CN213230735U - Anti-deviation structure for winding device - Google Patents

Abstract

The utility model relates to a prevent excursion structure for rolling equipment, including outer framework, the left and right sides symmetrical welding of outer framework has the mounting bracket, and the upper and lower two sides of outer framework is fixed with first motor and second motor respectively, the both ends of second motor all are connected with the lead screw, the connecting seat is fixed on the lateral wall of step down, the welding has first gear in the pivot of rotary drum upper end installation, step down and bolster bearing housing are all connected in wearing the groove, the both ends of first motor all are connected with the axostylus axostyle, the first slider of side wall mounting is connected in first spout in the sleeve, it has the second spout to reserve on the telescopic lateral wall. This a prevent skew structure for rolling equipment through the setting of two upper and lower motors for thereby the device can carry out a series of regulations through motor drive, does not need artifical manual regulation, and is comparatively convenient and quick.

Description

Anti-deviation structure for winding device

[ technical field ] A method for producing a semiconductor device

The utility model relates to a rolling machine field, concretely relates to prevent excursion structure for rolling equipment.

[ background of the invention ]

The rolling equipment is the receipts material part of coil stock processing lines, it becomes the coil stock to roll up raw and other materials through mechanical system, extensive application is in the scroll, the yardage roll, the plastic material is rolled up, on the metal coil material processing lines, according to actual technological requirement design diversification, it is common to have simple and easy rolling machine, hydraulic pressure rolling machine, the rolling machine generally has a book internal diameter to the material, roll up the external diameter, coil stock thickness, the width all has strict requirement, the condition of aversion can not appear in order to guarantee the coil stock of rolling, rolling equipment all need set up the structure of preventing squinting, but the structure of preventing squinting that present general rolling equipment used is adjusted comparatively trouble, if need the material of the different specifications of rolling, still need artifical manual to adjust at every turn, it is comparatively trouble to use. Aiming at the problems, the novel winding device is innovatively designed on the basis of the anti-deviation structure of the original winding device.

[ Utility model ] content

In order to solve the problem, an object of the utility model is to provide a prevent excursion structure for rolling equipment, it is comparatively troublesome to have solved the prevent excursion structure of present general rolling equipment usefulness and has adjusted, if when the material of the different specifications of needs rolling, still needs artifical manual to adjust at every turn, uses comparatively trouble problem.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an anti-deviation structure for a winding device comprises an outer frame body, wherein mounting frames are symmetrically welded on the left side and the right side of the outer frame body, a first motor and a second motor are respectively fixed on the upper surface and the lower surface of the outer frame body, two ends of the second motor are respectively connected with a lead screw, the lead screws are connected in a lower connecting seat in a penetrating mode, the lower connecting seat is fixed on the side wall of a lower bearing seat, the lower bearing seat and an upper bearing seat are respectively installed at the upper end and the lower end of a rotary drum in a penetrating mode, a first gear is welded on a rotary shaft installed at the upper end of the rotary drum, the lower bearing seat and the upper bearing seat are connected in a penetrating groove which is preset on the outer frame body, an upper connecting seat is fixed on the side wall of the upper bearing seat, side sliding grooves are simultaneously formed in the wall surface of the penetrating groove, two ends of the first motor are both connected with shaft levers, sleeves, the first sliding block mounted on the inner side wall of the sleeve is connected in the first sliding groove, the first sliding groove is reserved on the shaft rod, the second sliding groove is reserved on the outer side wall of the sleeve, the second sliding block connected in the second sliding groove is mounted in the inner side wall of the upper connecting seat, the side sliding blocks are mounted on the side walls of the lower bearing seat and the upper bearing seat, and the side sliding blocks are connected in the side sliding grooves.

The utility model provides a prevent excursion structure for rolling equipment further sets up to: the lower bearing seat and the upper bearing seat form a sliding structure through the side sliding blocks, the side sliding grooves and the penetrating grooves, four groups of the sliding structures are arranged on the outer frame body, and meanwhile, every two of the sliding structures are symmetrically arranged on the upper wall surface and the lower wall surface of the outer frame body.

The utility model provides a prevent excursion structure for rolling equipment further sets up to: the height of the rotary drum is greater than that of the outer frame body, and the height of the bearing seat connected to the rotary drum is smaller than that of the through groove.

The utility model provides a prevent excursion structure for rolling equipment further sets up to: the first gear and the second gear are in corresponding positions and are in meshed connection.

The utility model provides a prevent excursion structure for rolling equipment further sets up to: go up connecting seat and sleeve and be through connection's mode, and go up the connecting seat and pass through second slider and second spout and constitute sliding structure with the sleeve to this sliding structure's slip orbit is the ring shape.

The utility model provides a prevent excursion structure for rolling equipment further sets up to: the sleeve forms a sliding structure with the shaft rod through the first sliding block and the first sliding groove, and the sliding direction of the sliding structure is the left-right direction.

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) this a prevent skew structure for rolling equipment, setting through two upper and lower motors, thereby make the device can carry out a series of regulation through motor drive, do not need artifical manual regulation, it is comparatively convenient and quick, when the second motor rotates, the position of being separated by between two rotary drums can change, so that the both sides at the material are injectd in better laminating, avoid the condition that the skew appears in the material, and when first motor rotates, the rotary drum also can rotate thereupon, rotary drum in the rotation not only can not influence the injecture to the material, can also assist simultaneously promoting the material transmission, make the material can be more smooth and easy by the rolling, the practicality of the device has been improved.

[ description of the drawings ]

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

fig. 2 is an enlarged schematic structural diagram of a point a in fig. 1 of the present invention;

fig. 3 is a schematic top or bottom partial structure view of the outer frame body of the present invention;

fig. 4 is a schematic side sectional structure view of the connection seat and the sleeve of the present invention.

In the figure: 1. outer frame body, 2, mounting bracket, 3, first motor, 4, second motor, 5, lead screw, 6, lower connecting seat, 7, step, 8, bolster bearing housing, 9, rotary drum, 10, pivot, 11, first gear, 12, wear the groove, 13, go up the connecting seat, 14, sideslip groove, 15, axostylus axostyle, 16, sleeve, 17, second gear, 18, first slider, 19, first spout, 20, second spout, 21, second slider, 22, side slider.

[ detailed description ] embodiments

The following is a detailed description of the deviation preventing structure for a winding device according to the present invention through specific embodiments.

As shown in fig. 1-4, the utility model provides a technical solution: an anti-deviation structure for a rolling device comprises an outer frame body 1, a mounting frame 2, a first motor 3, a second motor 4, a screw rod 5, a lower connecting seat 6, a lower bearing seat 7, an upper bearing seat 8, a rotary drum 9, a rotary shaft 10, a first gear 11, a through groove 12, an upper connecting seat 13, a side sliding groove 14, a shaft rod 15, a sleeve 16, a second gear 17, a first sliding block 18, a first sliding groove 19, a second sliding groove 20, a second sliding block 21 and a side sliding block 22, wherein the mounting frame 2 is symmetrically welded on the left side and the right side of the outer frame body 1, the first motor 3 and the second motor 4 are respectively fixed on the upper surface and the lower surface of the outer frame body 1, the screw rod 5 is connected to two ends of the second motor 4, the screw rod 5 is connected in the lower connecting seat 6 in a penetrating manner, the lower connecting seat 6 is fixed on the side wall of the lower bearing seat 7, the lower bearing seat 7 and, a rotating shaft 10 arranged at the upper end of the rotating drum 9 is welded with a first gear 11, the lower bearing seat 7 and the upper bearing seat 8 are both connected in a through groove 12, the through groove 12 is preset on the outer frame body 1, an upper connecting seat 13 is fixed on the side wall of the upper bearing seat 8, a side sliding groove 14 is arranged on the wall surface of the through groove 12, two ends of the first motor 3 are both connected with a shaft lever 15, a sleeve 16 is arranged outside the shaft lever 15 in a penetrating way, and a sleeve 16 is inserted and fixed in the second gear 17, a first slider 18 mounted on the inner side wall of the sleeve 16 is connected in a first slide groove 19, the first sliding groove 19 is reserved on the shaft lever 15, the second sliding groove 20 is reserved on the outer side wall of the sleeve 16, and a second slider 21 connected in the second sliding groove 20 is installed in the inner sidewall of the upper connection holder 13, the side walls of the lower bearing seat 7 and the upper bearing seat 8 are respectively provided with a side sliding block 22, and the side sliding blocks 22 are connected in the side sliding grooves 14; when the device is used, the materials are firstly connected to the rolling device through the outer frame body 1, then the second motor 4 is switched on, so that the screw rod 5 can drive the lower bearing seat 7 provided with the lower connecting seat 6 to slide in the through groove 12 after rotating, so that the drum 9 moves synchronously, when the drum 9 moves, the upper bearing seat 8 also moves along with the drum, and the second gear 17 is pushed to move by the first gear 11, and the upper connecting seat 13 drives the sleeve 16 to slide on the shaft rod 15 until the side wall of the rotary drum 9 can be attached to the material, so as to define the position of the material, after which the first motor 3 can be switched on during the winding of the material, so that the rotation of the shaft lever 15 drives the second gear 17 to rotate, and drives the rotary drum 9 to rotate in the bearing seat through the first gear 11, thereby playing a good role in assisting to push the material to transmit;

the lower bearing seat 7 and the upper bearing seat 8 form a sliding structure through the side sliding block 22, the side sliding groove 14 and the through groove 12, four groups of the sliding structures are arranged on the outer frame body 1, meanwhile, the sliding structures are symmetrically arranged on the upper wall surface and the lower wall surface of the outer frame body 1 in a group of two groups, the sliding of the two bearing seats can drive the rotary drum 9 to adjust the position, and meanwhile, the stability and the rotation of the rotary drum 9 cannot be influenced;

the height of the rotary drum 9 is greater than that of the outer frame body 1, and the height of a bearing seat connected to the rotary drum 9 is less than that of the through groove 12, so that materials can only be attached to the rotary drum 9 and cannot be influenced by other components such as the bearing seat and the like;

the first gear 11 and the second gear 17 are opposite in position and meshed with each other, and the second gear 17 is rotated under the action of the shaft rod 15, so that the first gear 11 is driven to rotate, and the rotary drum 9 can rotate;

the upper connecting seat 13 and the sleeve 16 are in a penetrating connection mode, the upper connecting seat 13 and the sleeve 16 form a sliding structure through a second sliding block 21 and a second sliding groove 20, the sliding track of the sliding structure is circular, the sleeve 16 is connected to the shaft rod 15, when the shaft rod 15 rotates, the sleeve 16 rotates along with the sliding structure, so that the sleeve 13 also slides circularly in the upper connecting seat 13, and the upper connecting seat 13 can drive the sleeve 16 to move when the upper bearing seat 8 moves, so that the stability of the sleeve 16 is ensured;

the sleeve 16 forms a sliding structure with the shaft rod 15 through the first sliding block 18 and the first sliding groove 19, the sliding direction of the sliding structure is the left-right direction, the sleeve 16 is driven to slide on the shaft rod 15 by the movement of the upper connecting seat 13, and the sleeve 16 can be driven to rotate when the first sliding block 18 is connected in the first sliding groove 19 and the shaft rod 15 rotates.

The utility model discloses a theory of operation is: when the device is used, materials firstly penetrate through the outer frame body 1 to be connected to a rolling device, then the second motor 4 is started, the screw rod 5 can drive the lower bearing seat 7 provided with the lower connecting seat 6 to slide in the through groove 12 after rotating, so that the rotary drum 9 moves synchronously, when the rotary drum 9 moves, the upper bearing seat 8 moves along with the screw rod, the second gear 17 is driven to move through the first gear 11, the upper connecting seat 13 drives the sleeve 16 to slide along with the shaft rod 15 at the moment until the side wall of the rotary drum 9 can be attached to the materials, so that the position of the materials is limited, then the first motor 3 can be started in the process of rolling the materials, so that the second gear 17 is driven to rotate by the rotation of the shaft rod 15, the rotary drum 9 is driven to rotate in the bearing seat through the first gear 11, and a good auxiliary material pushing and transmission effect is achieved, the working principle of the anti-deviation structure for the winding device is the working principle, and the contents which are not described in detail in the specification belong to the prior art which is well known to the person skilled in the art.

The above-mentioned embodiments are merely illustrative of the principles and effects of the present invention, and some embodiments may be used, and are not intended to limit the present invention; it should be noted that, for those skilled in the art, without departing from the inventive concept, several variations and modifications can be made, which are within the scope of the present invention.

Claims (6)

1. The utility model provides an anti-migration structure for rolling equipment, includes outer frame body, its characterized in that: the left side and the right side of the outer frame body are symmetrically welded with mounting frames, the upper surface and the lower surface of the outer frame body are respectively fixed with a first motor and a second motor, two ends of the second motor are both connected with lead screws, the lead screws are connected in a lower connecting seat in a penetrating way, the lower connecting seat is fixed on the side wall of a lower bearing seat, a lower bearing seat and an upper bearing seat are respectively installed at the upper end and the lower end of a rotary drum in a penetrating way, a rotating shaft installed at the upper end of the rotary drum is welded with a first gear, the lower bearing seat and the upper bearing seat are both connected in a penetrating way, the penetrating way is preset on the outer frame body, the side wall of the upper bearing seat is fixed with an upper connecting seat, the wall surface of the penetrating way is provided with a side sliding groove, two ends of the first motor are both connected with shaft levers, sleeves are arranged outside the shaft levers in a penetrating way and embedded, and the first chute is reserved on the shaft lever, the second chute is reserved on the outer side wall of the sleeve, a second sliding block connected in the second chute is arranged in the inner side wall of the upper connecting seat, side sliding blocks are arranged on the side walls of the lower bearing seat and the upper bearing seat, and the side sliding blocks are connected in the side chutes.

2. An anti-shifting structure for a winding device according to claim 1, characterized in that: the lower bearing seat and the upper bearing seat form a sliding structure through the side sliding blocks, the side sliding grooves and the penetrating grooves, four groups of the sliding structures are arranged on the outer frame body, and meanwhile, every two of the sliding structures are symmetrically arranged on the upper wall surface and the lower wall surface of the outer frame body.

3. An anti-shifting structure for a winding device according to claim 1, characterized in that: the height of the rotary drum is greater than that of the outer frame body, and the height of the bearing seat connected to the rotary drum is smaller than that of the through groove.

4. An anti-shifting structure for a winding device according to claim 1, characterized in that: the first gear and the second gear are in corresponding positions and are in meshed connection.

5. An anti-shifting structure for a winding device according to claim 1, characterized in that: go up connecting seat and sleeve and be through connection's mode, and go up the connecting seat and pass through second slider and second spout and constitute sliding structure with the sleeve to this sliding structure's slip orbit is the ring shape.

6. An anti-shifting structure for a winding device according to claim 1, characterized in that: the sleeve forms a sliding structure with the shaft rod through the first sliding block and the first sliding groove, and the sliding direction of the sliding structure is the left-right direction.

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