CN221063975U - A wire drawing double-deck pay-off rack for regular wire rod reel formula - Google Patents

Abstract

The utility model provides a wire-drawing double-layer wire collecting frame for regular wire winding, which comprises an upper shell, wherein the upper shell is of a circular columnar structure; a round hole which is penetrated up and down is formed above the upper shell, and a wire rod is penetrated in the round hole; a circular limiting hole is formed in the bottom of the upper-level shell, a rotating disc is rotatably arranged in the circular limiting hole, a paying-off shell is fixedly arranged on the rotating disc, a wire inlet and a wire outlet are formed in the paying-off shell, a paying-off mechanism is arranged in the paying-off shell, and wires are arranged in the paying-off mechanism in a penetrating mode; after the wire rod is conveyed from the transmission wheel, the wire rod passes through the paying-off shell body again, so that the wire rod can fall into the first gap in a spiral mode, in the process, the upper outer baffle plate and the upper inner baffle plate are arranged, the wire rod can not be wound when falling into the first gap, and only the wire rod can be vertically arranged, and therefore the purpose of improving the attractiveness is achieved when the wire rod is conveniently controlled to be coiled.

Description

A wire drawing double-deck pay-off rack for regular wire rod reel formula

Technical Field

The utility model relates to the technical field of wire winding devices, in particular to a wire-drawing double-layer wire collecting frame for regular wire winding.

Background

At present, most of the wire rods are coiled and supplied by a coiled material machine through a rotating structure, copper, aluminum, wires and other materials which are supplied in the same form are also commonly called wire rods, the wire rods are one of steel products with large consumption, the wire rods can be directly used for reinforcing bars and welding structural members of reinforced concrete after rolling, and the wire rods can also be reprocessed for use, for example, by drawing steel wires with various specifications, twisting into steel wires, braiding into steel wire meshes, winding, forming and heat treating into springs, and by hot and cold forging into rivets or cold forging, rolling into bolts, screws and the like, and cutting into heat treating into mechanical parts or tools and the like.

The existing wire collecting frame is only provided with an inner diameter limiting structure, after wire collecting is completed, the outer diameters of coiled wires are not uniform, the outer diameters of the coiled wires are easy to be large and small, and the quality of the finished product impression of the coiled wires is affected.

Disclosure of utility model

The utility model aims to provide a wire drawing double-layer wire collecting frame for regular wire winding, and aims to solve the problem that the outer diameter of a coiled wire in the prior art is not easy to control.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the double-layer wire drawing take-up rack for the regular wire winding comprises an upper shell, wherein the upper shell is of a round columnar structure;

a round hole which is penetrated up and down is formed above the upper shell, and a wire rod is penetrated in the round hole;

the bottom of the upper shell is provided with a circular limiting hole, the inside of the circular limiting hole is rotationally provided with a rotating disc, a paying-off shell is fixedly arranged on the rotating disc, a wire inlet and a wire outlet are formed in the paying-off shell, a paying-off mechanism is arranged in the paying-off shell, wires are arranged in the paying-off mechanism in a penetrating mode, and the paying-off mechanism is used for penetrating the wires out of the paying-off shell;

An upper inner baffle and an upper outer baffle are arranged below the upper shell, a lower inner baffle and a lower outer baffle are respectively clamped below the upper inner baffle and the upper outer baffle, and a bottom plate is fixedly arranged at the lower ends of the lower inner baffle and the lower outer baffle;

The upper inner baffle, the upper outer baffle and the paying-off mechanism are matched with each other to enable the wire rod to spirally fall on the bottom plate.

Preferably, a first driving device is arranged in the paying-off shell;

The inside of the paying-off shell is provided with a fixed cavity, the paying-off shell is provided with a threading hole, the threading hole is communicated with the fixed cavity, and a wire rod is arranged in the threading hole in a penetrating way;

The paying-off mechanism comprises an upper-stage extrusion wheel fixedly arranged on an output shaft of the first driving device and a lower-stage extrusion wheel rotatably arranged in the fixed cavity, the upper-stage extrusion wheel and the lower-stage extrusion wheel are positioned on two sides of the threading hole, and the first driving device is fixedly arranged in the fixed cavity;

the wire rod contacts with the upper-stage extrusion wheel and the lower-stage extrusion wheel, and the upper-stage extrusion wheel and the lower-stage extrusion wheel are mutually matched and driven by the first driving device to convey the wire rod.

Preferably, the upper shell is fixedly provided with a ring frame, and the bottom of the ring frame is fixedly provided with four supporting vertical rods distributed circumferentially;

The bottom of the rotating disc is provided with a third driving device, an output shaft of the third driving device is fixedly connected with the rotating disc, the lower end of the third driving device is fixedly provided with a fixed disc, and the fixed disc is a circular plate-shaped mechanism.

Preferably, the upper outer baffle is of an annular structure, the upper end of the upper inner baffle is fixedly connected with the bottom of the fixed disc, the upper outer baffle is arranged on the outer side of the upper inner baffle in a surrounding mode, a first gap is formed between the upper outer baffle and the upper inner baffle, and the upper outer baffle and the upper inner baffle are matched with each other to enable wires to slide downwards along the first gap;

the upper end of the upper outer baffle is fixedly provided with a first annular plate with a conical surface structure, the upper end of the upper inner baffle is fixedly provided with a second annular plate with a conical surface structure, and the first annular plate and the second annular plate are mutually matched to be used for expanding an inlet, so that wires can conveniently enter the first gap.

Preferably, the lower outer baffle is of an annular structure, the lower end of the lower inner baffle is fixedly connected with the upper end of the bottom plate, the lower outer baffle is arranged on the outer side of the lower inner baffle in a surrounding mode, a second gap is formed between the lower outer baffle and the lower inner baffle, and the lower outer baffle and the lower inner baffle are matched with each other to enable wires to be vertically arranged in the second gap.

Preferably, four arc grooves with downward openings are respectively formed below the upper outer baffle and the upper inner baffle, four turnover plates are rotatably arranged at the upper end of the lower outer baffle through damping hinges, and the turnover plates are inserted into the arc grooves on the upper outer baffle;

The top of the lower-stage inner baffle is fixedly provided with an arc plate, the arc plate corresponds to the arc groove on the upper-stage inner baffle up and down, and the arc plate is inserted into the arc groove on the upper-stage inner baffle;

Four limit grooves are formed in the circumferential side of the upper outer baffle, the limit grooves are communicated with the arc grooves in the upper outer baffle, round holes are formed in the overturning plate and correspond to the limit grooves in the upper outer baffle one by one, studs are connected to the internal threads of the round holes, and nuts are connected to the studs in a threaded mode.

The beneficial effects are that: 1. after the wire rod is conveyed from the transmission wheel, the wire rod passes through the paying-off shell body again, so that the wire rod can fall into the first gap in a spiral mode, in the process, the upper outer baffle plate and the upper inner baffle plate are arranged, the wire rod can not be wound when falling into the first gap, and only the wire rod can be vertically arranged, and therefore the purpose of improving the attractiveness is achieved when the wire rod is conveniently controlled to be coiled.

2. The arrangement of the lower outer baffle and the lower inner baffle makes wires uniformly arranged on the bottom plate, and then the studs are screwed off sequentially, so that the lower outer baffle can be detached from the upper outer baffle for use, and the arrangement of the turnover plate can be inserted into the circular arc groove to enable the lower outer baffle and the upper outer baffle to be connected with each other, and the turnover plate can be rotated to limit the wires and cooperate with the lower outer baffle to facilitate movement.

Drawings

FIG. 1 is a schematic rear perspective view of an embodiment of the present utility model;

FIG. 2 is a schematic diagram of an upper outer baffle and a lower outer baffle in an embodiment of the present utility model in a top-bottom snap-in manner;

FIG. 3 is a schematic view of the upper shell in partial cross-section in an embodiment of the utility model;

Fig. 4 is a schematic structural view of a lower limit assembly according to an embodiment of the present utility model.

In the figure: 1. an upper shell; 2. a rotating disc; 3. paying-off shell; 4. a wire rod; 5. a bottom plate; 6. a superior extrusion wheel; 7. a lower extrusion wheel; 8. a ring frame; 9. a supporting vertical rod; 10. a third driving device; 11. an upper outer baffle; 12. a fixed plate; 13. an upper inner baffle; 14. a lower inner baffle; 15. a lower outer baffle; 16. a turnover plate; 17. a hanging plate; 18. and a driving wheel.

Detailed Description

The following describes the embodiments of the present utility model further with reference to the drawings.

As shown in fig. 1-4, a wire drawing double-layer wire collecting frame for regular wire winding is provided, after the wire 4 is conveyed out of the driving wheel 18, the wire 4 can spirally fall onto the bottom plate 5 through a wire releasing mechanism, and specifically, the wire drawing double-layer wire collecting frame comprises an upper-stage shell 1, wherein the upper-stage shell 1 is of a circular columnar structure.

The upper part of the upper shell 1 is provided with an up-down through round hole, wires 4 are penetrated in the round hole, and the round hole is used for inserting the wires 4 conveyed by the driving wheel 18 into the paying-off shell 3 through the round hole so as to uniformly arrange the wires 4.

The bottom of superior casing 1 has seted up circular spacing hole, the inside rotation in circular spacing hole is equipped with rolling disc 2, the fixed unwrapping wire casing 3 that is equipped with on the rolling disc 2, set up incoming line and outlet on the unwrapping wire casing 3, the inside of unwrapping wire casing 3 is equipped with unwrapping wire mechanism, wire rod 4 wears to establish in unwrapping wire mechanism, unwrapping wire mechanism is used for wearing out unwrapping wire casing 3 with wire rod 4, when wire rod 4 passes unwrapping wire casing 3, then get into from the incoming line on the unwrapping wire casing 3, later pass from between the unwrapping wire mechanism, and under unwrapping wire mechanism's drive, make wire rod 4 wear out from the outlet.

The paying-off mechanism drives the wire rod 4 to pass through the wire outlet, so that the wire rod 4 is convenient to fall into the first gap and is convenient to arrange, and specifically, a first driving device (the first driving device is a first driving motor) is arranged in the paying-off shell 3.

The inside of unwrapping wire casing 3 is equipped with fixed chamber, has seted up the through wires hole on the unwrapping wire casing 3, and the through wires hole communicates with each other with fixed chamber, and wire rod 4 wears to establish in the through wires hole.

The paying-off mechanism comprises an upper extrusion wheel 6 fixedly arranged on an output shaft of a first driving device and a lower extrusion wheel 7 rotatably arranged in a fixed cavity, the upper extrusion wheel 6 and the lower extrusion wheel 7 are positioned on two sides of a threading hole, the first driving device is fixedly arranged in the fixed cavity and is controlled to be started, the first driving device drives the upper extrusion wheel 6 to rotate, and the upper extrusion wheel 6 pushes a wire 4 along the threading hole when rotating.

Wire rod 4 and upper extrusion wheel 6 and lower extrusion wheel 7 contact to all be equipped with the lug granule on upper extrusion wheel 6 and the lower extrusion wheel 7, make can increase frictional force, be convenient for promote wire rod 4 and remove, upper extrusion wheel 6 and lower extrusion wheel 7 mutually support and carry wire rod 4 under first drive arrangement's drive, under the effect of upper extrusion wheel 6 and lower extrusion wheel 7, make wire rod 4 to carry downwards.

Wire rod 4 is in falling into first space and second space, can carry out spacing to wire rod 4, avoid appearing the winding condition of wire rod 4, specifically, the below of upper casing 1 is equipped with upper inner baffle 13 and upper outer baffle 11, upper inner baffle 13 and upper outer baffle 11's below joint respectively has lower inner baffle 14 and lower outer baffle 15, lower inner baffle 14 and lower outer baffle 15's lower extreme is fixed and is equipped with bottom plate 5, because upper inner baffle 13 and lower inner baffle 14 and upper outer baffle 11 and lower outer baffle 15 correspond each other from top to bottom, so the interval that makes first space and second space also be the same, make first space and second space can only pass through a wire rod 4, can make wire rod 4 can not appear the winding condition like this.

The upper inner baffle 13, the upper outer baffle 11 and the paying-off mechanism are mutually matched to enable the wire 4 to spirally fall on the bottom plate 5, and the paying-off mechanism rotates and conveys the wire 4, so that the wire 4 spirally falls.

The lower outer baffle 15 is of an annular structure, the lower end of the lower inner baffle 14 is fixedly connected with the upper end of the bottom plate 5, the lower outer baffle 15 is arranged on the outer side of the lower inner baffle 14 in a surrounding mode, a second gap is formed between the lower outer baffle 15 and the lower inner baffle 14, and the lower outer baffle 15 and the lower inner baffle 14 are matched with each other to enable the wires 4 to be vertically arranged in the second gap.

The unwrapping wire casing 3 can rotate the limit and unwrap wire, can make wire rod 4 be the heliciform like this, specifically is, is fixed on superior casing 1 to be equipped with ring frame 8, and the bottom of ring frame 8 is fixed to be equipped with four circumference distribution's support montant 9, and ring frame 8 and support montant 9 can make superior outer baffle 11 have the fixed source, can not appear the condition that drops.

The bottom of the rotating disc 2 is provided with a third driving device 10 (the third driving device 10 is a third driving servo motor), an output shaft of the third driving device 10 is fixedly connected with the rotating disc 2, a fixed disc 12 is fixedly arranged at the lower end of the third driving device 10, the fixed disc 12 is a circular plate-shaped mechanism, the third driving device 10 is controlled to start, the third driving device 10 drives the rotating disc 2 to rotate, and the paying-off shell 3 can be driven to rotate due to the fact that the paying-off shell 3 is fixedly arranged on the rotating disc 2, and when the paying-off shell rotates, the wire 4 cannot be wound.

The upper outer baffle 11 is of an annular structure, the upper end of the upper inner baffle 13 is fixedly connected with the bottom of the fixed disc 12, the upper outer baffle 11 is arranged on the outer side of the upper inner baffle 13 in a surrounding mode, a first gap is formed between the upper outer baffle 11 and the upper inner baffle 13, and the upper outer baffle 11 and the upper inner baffle 13 are matched with each other to enable the wire 4 to slide downwards along the first gap.

And before wire rod 4 falls into first space, through first annular plate and second annular plate, can make the entry enlarge, be convenient for wire rod 4 fall into, specifically, the fixed first annular plate that is equipped with the conical surface structure of upper end of upper outer baffle 11, the fixed second annular plate that is equipped with the conical surface structure of upper inner baffle 13's upper end, first annular plate and second annular plate mutually support and are used for enlarging the entry, in the wire rod 4 entering first space of being convenient for.

The lower outer baffle 15 can be detached from the upper outer baffle 11, specifically, four arc grooves with downward openings are respectively formed below the upper outer baffle 11 and the upper inner baffle 13, four turnover plates 16 are rotatably arranged at the upper end of the lower outer baffle 15 through damping hinges, after wire winding is completed, studs are loosened, the turnover plates 16 are separated from the upper outer baffle 11, and then the damping hinges can be used for rotating, so that the wire 4 is limited under the cooperation of the turnover plates 16 and the lower outer baffle 15, movement is facilitated, the turnover plates 16 are inserted into the arc grooves on the upper outer baffle 11, when the wire winding is required, the lower outer baffle 15 and the upper outer baffle 11 are clamped, the turnover plates 16 can be rotated first, then the turnover plates 16 are inserted into the arc grooves on the upper outer baffle 11, and finally the studs are screwed into the limiting grooves, so that the upper outer baffle 11 and the lower outer baffle 15 are locked.

The top of the lower-stage inner baffle 14 is fixedly provided with an arc plate, the arc plate corresponds to the arc groove on the upper-stage inner baffle 13 up and down, the arc plate is inserted into the arc groove on the upper-stage inner baffle 13, and the arc plate is inserted into the arc groove on the upper-stage outer baffle 11 while the arc plate 16 is inserted into the arc groove on the upper-stage inner baffle 13, so that the upper-stage inner baffle 13 cannot rotate, and the third driving device 10 is driven to not rotate.

Four limit grooves are formed in the circumferential side of the upper outer baffle 11, the limit grooves are communicated with the circular arc grooves in the upper outer baffle 11, round holes are formed in the turnover plate 16, the round holes correspond to the limit grooves in the upper outer baffle 11 one by one, studs are connected to the inner threads of the round holes, nuts are connected to the studs in a threaded mode, after the turnover plate 16 is inserted into the circular arc grooves in the upper outer baffle 11, the studs can be screwed into the limit grooves and penetrate through the round holes, and the upper outer baffle 11 and the lower outer baffle 15 are connected with each other.

A hanging plate 17 is arranged above the upper shell 1, the hanging plate 17 is fixedly arranged on the equipment, and a transmission mechanism is arranged at the rear side of the hanging plate 17 and used for transmitting the wires 4.

The transfer mechanism comprises a plurality of driving wheels 18 rotatably arranged on the suspension plate 17, and the wire 4 can be conveyed into the paying-off mechanism through the driving wheels 18.

Working principle: when the wire winding device is used, when the wire winding is needed, the lower outer baffle 15 is clamped with the upper outer baffle 11, the turnover plate 16 can be rotated first, then the turnover plate 16 is inserted into the circular arc groove on the upper outer baffle 11, finally the stud is screwed into the limit groove, so that the upper outer baffle 11 and the lower outer baffle 15 are locked, and after the turnover plate 16 is inserted into the circular arc groove on the upper outer baffle 11, the stud can be screwed into the limit groove and penetrates through the circular hole, and the upper outer baffle 11 and the lower outer baffle 15 are connected with each other.

The wire 4 can be conveyed into the paying-off mechanism through the driving wheel 18, when the wire 4 passes through the paying-off shell 3, the wire enters from a wire inlet on the paying-off shell 3, then passes through the paying-off mechanism, and the wire 4 passes out from the wire outlet under the driving of the paying-off mechanism; the first driving device is controlled to start, the first driving device drives the upper extrusion wheel 6 to rotate, and the upper extrusion wheel 6 pushes the wire 4 along the threading hole when rotating.

The third driving device 10 is controlled to start, the third driving device 10 drives the rotating disc 2 to rotate, and the paying-off shell 3 can be driven to rotate because the paying-off shell 3 is fixedly arranged on the rotating disc 2, so that the wire 4 cannot be wound during rotation.

The upper inner baffle 13 and the lower inner baffle 14 and the upper outer baffle 11 and the lower outer baffle 15 are vertically corresponding to each other, so that the intervals of the first gap and the second gap are the same, the first gap and the second gap can only pass through one wire 4, and the wire 4 spirally falls on the bottom plate 5.

After the wire winding is completed, the studs are loosened, the overturning plate 16 is separated from the upper outer baffle 11, and then the wire 4 can be limited under the cooperation of the overturning plate 16 and the lower outer baffle 15 by rotating through the damping hinge, so that the wire is convenient to move.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The double-layer wire drawing take-up rack for the regular wire winding is characterized by comprising an upper shell (1), wherein the upper shell (1) is of a circular columnar structure;

a round hole which is through up and down is arranged above the upper-level shell (1), and a wire (4) is penetrated in the round hole;

The bottom of the upper shell (1) is provided with a circular limiting hole, the inside of the circular limiting hole is rotationally provided with a rotating disc (2), a paying-off shell (3) is fixedly arranged on the rotating disc (2), a wire inlet and a wire outlet are formed in the paying-off shell (3), a paying-off mechanism is arranged in the paying-off shell (3), a wire (4) is arranged in the paying-off mechanism in a penetrating mode, and the paying-off mechanism is used for penetrating the wire (4) out of the paying-off shell (3);

An upper inner baffle (13) and an upper outer baffle (11) are arranged below the upper shell (1), a lower inner baffle (14) and a lower outer baffle (15) are respectively clamped below the upper inner baffle (13) and the upper outer baffle (11), and a bottom plate (5) is fixedly arranged at the lower ends of the lower inner baffle (14) and the lower outer baffle (15);

The upper inner baffle (13), the upper outer baffle (11) and the paying-off mechanism are matched with each other to enable the wire (4) to spirally fall on the bottom plate (5).

2. A wire drawing double-layer take-up stand for regular wire winding according to claim 1, characterized in that the interior of the pay-off housing (3) is provided with a first driving means;

A fixed cavity is arranged in the paying-off shell (3), a threading hole is formed in the paying-off shell (3), the threading hole is communicated with the fixed cavity, and a wire rod (4) is arranged in the threading hole in a penetrating mode;

The paying-off mechanism comprises an upper-stage extrusion wheel (6) fixedly arranged on an output shaft of the first driving device and a lower-stage extrusion wheel (7) rotatably arranged in the fixed cavity, the upper-stage extrusion wheel (6) and the lower-stage extrusion wheel (7) are positioned on two sides of the threading hole, and the first driving device is fixedly arranged in the fixed cavity;

the wire rod (4) is contacted with the upper-stage extrusion wheel (6) and the lower-stage extrusion wheel (7), and the upper-stage extrusion wheel (6) and the lower-stage extrusion wheel (7) are mutually matched and driven by the first driving device to convey the wire rod (4).

3. The double-layer wire drawing collecting frame for the regular wire winding according to claim 1, wherein a ring frame (8) is fixedly arranged on the upper shell (1), and four supporting vertical rods (9) which are circumferentially distributed are fixedly arranged at the bottom of the ring frame (8);

The bottom of the rotating disc (2) is provided with a third driving device (10), an output shaft of the third driving device (10) is fixedly connected with the rotating disc (2), a fixed disc (12) is fixedly arranged at the lower end of the third driving device (10), and the fixed disc (12) is a circular plate-shaped mechanism.

4. The wire drawing double-layer wire collecting frame for regular wire winding according to claim 3, wherein the upper outer baffle plate (11) is of an annular structure, the upper end of the upper inner baffle plate (13) is fixedly connected with the bottom of the fixed disc (12), the upper outer baffle plate (11) is arranged around the outer side of the upper inner baffle plate (13), a first gap is formed between the upper outer baffle plate (11) and the upper inner baffle plate (13), and the upper outer baffle plate (11) and the upper inner baffle plate (13) are mutually matched to enable the wire (4) to slide downwards along the first gap;

The upper end of the upper outer baffle plate (11) is fixedly provided with a first annular plate with a conical surface structure, the upper end of the upper inner baffle plate (13) is fixedly provided with a second annular plate with a conical surface structure, and the first annular plate and the second annular plate are mutually matched to be used for expanding an inlet, so that wires (4) can enter a first gap conveniently.

5. The wire drawing double-layer wire collecting frame for regular wire winding according to claim 1, wherein the lower outer baffle (15) is of an annular structure, the lower end of the lower inner baffle (14) is fixedly connected with the upper end of the bottom plate (5), the lower outer baffle (15) is arranged around the outer side of the lower inner baffle (14), a second gap is formed between the lower outer baffle (15) and the lower inner baffle (14), and the lower outer baffle (15) and the lower inner baffle (14) are mutually matched to enable wires (4) to be vertically arranged in the second gap.

6. The double-layer wire drawing take-up stand for regular wire rods according to claim 1, wherein four arc grooves with downward openings are respectively formed below the upper outer baffle plate (11) and the upper inner baffle plate (13), four turnover plates (16) are rotatably arranged at the upper end of the lower outer baffle plate (15) through damping hinges, and the turnover plates (16) are inserted into the arc grooves on the upper outer baffle plate (11);

The top of the lower-stage inner baffle (14) is fixedly provided with an arc plate, the arc plate corresponds to the arc groove on the upper-stage inner baffle (13) up and down, and the arc plate is inserted into the arc groove on the upper-stage inner baffle (13);

Four limit grooves are formed in the circumferential side of the upper outer baffle plate (11), the limit grooves are communicated with the arc grooves in the upper outer baffle plate (11), round holes are formed in the turnover plate (16), the round holes correspond to the limit grooves in the upper outer baffle plate (11) one by one, studs are connected to the inner threads of the round holes, and nuts are connected to the studs in a threaded mode.