tight mold core when using, the screw, the nut, steel sheet frame structure bearing can fix a position and place the mold core to can fix the mold core position and follow the mold core and rotate, and can quick replacement mold core when the wire winding.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the clamp of the present invention;

FIG. 3 is a schematic structural view of the wire buffering mechanism of the present invention;

fig. 4 is a schematic structural view of the resistance adjustment mechanism of the present invention;

FIG. 5 is a schematic view of the wiring mechanism of the present invention;

FIG. 6 is a schematic view of the structure of the wire pressing clamp mechanism of the present invention;

fig. 7 is a schematic structural view of the tailstock umbrella-shaped center of the utility model;

reference numbers in the figures: 1. a machine tool carriage; 2. a winding support plate; 3. a wire-buffering mechanism; 301. a slow line connecting block; 302. a slow line slide rail; 303. a sliding wire buffer wheel; 304. fixing the wire slowing wheel; 4. a resistance adjustment mechanism; 401. adjusting the connecting block; 402. a resistance adjustment slide rail; 403. adjusting the sliding block; 404. a regulator; 405. a limiting block; 5. a routing mechanism; 501. polishing the connecting block; 502. grinding the hole; 503. a wiring connecting block; 504. a wire feeding rod; 505. a wire guide wheel connecting block; 506. a wire guide wheel; 6. a machine tool tailstock; 7. a wire pressing clamp mechanism; 701. fixing a connecting ring; 702. a set screw; 703. a clamp mounting table; 704. pressing a wire clamp; 8. a tailstock umbrella-shaped tip; 801. a tailstock connecting groove; 802. the die core is connected with the tip; 9. a mold core; 10. a clamp body; 11. a rotary clamp mechanism; 1101. a rotary connection table; 1102. a lower clamp; 1103. an upper clamp; 12. a movable joint; 13. pulling the arm; 14. a pull arm rotating shaft; 15. a guide rail; 16. connecting the disc; 17. a pull rod; 18. a machine tool spindle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Embodiment one, given by fig. 1-7, the utility model discloses a machine tool rest 1, machine tool rest 1's top is connected with wire winding backup pad 2, wire winding backup pad 2's right-hand member is provided with slow line mechanism 3, wire winding backup pad 2's top is provided with resistance adjustment mechanism 4, resistance adjustment mechanism 4's left side is provided with walks line mechanism 5, wire winding backup pad 2's rear end is connected with machine tool tailstock 6, machine tool tailstock 6's the outside is provided with line ball clamp mechanism 7, machine tool tailstock 6's left end is connected with tailstock umbelliform top 8, tailstock umbelliform top 8's left end is connected with mold core 9, mold core 9's left end is provided with anchor clamps main part 10, the inboard of anchor clamps main part 10 all is provided with rotary fixture mechanism 11, the lower extreme of anchor clamps main part 10 is connected with union 12, union 12's left side is connected with arm 13, arm 13's left end is connected with arm pivot 14, anchor clamps main part 10's internal connection has guide rail 15, anchor clamps main part 10's left end is connected with connection pad 16, connection pad 16's inside is provided with pull rod 17, the left end is connected with machine tool spindle 18.

The embodiment two, slow line mechanism 3 is including slowing line connecting block 301, slowing line slide rail 302, the line wheel 303 and fixed slow line wheel 304 slowly in sliding, and the right-hand member of wire winding backup pad 2 is provided with slow line connecting block 301, and the right-hand member that slows line connecting block 301 is connected with and delays line slide rail 302, and the outside swing joint that slows line slide rail 302 has the line wheel 303 that slows in sliding, and the top that the line wheel 303 is slowed in sliding is provided with fixed slow line wheel 304, is in like this the utility model provides an in the wire winding process, can play the effect of a buffering to the copper line when winding through adjusting the line wheel 303 that slows in sliding, the copper line leads to the cracked condition to appearing too straightly when preventing wire winding, promotes the wire winding stationarity at the wire winding in-process.

Third embodiment, resistance adjustment mechanism 4 is including adjusting connecting block 401, resistance adjustment slide rail 402, adjust the slider 403, regulator 404 and stopper 405, the top of wire winding backup pad 2 is provided with adjusts connecting block 401, the right-hand member of adjusting connecting block 401 is connected with resistance adjustment slide rail 402, the upper end of resistance adjustment slide rail 402 is connected with adjust the slider 403, regulator 404 is installed on the top of adjust the slider 403, the right-hand member of resistance adjustment slide rail 402 is provided with stopper 405, like this in production, because the utility model discloses can need not the manual work and act as go-between, so only need adjust resistance adjustment mechanism according to the size of the required resistance as required, just can make the product of producing be a stable resistance, the non-uniform dynamics leads to the certified products of producing in quantity low when preventing artifical act as go-between, has promoted the efficiency of certified products production.

Fourth embodiment, walk line mechanism 5 including the connecting block 501 of polishing, the hole 502 of polishing, walk line connecting block 503, walk line pole 504, wire wheel connecting block 505 and wire wheel 506, resistance adjusting mechanism 4's left side is provided with the connecting block 501 of polishing, the front end of the connecting block 501 of polishing is connected with the hole 502 of polishing, the left end of the connecting block 501 of polishing is connected with and walks line connecting block 503, the top of walking line connecting block 503 is connected with wire wheel connecting block 504, the left end of walking line connecting block 503 is connected with wire wheel connecting block 505, wire wheel 506 is installed on the top of wire wheel connecting block 505, this mechanism can carry out certain removal adjustment along with the turned position of copper line when winding like this, the copper line is dragged at same position always when can preventing to wind like this, thereby the cracked condition of friction appears.

The fifth embodiment, the wire pressing clamp mechanism 7 includes a fixed connection ring 701, a fixing screw 702, a clamp installation table 703 and a wire pressing clamp 704, the fixed connection ring 701 is connected to the outer side of the machine tool tailstock 6, the fixing screw 702 is installed on the top end of the fixed connection ring 701, the clamp installation table 703 is connected to the top end of the fixed connection ring 701, the wire pressing clamp 704 is installed on the top end of the clamp installation table 703, in the production debugging process, a product is produced to be capable of being connected and tested with the mechanism at the first time, the qualification of the product is detected, the condition that parameters are not well adjusted when the product is produced is prevented, and the unqualified condition of large-batch products is caused.

Sixth embodiment, the umbrella top 8 of tailstock includes tailstock connecting groove 801, and top 802 is connected to the mold core, and the left end of lathe tailstock 6 is connected with tailstock connecting groove 801, and the left end of tailstock connecting groove 801 is connected with top 802 is connected to the mold core, like this when needing to be changed the mold core, directly withdraws from this mechanism, then connects to change, better later fixes on pushing up, can make things convenient for the change of mold core, improves the speed of changing the mold core.

Seventh embodiment, the rotary clamp mechanism 11 includes swivelling joint platform 1101, lower anchor clamps 1102 and goes up anchor clamps 1103, and the inboard of anchor clamps main part 10 all is provided with swivelling joint platform 1101, and all install down anchor clamps 1102 around swivelling joint platform 1101, and the top of lower anchor clamps 1102 is provided with anchor clamps 1103, is in like this the utility model discloses combine numerical control lathe to press from both sides tight mold core, screw, nut, steel sheet frame structure bearing when using, can fix a position and place the mold core to can fix a position and follow the mold core rotation, and can quick replacement the mold core of different models when wire winding.

The working principle is as follows: to ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting, at first install the device in the place that needs to use, then switch on external power supply, install the mold core to rotary fixture mechanism 11 afterwards, the umbrella-shaped top 8 of top tailstock carries out spacing fixed, adjust slow line mechanism 3 afterwards and carry out certain buffering when the wire winding, adjust resistance adjustment mechanism 4 according to required requirement afterwards and make the product resistance of producing unanimous, then let the copper line can evenly wind on the mold core through walking line mechanism 5, at last when carrying out the production debugging, use line ball clamp mechanism 7 to in time detect the product, the use of ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting has been accomplished like this.

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

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Ninety degrees elbow coiling machine of numerical control electric smelting pipe fitting, including lathe knife rest (1), its characterized in that: the top end of the machine tool knife rest (1) is connected with a winding support plate (2), the right end of the winding supporting plate (2) is provided with a wire buffering mechanism (3), the top end of the winding supporting plate (2) is provided with a resistance adjusting mechanism (4), a wiring mechanism (5) is arranged on the left side of the resistance adjusting mechanism (4), the rear end of the winding support plate (2) is connected with a machine tool tailstock (6), a wire pressing clamp mechanism (7) is arranged on the outer side of the machine tool tailstock (6), the left end of the tailstock (6) of the machine tool is connected with a tailstock umbrella-shaped tip (8), the left end of the tailstock umbrella-shaped tip (8) is connected with a mold core (9), the left end of the mold core (9) is provided with a clamp main body (10), the inner sides of the clamp main bodies (10) are provided with rotary clamp mechanisms (11), the lower end of the clamp main body (10) is connected with a movable joint (12), the left side of the movable joint (12) is connected with a pull arm (13), the left end of the pull arm (13) is connected with a pull arm rotating shaft (14), the interior of the clamp main body (10) is connected with a guide rail (15), the left end of the clamp main body (10) is connected with a connecting disc (16), a pull rod (17) is arranged inside the connecting disc (16), and the left end of the connecting disc (16) is connected with a machine tool spindle (18).

2. The ninety-degree elbow winding machine for the numerical control electric melting pipe fittings according to claim 1, wherein the wire buffering mechanism (3) comprises a wire buffering connecting block (301), a wire buffering sliding rail (302), a sliding wire buffering wheel (303) and a fixed wire buffering wheel (304), the wire buffering connecting block (301) is arranged at the right end of the winding supporting plate (2), the wire buffering sliding rail (302) is connected to the right end of the wire buffering connecting block (301), the sliding wire buffering wheel (303) is movably connected to the outer side of the wire buffering sliding rail (302), and the fixed wire buffering wheel (304) is arranged above the sliding wire buffering wheel (303).

3. The ninety-degree elbow winding machine for the numerical control electric melting pipe fittings according to claim 1, wherein the resistance adjusting mechanism (4) comprises an adjusting connecting block (401), a resistance adjusting slide rail (402), an adjusting slide block (403), an adjuster (404) and a limiting block (405), the adjusting connecting block (401) is arranged at the top end of the winding supporting plate (2), the resistance adjusting slide rail (402) is connected to the right end of the adjusting connecting block (401), the adjusting slide block (403) is connected to the upper end of the resistance adjusting slide rail (402), the adjuster (404) is installed at the top end of the adjusting slide block (403), and the limiting block (405) is arranged at the right end of the resistance adjusting slide rail (402).

4. The ninety-degree elbow winding machine for the numerical control electric smelting pipe fitting according to claim 1, wherein the wiring mechanism (5) comprises a grinding connecting block (501), a grinding hole (502), a wiring connecting block (503), a wiring rod (504), a wiring wheel connecting block (505) and a wiring wheel (506), the grinding connecting block (501) is arranged on the left side of the resistance adjusting mechanism (4), the grinding hole (502) is connected to the front end of the grinding connecting block (501), the wiring connecting block (503) is connected to the left end of the grinding connecting block (501), the wiring rod (504) is connected to the top end of the wiring connecting block (503), the wiring wheel connecting block (505) is connected to the left end of the wiring connecting block (503), and the wiring wheel (506) is installed on the top end of the wiring wheel connecting block (505).

5. The ninety-degree elbow winding machine for the numerical control electric melting pipe fittings according to claim 1, wherein the wire pressing clamp mechanism (7) comprises a fixed connecting ring (701), a fixed screw (702), a clamp mounting table (703) and a wire pressing clamp (704), the fixed connecting ring (701) is connected to the outer side of the tailstock (6) of the machine tool, the fixed screw (702) is mounted at the top end of the fixed connecting ring (701), the clamp mounting table (703) is connected to the top end of the fixed connecting ring (701), and the wire pressing clamp (704) is mounted at the top end of the clamp mounting table (703).

6. The ninety-degree elbow winding machine for the numerical control electric melting pipe fitting according to claim 1, wherein the tailstock umbrella-shaped tip (8) comprises a tailstock connecting groove (801), a core connecting tip (802), the left end of the tailstock (6) of the machine tool is connected with the tailstock connecting groove (801), and the left end of the tailstock connecting groove (801) is connected with the core connecting tip (802).

7. The ninety-degree elbow winding machine for the numerical control electric melting pipe fittings according to claim 1, wherein the rotating clamp mechanism (11) comprises a rotating connection table (1101), a lower clamp (1102) and an upper clamp (1103), the rotating connection table (1101) is arranged on the inner side of the clamp main body (10), the lower clamp (1102) is arranged on the periphery of the rotating connection table (1101), and the upper clamp (1103) is arranged above the lower clamp (1102).

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