CN211919468U

CN211919468U - Tyre bead ring storage device

Info

Publication number: CN211919468U
Application number: CN202020317659.0U
Authority: CN
Inventors: 时桂斌; 龚小兵; 谢雷
Original assignee: Guilin Fanma Machinery Co ltd
Current assignee: Guilin Fanma Machinery Co ltd
Priority date: 2020-03-13
Filing date: 2020-03-13
Publication date: 2020-11-13
Anticipated expiration: 2030-03-13

Abstract

The utility model discloses a tire bead ring storage device, which comprises a frame, a bead ring supporting mechanism and a bead ring supporting mechanism, wherein the frame comprises a front panel and a back panel which are arranged at the front end and the back end of a bottom plate; the partition plates are arranged between the front panel and the rear panel at equal intervals; the steel wire ring supporting mechanism comprises a left fixed double-end screw and a right fixed double-end screw which are arranged at the lower part of the lower semi-circumference of the supporting steel wire ring on the front panel and the rear panel, and a movable double-end screw which can adjust the left and right spacing at the upper part of the lower semi-circumference of the supporting steel wire ring; the steel wire ring supporting mechanism comprises a fixed moving shaft which is arranged in the middle of the lower portion of the left fixed double-headed screw and can adjust the stroke forwards and backwards, and a movable moving shaft which is arranged below the left movable double-headed screw and can adjust the distance between the left fixed double-headed screw and the right fixed double-headed screw and adjust the stroke forwards and backwards, wherein stop blocks arranged between every two adjacent partition plates are arranged on each moving shaft at equal intervals. The utility model discloses simple structure, storage capacity is big, adjusts storage position simple and easy, can be used to the steel wire winding that storage specification and size is between 15 "~ 24.5".

Description

Tyre bead ring storage device

Technical Field

The utility model relates to a supporting device of tire production line equipment specifically is a tire bead ring memory.

Background

The tyre bead ring is a rigid ring made of rubber-coated steel wires arranged according to a certain section shape, and the function of the tyre bead ring is to endow the tyre bead with necessary strength and rigidity so that the tyre is firmly fixed on a wheel rim.

The steel wire rings of the tire have square, round and hexagonal shapes according to the shapes of the sections, the steel wire rings with various shapes of the sections are processed and manufactured on a steel wire ring winding machine, and steel wires are wound and formed and then are bundled into the steel wire rings by a strap or are manually bundled by cord fabric adhesive tapes at the joints of the steel wires.

For the tire bead rings produced in batch, the operation of manually binding the steel wire joints and manually conveying the tire bead rings is adopted, so that the progress of a tire production line is greatly restricted.

In order to solve the defects of the prior art, the applicant company provides a patent application of 'tyre bead ring binding head storage and conveying system' for replacing manpower.

The patent application of the tire bead ring binding storage and conveying system comprises a bead ring binding machine, a bead ring conveying device and a robot ring loading device, wherein a rotary ring supporting device is arranged between the bead ring binding machine and the input front end of the bead ring conveying device, the robot ring loading device is arranged at the output rear end of the bead ring conveying device, a bead ring storage device and a TDA (time domain analysis) station are respectively arranged in front of and behind the left side and the right side of the robot ring loading device, and the rotary ring supporting device is arranged on the left side or the right side of a bead ring winding machine; the rotating support ring alternately transfers the winding steel wire ring to a steel wire ring head binding machine and transfers the head binding steel wire ring to a steel wire ring conveying device; and the robot ring loading device grabs the head-tied steel wire ring on the steel wire ring conveying device to a TDA station or a steel wire ring storage device.

The patent application of the tire bead ring binding head storage and conveying system adopts a bead ring binding head machine and is matched with a related device to establish the connection between the bead ring winding machine and a TDA production station, thereby realizing the high-efficiency automation of bead ring production operation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to protect the tire bead ring storage in the patent application of tire bead ring bundling storage and conveying system.

The utility model discloses tire bead ring memory, its technical scheme is based on baffle, steel wire winding supporting mechanism and the steel wire winding supporting mechanism of frame setting, wherein:

1. the frame comprises a bottom plate, a front panel and a rear panel, wherein the front panel and the rear panel are respectively arranged at the front end and the rear end of the bottom plate.

2. The baffle is arranged between the front panel and the rear panel at equal intervals.

3. The steel wire ring supporting mechanism comprises four double-head screws for supporting the lower half circumference of the steel wire ring, the left and right of two fixed double-head screws for supporting the lower half circumference of the steel wire ring are symmetrically arranged on the front panel and the rear panel, and the left and right of two movable double-head screws capable of adjusting the left and right spacing on the upper part of the lower half circumference of the steel wire ring are symmetrically arranged on the front panel and the rear panel.

4. The steel wire ring supporting mechanism comprises a fixed moving shaft which is arranged in the middle of the lower portion of a left fixed double-end screw and the lower portion of a right fixed double-end screw and can adjust the stroke forwards and backwards, and a movable moving shaft which is symmetrically arranged on the left side and the right side of the lower portion of a left movable double-end screw and the right movable double-end screw, wherein the left movable moving shaft and the right movable moving shaft can adjust the distance forwards and backwards, stop blocks which are arranged between every two adjacent partition plates are arranged on each moving shaft at equal intervals, and the interval between each stop block and the partition plate in the front or the rear is a placing groove of the steel.

Furthermore, each fixed double-head screw rod penetrates through the front panel and the rear panel through a screw rod hole, and two ends of each fixed double-head screw rod are respectively screwed with a tightening nut outside the front panel and the rear panel; each movable double-threaded screw rod penetrates through the front panel and the rear panel through a sliding groove, and two ends of each movable double-threaded screw rod are screwed outside the front panel and the rear panel respectively to tighten the nuts.

Conventionally, the left and right sliding grooves are inclined grooves inclined inward and downward.

Furthermore, the front end of each moving shaft is in sliding fit with the front shaft seat, a shaft rotation prevention structure is arranged between the front shaft seat and the moving shaft, the rear end of the moving shaft is screwed in an internal thread hole of an adjusting nut with a wrench handle position, and the adjusting nut is rotatably arranged in the rear shaft seat.

Furthermore, corresponding to the fixed movable shaft, the front shaft seat and the rear shaft seat are respectively fixedly arranged on the front panel and the rear panel; corresponding to the movable moving shaft, the front shaft seat and the rear shaft seat are respectively arranged on the front panel and the rear panel through corresponding combined chutes.

Conventionally, the left and right combined chutes are inclined chutes inclined inwards and downwards.

In order to facilitate the transfer of the steel wire ring, the bottom of the bottom plate is provided with a front left foot wheel and a rear right foot wheel, and the rear panel is provided with a push frame.

The utility model has the advantages that:

the utility model discloses tire bead ring memory simple structure, storage capacity is big (can once only store tens of bead rings), and the storage position of bead ring is adjusted simply and easily, can be used to the bead ring of storage specification and dimension between 15 "~ 24.5".

Drawings

Fig. 1 is a front view of an embodiment of the present invention.

Fig. 2 is a top view of fig. 1.

Fig. 3 is a right side view of fig. 1.

Fig. 4 is a schematic view of the mounting structure of the moving shaft in fig. 1, 2 and 3.

Fig. 5 is a right side view of fig. 4.

And (3) identifying the figure number: 1. a base plate; 2. a front panel; 3. a rear panel; 4. a partition plate; 5. fixing the double-head screw; 6. a bead ring; 7. a movable double-ended screw; 8. fixing the movable shaft; 9. a movable moving shaft; 10. a stopper; 11. a sliding groove; 12. a rear axle seat; 13. adjusting the nut; 14. a front axle seat; 15. a combined chute; 16. a caster wheel; 17. pushing the frame; 18. a square shaft end; 19. a waist-shaped hole.

Detailed Description

The technical solution of the present invention will be further explained with reference to the embodiments shown in the drawings.

The utility model discloses tire bead ring memory, support the mechanism including frame, baffle 4, bead ring supporting mechanism and bead ring, the frame includes preceding, the rectangle bottom plate 1 to back, left and right rectangle front panel 2 and rear panel 3 are installed respectively to the front end of bottom plate 1 and rear end, and truckle 16 is installed to preceding, back, left and right four corners department of the bottom of bottom plate 1, install on the rear panel 3 and push away the frame 17 that pushes away the frame walking, and thirty 4 equidistance intervals of baffle set up between front panel 2 and rear panel 3, for material saving, each baffle 4 design is trapezoidal form parting bead, as shown in figure 1, figure 2, figure 3.

The steel wire ring supporting mechanism comprises four double-headed screws, two fixed double-headed screws 5 are symmetrically arranged at the lower parts of the front and

rear panels

2 and 3 in a left-right mode, the front and rear ends of each fixed double-headed screw 5 respectively penetrate through bolt holes correspondingly formed in the front and

rear panels

2 and 3 and are screwed with locking nuts, two movable double-headed screws 7 are symmetrically arranged in left-right symmetrical sliding grooves 11 formed in the middle upper parts of the front and

rear panels

2 and 3 in a left-right mode, the lower ends of the left and right sliding grooves 11 are inclined inwards and downwards, the inclination angle is consistent with the angle of the corresponding waist of the trapezoidal partition strip, and the front and rear ends of each movable double-headed screw 7 respectively penetrate through the sliding grooves 11 in the front and

rear panels

2 and 3 and are screwed with the locking nuts; the left and right fixed double-headed screws 5 are used for supporting the lower part of the lower half circumference of the steel wire ring 6, and the left and right movable double-headed screws 7 are used for supporting the upper part of the lower half circumference of the steel wire ring 6 so as to form stable support; the front and

rear panels

2 and 3 below the left and right sliding grooves 11 are provided with combined sliding grooves 15 which are parallel to the corresponding sliding grooves 11 and are symmetrical left and right, as shown in fig. 1, 2 and 3.

The steel wire ring supporting mechanism comprises a fixed moving shaft 8 and two movable moving shafts 9, the centers of the lower parts of the left and right fixed double-ended screws 5 of the fixed moving shaft 8 are arranged between the front and

rear panels

2 and 3, the front end of the fixed moving shaft 8 is arranged in the front shaft seat 14 in a sliding fit manner, a shaft rotation preventing structure is arranged between the front shaft seat 14 and the moving shaft (as shown in fig. 5, the square head shaft end 18 of the moving shaft is limited in the waist-shaped hole 19 of the front shaft seat 14), the front shaft seat 14 is fixedly arranged on the corresponding position of the front panel 2, the rear end of the fixed moving shaft 8 is screwed in the internal thread hole of the adjusting nut 13, the adjusting nut 13 is rotatably arranged in the rear shaft seat 12, and the rear shaft seat 12 is fixedly arranged on the corresponding position of the rear panel 3; the left and right movable moving shafts 9 are symmetrically arranged below the left and right movable double-thread screws 7, the front end of each movable moving shaft 9 is arranged in the corresponding front shaft seat 14 in a sliding fit manner, a shaft rotation preventing structure is arranged between the front shaft seat 14 and the moving shaft (as shown in fig. 5, the square head shaft end 18 of the moving shaft is limited in a waist-shaped hole 19 of the front shaft seat 14), the front shaft seat 14 is arranged on the front panel 2 through the corresponding combined sliding chute 15, the rear end of each movable moving shaft 9 is screwed in an internal thread hole of the corresponding adjusting nut 13, the adjusting nut 13 is rotatably arranged on the corresponding rear shaft seat 12, and the rear shaft seat 12 is arranged on the rear panel 3 through the corresponding combined sliding chute 15; each adjusting nut 13 is provided with a trigger position exposed outside the rear panel 3, as shown in fig. 3 and 4.

In the above structure, the stoppers 10 disposed between two adjacent partition boards 4 are installed on each moving shaft at equal intervals, each stopper 10 can adjust the deflection position on the moving shaft, the stoppers 10 on the fixed moving shaft 8 are uniformly adjusted at the upward position, the stoppers 10 on each movable moving shaft 9 are uniformly adjusted at the inward upward deflection position, and the interval between the stopper 10 on each moving shaft and the corresponding partition board 4 at the rear is the placing groove of the bead ring 6, as shown in fig. 1, 2, 3 and 4.

The utility model discloses an adjusting method does:

1. the left and right movable double-headed screws 7 are unscrewed, the distance between the left and right movable double-headed screws 7 is adjusted in the left and right sliding grooves 11 according to the diameter of the steel wire ring 6, so that the left and right movable double-headed screws 7 just support the lower part of the lower half circumference of the steel wire ring 6, and then the left and right movable double-headed screws 7 are fastened on the front and

rear panels

2 and 3.

2. The mounting bolts of the axle seats on the front and

rear panels

2 and 3 corresponding to the movable moving axles 9 are unscrewed, the left and right movable moving axles 9 are adjusted to align with the left and right movable double-headed screws 7 along the left and right combined chutes 15, and then the axle seats corresponding to the movable moving axles 9 are fastened on the front and

rear panels

2 and 3.

3. The front and rear moving strokes of each moving shaft 9 are respectively adjusted according to the thickness of the steel wire ring 6, and the method specifically comprises the following steps: the adjusting nut 13 is rotated through a wrench, the rotating motion of the adjusting nut 13 is converted into the linear motion of the moving shaft, and the width of the placing groove between each stop block 10 and the corresponding partition plate 4 can be adjusted through the front stroke and the rear stroke of the moving shaft so as to adapt to the placing of the steel wire rings 6 with different thicknesses.

Claims

1. The tire bead ring storage device is characterized by comprising a partition plate (4) arranged based on a rack, a bead ring supporting mechanism and a bead ring supporting mechanism, wherein the bead ring supporting mechanism is arranged on the basis of the rack

The rack comprises a bottom plate (1), a front panel (2) and a rear panel (3) which are respectively arranged at the front end and the rear end of the bottom plate (1);

the partition plates (4) are arranged between the front panel (2) and the rear panel (3) at equal intervals;

the steel wire ring supporting mechanism comprises four double-headed screws for supporting the lower half circumference of the steel wire ring (6), two fixed double-headed screws (5) for supporting the lower part of the lower half circumference of the steel wire ring (6) are symmetrically arranged on the front panel (2) and the rear panel (3) in the left and right directions, and two movable double-headed screws (7) capable of adjusting the left and right intervals at the upper part of the lower half circumference of the supporting steel wire ring (6) are symmetrically arranged on the front panel (2) and the rear panel (3) in the left and right directions;

the steel wire ring supporting mechanism comprises a fixed moving shaft (8) which is arranged in the middle of the lower part of a left fixed double-end screw (5) and on the right fixed double-end screw (5) and can be adjusted forwards and backwards, and a movable moving shaft (9) which is symmetrically arranged on the left and right below of a left movable double-end screw (7) and on the right movable double-end screw and can be adjusted forwards and backwards, wherein the left movable moving shaft (9) and the right movable moving shaft can be adjusted leftwards and rightwards to adjust the distance and can be adjusted forwards and backwards to adjust the stroke, stop blocks (10) which are arranged between every two adjacent partition plates (4) are arranged on each moving shaft at equal intervals, and the interval between each stop block (10) and.

2. The tire traveler of claim 1 wherein: each fixed double-head screw (5) penetrates through the front panel (2) and the rear panel (3) through a screw hole, and two ends of each fixed double-head screw (5) are respectively screwed with a tightening nut outside the front panel (2) and the rear panel (3); each movable double-thread screw (7) penetrates through the front and rear panels (2, 3) through a sliding groove (11), and two ends of each movable double-thread screw (7) are respectively screwed outside the front and rear panels (2, 3) to force the nuts.

3. The tire traveler of claim 2 wherein: the left sliding groove (11) and the right sliding groove (11) are inclined chutes which are inclined inwards and downwards.

4. A tire bead ring storage according to any one of claims 1 to 3 wherein: the front end of each moving shaft is in sliding fit with the inside of the front shaft seat (14), a shaft rotation prevention structure is arranged between the front shaft seat (14) and the moving shaft, the rear end of the moving shaft is screwed in an internal thread hole of an adjusting nut (13) with a wrench position, and the adjusting nut (13) is rotatably arranged in the rear shaft seat (12).

5. The tire traveler of claim 4, wherein: the front axle seat (14) and the rear axle seat (12) are respectively and fixedly arranged on the front panel (2) and the rear panel (3) corresponding to the fixed movable axle (8); corresponding to the movable moving shaft (9), the front shaft seat (14) and the rear shaft seat (12) are respectively arranged on the front panel (2) and the rear panel (3) through corresponding combined chutes (15).

6. The tire traveler of claim 5, wherein: the left and right combined chutes (15) are inclined chutes which incline inwards and downwards.

7. A tire bead ring storage according to any one of claims 1 to 3 wherein: the bottom of the bottom plate (1) is provided with a front left foot wheel and a rear right foot wheel (16), and the rear panel (3) is provided with a push frame (17).