CN112037997A - Full-automatic fire-resistant cable production line - Google Patents

Abstract

The invention provides a full-automatic fire-resistant cable production line which comprises a frame winch and an enamelling machine, wherein a coil mounting structure is arranged on one side of the frame winch, one end of the coil mounting structure is correspondingly connected with the enamelling machine in a transmission mode, a positioning wire arranging structure is arranged at the rear end of the enamelling machine, and one end of the positioning wire arranging structure is correspondingly connected with a winding structure. According to the invention, the coil is more conveniently mounted through the coil mounting structure, and then the cables can be more closely arranged on the winding structure through the positioning winding displacement structure and the winding structure.

Description

Full-automatic fire-resistant cable production line

Technical Field

The invention relates to the technical field of cable production, and mainly relates to a full-automatic fire-resistant cable production line.

Background

The wire and cable is used for transmitting electric (magnetic) energy, information and wire products for realizing electromagnetic energy conversion. Wire and cable in the broad sense, also referred to as cable for short, is insulated cable, which may be defined as an aggregate of one or more insulated cores, and their respective possible coatings, total protective layers and outer jackets, and the cable may have additional conductors without insulation.

The existing cable is produced by putting a plurality of coils on a frame-type strander to rotate correspondingly, so that a plurality of strands of cables are wound into a strand of cable, then an enamelling machine is used for wrapping, and corresponding winding is carried out through a winding wheel.

However, since the width of the reel is large, the cable is not so compact when winding, and a deviation occurs in the winding length per coil.

Disclosure of Invention

The invention provides a full-automatic fire-resistant cable production line which is used for solving the problem that the winding length of each coil is deviated due to the fact that a cable is not compact when winding because the width of a winding wheel is large.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a full-automatic fire-resistant cable production line, includes frame winch and enamelling machine, frame winch one side is equipped with coil mounting structure, coil mounting structure one end corresponds the transmission and connects the enamelling machine, the enamelling machine rear end is equipped with location winding displacement structure, location winding displacement structure one end corresponds connects winding structure.

Further, the coil mounting structure includes first backup pad, be equipped with first spout in the first backup pad, first lead screw is connected to first spout both ends bearing, first lead screw one end is equipped with a driving motor, just first lead screw rotates connects first slide, first slide top is equipped with over-and-under type bearing structure, lift bearing structure one side is equipped with the pneumatic tight structure of clamp, the pneumatic tight structure of clamp corresponds the coupling coil middle part, just first slide one side is equipped with the track groove.

Furthermore, over-and-under type bearing structure includes first cylinder, the connection can be dismantled to first cylinder lower extreme first backup pad, first cylinder upper end can be dismantled and connect the second backup pad, second backup pad top middle part is equipped with second driving motor, second driving motor upper end drive shaft connection third backup pad, third backup pad top is equipped with the fourth backup pad, fourth backup pad one side is equipped with the pneumatic clamping structure.

Furthermore, a groove structure is arranged above the first supporting plate, and the second supporting plate is connected with the groove structure in a sliding mode.

Furthermore, the pneumatic clamping structure comprises a second cylinder, the second cylinder can be disassembled to connect the fourth support plate, one end of the second cylinder can be disassembled to connect the fifth support plate, four second sliding grooves and four second sliding grooves are symmetrically arranged on the fifth support plate, a first pneumatic telescopic rod and four first pneumatic telescopic rods are arranged in the second sliding grooves, one end of each first pneumatic telescopic rod can be disassembled to connect the second sliding plate, the second sliding plate is arranged in a Y-shaped mode, and the second sliding plate extrudes the connecting coil.

Further, location winding displacement structure includes first support frame, first support frame upper end is equipped with the U template, can dismantle two first slide bars of connection, two at U template top both ends first slide bar sliding connection third slide, third slide bilateral symmetry is equipped with two third cylinders, two the connection can be dismantled to the third cylinder the U template, just the first connecting plate can be dismantled and connected at third slide both ends, first connecting plate below is equipped with the third spout, first lead screw is connected to the equal bearing in third spout middle part, first lead screw rotates and connects first slider, first slider below is equipped with two head rods, two all be equipped with first drive wheel on the head rod, just first lead screw one end all is equipped with first rotatory piece.

Further, winding structure includes the second support frame, first wire winding roller is connected to second support frame top bearing, first wire winding roller one end is equipped with a driving motor, a driving motor can dismantle the connection the second support frame, just the first wire winding roller other end is equipped with first skewed tooth dish, be equipped with the third connecting rod on the second support frame, be equipped with first rotation pole on the third connecting rod, the first rotation pole outside is equipped with first spring, the connection swash plate can be dismantled to first rotation pole, the connection can be dismantled to the first spring other end the swash plate.

Compared with the prior art, the invention has the beneficial effects that:

the coil mounting structure is used for mounting the coil without manual carrying, so that the coil can be easily dismounted and mounted by looking for one person at will without influencing production.

Meanwhile, the cables can be arranged on the corresponding winding structures at equal intervals by utilizing the matching of the positioning winding structure and the winding structure, and the corresponding winding structures can be adjusted to only perform corresponding one-way motion, so that the rotation is prevented.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the coil mounting structure of the present invention;

FIG. 3 is a schematic view of the pneumatic clamping arrangement of the present invention;

FIG. 4 is a schematic view of a positioning cable structure according to the present invention;

FIG. 5 is a schematic diagram of a winding structure according to the present invention.

In the figure: 1-frame strander, 2-enameling machine, 3-coil mounting structure, 31-first support plate, 311-groove structure, 32-first sliding chute, 33-first screw rod, 34-first driving motor, 35-first sliding plate, 351-track groove, 36-lifting support structure, 361-first cylinder, 362-second support plate, 363-second driving motor, 364-third support plate, 365-fourth support plate, 37-pneumatic clamping structure, 371-second cylinder, 372-fifth support plate, 373-second sliding chute, 374-first pneumatic telescopic rod, 375-second sliding plate, 4-positioning structure, 41-first support frame, 42-U-shaped plate, 43-first sliding rod, 44-third sliding plate, 45-a third cylinder, 46-a first connecting plate, 461-a third chute, 47-a first screw rod, 48-a first sliding block, 481-a first connecting rod, 482-a first driving wheel, 483-a first rotating block, 5-a winding structure, 51-a second supporting frame, 52-a first winding roller, 53-a first driving motor, 54-a first bevel gear disc, 55-a third connecting rod, 56-a first rotating rod, 561-a first spring and 57-a bevel plate.

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 a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention relates to fig. 1-5, a full-automatic fire-resistant cable production line comprises a frame winch 1 and an enamelling machine 2, wherein a coil mounting structure 3 is arranged on one side of the frame winch 1, one end of the coil mounting structure 3 is correspondingly connected with the enamelling machine 2 in a transmission manner, a positioning flat cable structure 4 is arranged at the rear end of the enamelling machine 2, and one end of the positioning flat cable structure 4 is correspondingly connected with a winding structure 5.

In an embodiment, referring to fig. 1 to 3, the coil mounting structure 3 includes a first support plate 31, a first sliding groove 32 is disposed on the first support plate 31, two ends of the first sliding groove 32 are connected to a first lead screw 33 through bearings, one end of the first lead screw 33 is provided with a first driving motor 34, the first lead screw 33 is rotatably connected to a first sliding plate 35, a lifting support structure 36 is disposed above the first sliding plate 35, a pneumatic clamping structure 37 is disposed on one side of the lifting support structure 36, the pneumatic clamping structure 37 corresponds to a middle portion of a coil, and a track groove 351 is disposed on one side of the first sliding plate 35.

Referring to fig. 1-3, in an embodiment, the lifting support structure 36 includes a first cylinder 361, a lower end of the first cylinder 361 is detachably connected to the first support plate 31, an upper end of the first cylinder 361 is detachably connected to a second support plate 362, a second driving motor 363 is disposed at a middle portion above the second support plate 362, an upper end of the second driving motor 363 is connected to a third support plate 364 through a driving shaft, a fourth support plate 365 is disposed above the third support plate 364, and the pneumatic clamping structure 37 is disposed at one side of the fourth support plate 365.

Referring to fig. 1-3, a groove structure 311 is disposed above the first supporting plate 31, and the second supporting plate 362 is slidably connected to the groove structure 311.

In an embodiment, referring to fig. 1 to 3, the pneumatic clamping structure 37 includes a second cylinder 371, the second cylinder 371 is detachably connected to the fourth supporting plate 365, one end of the second cylinder 371 is detachably connected to a fifth supporting plate 372, four second sliding grooves 373 are symmetrically disposed on the fifth supporting plate 372, a first pneumatic telescopic rod 374 is disposed in each of the four second sliding grooves 373, one end of each of the four first pneumatic telescopic rods 374 is detachably connected to a second sliding plate 375, the second sliding plate 375 is disposed in a similar "Y" shape, and the second sliding plate 375 is connected to a coil in an extruding manner.

Referring to fig. 4, the positioning flat cable structure 4 includes a first supporting frame 41, a U-shaped plate 42 is disposed at an upper end of the first supporting frame 41, two first sliding rods 43 are detachably connected with two ends of the upper part of the U-shaped plate 42, the two first sliding rods 43 are slidably connected with a third sliding plate 44, two third air cylinders 45 are symmetrically arranged on two sides of the third sliding plate 44, the two third air cylinders 45 are detachably connected with the U-shaped plate 42, and both ends of the third sliding plate 44 are detachably connected to the first connecting plate 46, a third sliding slot 461 is arranged below the first connecting plate 46, the middle part of the third sliding slot 461 is connected with a first screw rod 47 through a bearing, the first screw rod 47 is rotationally connected with a first sliding block 48, two first connecting rods 481 are arranged below the first sliding block 48, first driving wheels 482 are arranged on the two first connecting rods 481, and a first rotating block 483 is arranged at one end of each first screw rod 481.

In an embodiment, referring to fig. 5, the winding structure 5 includes a second supporting frame 51, a first winding roller 52 is bearing-connected to a top of the second supporting frame 51, a first driving motor 53 is disposed at one end of the first winding roller 52, the first driving motor 53 is detachably connected to the second supporting frame 51, a first bevel gear 54 is disposed at another end of the first winding roller 52, a third connecting rod 55 is disposed on the second supporting frame 1, a first rotating rod 56 is disposed on the third connecting rod 55, a first spring 561 is disposed on an outer side of the first rotating rod 56, the first rotating rod 56 is detachably connected to a bevel plate 57, another end of the first spring 561 is detachably connected to the bevel plate 57, and one end of the bevel plate 57 is slidably connected to the first bevel gear 54.

The foregoing is merely an illustrative embodiment of the present invention, and any equivalent changes and modifications made by those skilled in the art without departing from the spirit and principle of the present invention should fall within the protection scope of the present invention.

Claims (7)

1. The utility model provides a full-automatic fire-resistant cable production line, includes frame winch (1) and enamelling machine (2), frame winch (1) one side is equipped with coil mounting structure (3), coil mounting structure (3) one end corresponds the transmission and connects enamelling machine (2), enamelling machine (2) rear end is equipped with location winding displacement structure (4), location winding displacement structure (4) one end corresponds and connects winding structure (5).

2. The fully automatic fire-resistant cable production line according to claim 1, wherein: coil mounting structure (3) include first backup pad (31), be equipped with first spout (32) on first backup pad (31), first lead screw (33) is connected to first spout (32) both ends bearing, first lead screw (33) one end is equipped with first driving motor (34), just first lead screw (33) are rotated and are connected first slide (35), first slide (35) top is equipped with over-and-under type bearing structure (36), over-and-under type bearing structure (36) one side is equipped with pneumatic clamping structure (37), pneumatic clamping structure (37) correspond the coupling coil middle part, just first slide (35) one side is equipped with track groove (351).

3. The fully automatic fire-resistant cable production line according to claim 2, characterized in that: over-and-under type bearing structure (36) include first cylinder (361), first cylinder (361) lower extreme can be dismantled and connect first backup pad (31), first cylinder (361) upper end can be dismantled and connect second backup pad (362), second backup pad (362) top middle part is equipped with second driving motor (363), third backup pad (364) is connected to second driving motor (363) upper end drive shaft, third backup pad (364) top is equipped with fourth backup pad (365), fourth backup pad (365) one side is equipped with pneumatic clamping structure (37).

4. The fully automatic fire-resistant cable production line according to claim 3, wherein: first backup pad (31) top is equipped with groove structure (311), just second backup pad (362) sliding connection groove structure (311).

5. The fully automatic fire-resistant cable production line according to claim 3, wherein: pneumatic clamping structure (37) includes second cylinder (371), connection can be dismantled in second cylinder (371) fourth backup pad (365), just connection fifth backup pad (372) can be dismantled to second cylinder (371) one end, the symmetry is equipped with four second spout (373), four in second spout (373) all be equipped with first pneumatic telescopic link (374), four connect second slide plate (375) can be dismantled to first pneumatic telescopic link (374) one end, second slide plate (375) are the setting of type "Y", just second slide plate (375) extrusion connection coil.

6. The fully automatic fire-resistant cable production line according to claim 1, wherein: the positioning wire arranging structure (4) comprises a first supporting frame (41), a U-shaped plate (42) is arranged at the upper end of the first supporting frame (41), two first sliding rods (43) are detachably connected to two ends of the upper portion of the U-shaped plate (42), the two first sliding rods (43) are slidably connected with a third sliding plate (44), two third air cylinders (45) are symmetrically arranged on two sides of the third sliding plate (44), the two third air cylinders (45) are detachably connected with the U-shaped plate (42), two ends of the third sliding plate (44) are detachably connected with a first connecting plate (46), a third sliding chute (461) is arranged below the first connecting plate (46), a first lead screw (47) is connected to the middle portion of the third sliding chute (461) in a bearing mode, the first lead screw (47) is rotatably connected with a first sliding block (48), two first connecting rods (481) are arranged below the first sliding block (48), two all be equipped with first drive wheel (482) on connecting rod (481), just first lead screw (481) one end all is equipped with first rotatory piece (483).

7. The fully automatic fire-resistant cable production line according to claim 1, wherein: the winding structure (5) comprises a second support frame (51), a first winding roller (52) is connected to the upper part of the second support frame (51) in a bearing mode, one end of the first winding roller (52) is provided with a first driving motor (53), the first driving motor (53) is detachably connected with the second supporting frame (51), a first inclined fluted disc (54) is arranged at the other end of the first winding roller (52), a third connecting rod (55) is arranged on the second supporting frame (1), a first rotating rod (56) is arranged on the third connecting rod (55), a first spring (561) is arranged on the outer side of the first rotating rod (56), the first rotating rod (56) is detachably connected with an inclined plate (57), the other end of the first spring (561) is detachably connected with the inclined plate (57), and one end of the inclined plate (57) is connected with the first inclined fluted disc (54) in a sliding way.

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