CN220011491U - Positioning mechanism for uncoiling device - Google Patents

Abstract

The utility model relates to a positioning mechanism for uncoiling equipment, which comprises a connecting seat, an adjusting seat, an installation strip and two baffle strips, wherein the connecting seat is provided with an adjusting part, the connecting seat is in sliding connection with the adjusting seat through the adjusting part, the adjusting seat is used for adjusting the position of the adjusting seat along the axis direction of a coiled material, the installation strip is rotationally connected with the adjusting seat through a rotating shaft, the rotating shaft is parallel to the axis of the coiled material, the two baffle strips are perpendicular to the axis of the coiled material, one baffle strip is fixedly arranged on the installation strip, and a gap is arranged between the two baffle strips. The sliding block moves on the second guide rail in the direction parallel to the axis of the coiled material, the adjusting seat is driven to move synchronously, the barrier strips connected with the mounting strips are driven to move synchronously, the distance between the two barrier strips is adjusted steplessly according to the width of the coiled material, and the mounting strips rotate around the rotating shaft, so that the barrier strip positions are adjusted steplessly according to the thickness of the coiled material, and the coil forming machine is suitable for coiled materials of different sizes.

Description

Positioning mechanism for uncoiling device

Technical Field

The utility model relates to a positioning mechanism for uncoiling equipment, and belongs to the technical field of uncoiling.

Background

Along with the increasing approaching of traditional fossil energy consumption schedules such as coal, petroleum, natural gas and the like, the development and the utilization of wind energy are more and more paid attention to, and the wind energy has become one of the most commercial popularization prospect projects in the energy field, and is rapidly developed at home and abroad at present. Wind power generation is mainly realized through a wind power generator, wind power blades are core components of the wind power generator, and wind power pushes the wind power blades to rotate so as to drive the generator to generate current. Wind power blades are usually formed by an outer contour of an upper shell and a lower shell, the inside of the wind power blade is borne by using a girder-web structure, and the girder is a main framework structure in a blade component, and the quality of the girder directly influences the quality of the wind power blade. Blade girders are typically injection molded using blade molds. Before the blade is poured and molded, multiple layers of cloth with equal width are paved on the inner surface of the blade mold so as to meet the rigidity requirement of the molded blade and ensure the mechanical property of the blade. The cloth on the inner surface of the blade mould is typically laid using an unwinder.

The utility model patent with the application number of CN202110167222.2 discloses an uncoiling mechanism of a post-processing production line of a pultruded plate for a wind power blade girder, after the pultruded plate coil is installed on the uncoiling mechanism, a rotating cylinder is started to extend, then four jacking rods are driven to outwards open, inner tensioning is realized on the inner wall of the jacking rods, which is propped against the pultruded plate coil, the free ends of the pulling plate coil are taken out to bypass an uncoiling traction wheel, traction is carried out through the uncoiling traction wheel, the free ends of the pulling plate coil are sent to a demoulding cloth device, when normal uncoiling is carried out, a lifting cylinder is used for recovering, power is directly provided by a power source of a power input end of a driving shaft, and the whole uncoiling mechanism is controlled to rotate to uncoil the pulling plate coil. The uncoiling mechanism of the post-processing production line for the pultruded plates for the wind power blade main beams is used for assembling the post-processing production line for the pultruded plates for the wind power blade main beams, so that the precise width cutting and chamfering operation can be performed on the pultruded plates of each layer, the automatic operation is completed, and the production efficiency is improved. However, in the prior art, when positioning the thickness direction of the coiled material, the moving distance of the fixing plate can only move along with the distance between two adjacent threaded holes, and the moving distance of the fixing plate is limited, so that the fixing of coiled materials with different sizes is difficult to meet.

Therefore, a positioning mechanism for uncoiling equipment is needed, stepless adjustment of coiled materials in fixation is realized, and the positioning mechanism is convenient to adapt to coiled materials with different sizes.

Disclosure of Invention

The utility model aims to solve the technical problems that: in order to overcome the defects of the prior art, the positioning mechanism for the uncoiling device is provided for realizing stepless adjustment when coiled materials are fixed, and is convenient to be suitable for coiled materials with different thicknesses.

The utility model solves the problems by adopting the following technical scheme: the utility model provides a positioning mechanism for uncoiling equipment, includes connecting seat, adjusting seat, installation strip and two blend stops, be provided with adjusting part on the connecting seat, the connecting seat passes through adjusting part and adjusting seat sliding connection, realizes adjusting seat along the regulation of coiled material axis direction position through adjusting part, the installation strip passes through the axis of rotation and is connected with adjusting seat rotation, the axis of rotation is on a parallel with the coiled material axis, and two blend stops are all perpendicular with the coiled material axis, in two blend stops, one of them blend stop is fixed to be set up on the installation strip, is provided with the clearance between two blend stops.

Preferably, one end of the barrier strip is provided with a chamfer.

Preferably, a supporting block is further arranged at the bottom of the mounting strip, and the supporting block is attached to the adjusting seat.

Preferably, the adjusting part comprises a second guide rail fixedly arranged on the connecting seat, the second guide rail is parallel to the axis of the coiled material, a sliding block is connected to the second guide rail in a sliding manner, and the sliding block is fixedly connected with the adjusting seat.

Preferably, the adjusting seat is locked with the second guide rail through a locking screw.

Preferably, two second bearings axially arranged along the rotating shaft are arranged on the rotating shaft, a bearing seat is fixedly arranged on the adjusting seat, and the two second bearings are arranged in the bearing seat.

Preferably, the bearing seat is locked with the adjusting seat through a plurality of fixing screws.

Preferably, the plurality of fixing screws are circumferentially arranged centering on the axis of the rotation shaft.

Compared with the prior art, the utility model has the advantages that:

according to the positioning mechanism for the uncoiling device, the adjusting seat is driven to synchronously move through the movement of the sliding block on the second guide rail in the direction parallel to the axis of the coiled material, and the barrier strips connected with the mounting strips are driven to synchronously move, so that the distance between the two barrier strips is adjusted steplessly according to the width of the coiled material, and the barrier strips connected with the mounting strips are driven to synchronously rotate through the rotation of the mounting strips around the rotating shaft, and the barrier strip positions are adjusted steplessly according to the thickness of the coiled material, so that the positioning mechanism is suitable for coiled materials with different sizes.

Drawings

FIG. 1 is a schematic view of a positioning mechanism for an unwind of the present utility model;

FIG. 2 is a schematic view of a mounting bar;

fig. 3 is a schematic structural view of the adjusting seat.

Wherein: the device comprises a connecting seat 201.61, an adjusting seat 201.62, an installing strip 201.63, a baffle strip 201.64, an adjusting component 201.65, a second guide rail 201.651, a sliding block 201.652, a locking screw 201.653, a rotating shaft 201.66, a supporting block 201.67, a second bearing 201.68, a bearing seat 201.69 and a fixing screw 201.610.

Detailed Description

As shown in fig. 1 to 3, a positioning mechanism for an uncoiling device in this embodiment includes a connection base 201.61, an adjusting base 201.61, a mounting bar 201.61 and two bars 201.61, the connection base 201.61 is fixedly arranged on the uncoiling device, the connection base 201.61 is provided with an adjusting component 201.61, the connection base 201.61 is slidably connected with the adjusting base 201.61 through the adjusting component 201.61, the adjustment of the position of the adjusting base 201.61 along the axis direction of a coil is realized through the adjusting component 201.61, the mounting bar 201.61 is rotatably connected with the adjusting base 201.61 through a rotating shaft 201.61, the rotating shaft 201.61 is parallel to the axis of the coil, the two bars 201.61 are perpendicular to the diameter of the coil, one bar 201.61 is fixedly arranged on the uncoiling device, the other baffle bar 201.61 is fixedly arranged on the mounting bar 201.61, a gap is formed between the two baffle bars 201.61, a chamfer is formed at one end of the baffle bar 201.61, a coiled material is placed between the two baffle bars 201.61, then, the position of the adjusting seat 201.61 can be adjusted through the adjusting component 201.61, the distance between the two baffle bars 201.61 can be adjusted according to the axial length of the coiled material, stepless adjustment is achieved, the baffle bar 201.61 can be suitable for coiled materials with the axial length, the mounting bar 201.61 can rotate around the rotating shaft 201.61 through rotating, the baffle bar 201.61 connected with the mounting bar 201.61 can rotate, and the position of the baffle bar 201.61 connected with the mounting bar 201.61 can be adjusted according to the thickness of the coiled material, so that the baffle bar 201.61 is convenient to be suitable for coiled materials with different thicknesses.

The adjusting component 201.65 includes a second guide rail 201.651 fixedly disposed on the connecting seat 201.61, the second guide rail 201.651 is parallel to the coiled material, a sliding block 201.652 is slidably connected on the second guide rail 201.651, the sliding block 201.652 is fixedly connected with the adjusting seat 201.62, the adjusting seat 201.62 is locked with the second guide rail 201.651 through a locking screw 201.653, the locking screw 201.653 is loosened, the sliding block 201.652 moves on the second guide rail 201.651 and drives the adjusting seat 201.62 to synchronously move, and after the movement is completed, the locking screw 201.653 is screwed, so that the position of the adjusting seat 201.62 along the axial direction of the coiled material can be adjusted.

The rotating shaft 201.66 is provided with two second bearings 201.68 axially arranged along the rotating shaft 201.66, the adjusting seat 201.62 is fixedly provided with a bearing seat 201.69, the two second bearings 201.68 are both arranged in the bearing seat 201.69, the bearing seat 201.69 is locked with the adjusting seat 201.62 through a plurality of fixing screws 201.610, and the plurality of fixing screws 201.610 are circumferentially arranged with the axis of the rotating shaft 201.66 as the center.

The bottom of the mounting bar 201.63 is further provided with a supporting block 201.67, the supporting block 201.67 is attached to the adjusting seat 201.62, and when the mounting bar 201.63 rotates, the supporting block 201.67 is driven to slide on the top of the adjusting seat 201.62, and the function of supporting the mounting bar 201.63 is achieved through the supporting block 201.67.

In addition to the above embodiments, the present utility model also includes other embodiments, and all technical solutions that are formed by equivalent transformation or equivalent substitution should fall within the protection scope of the claims of the present utility model.

Claims (11)

1. A positioning mechanism for uncoiling device, its characterized in that: including connecting seat (201.61), adjusting seat (201.62), installation strip (201.63) and two blend stop (201.64), be provided with adjusting part (201.65) on connecting seat (201.61), connecting seat (201.61) pass through adjusting part (201.65) and adjust seat (201.62) sliding connection, realize adjusting seat (201.62) along the regulation of coiled material axis direction position through adjusting part (201.65), installation strip (201.63) rotate with adjusting seat (201.62) through axis of rotation (201.66) and be connected, axis of rotation (201.66) are on a parallel with the coiled material axis, and two blend stop (201.64) all are perpendicular with the coiled material axis, in two blend stop (201.64), one of them blend stop (201.64) is fixed to be set up on installation strip (201.63), is provided with the clearance between two blend stop (201.64).

2. A positioning mechanism for an unwind as claimed in claim 1, characterized in that: one end of the barrier strip (201.64) is provided with a chamfer.

3. A positioning mechanism for an unwind as claimed in claim 1, characterized in that: the bottom of installation strip (201.63) still is provided with supporting shoe (201.67), laminating of supporting shoe (201.67) and regulation seat (201.62).

4. A positioning mechanism for an unwind as claimed in claim 1, characterized in that: the adjusting part (201.65) comprises a second guide rail (201.651) fixedly arranged on the connecting seat (201.61), the second guide rail (201.651) is parallel to the axis of the coiled material, a sliding block (201.652) is connected to the second guide rail (201.651) in a sliding manner, and the sliding block (201.652) is fixedly connected with the adjusting seat (201.62).

5. The positioning mechanism for an unwind of claim 4 characterized in that: the adjusting seat (201.62) is locked with the second guide rail (201.651) through a locking screw (201.653).

6. A positioning mechanism for an unwind as claimed in claim 1, characterized in that: the second bearing (201.68) is installed on the rotating shaft (201.66), the bearing seat (201.69) is fixedly arranged on the adjusting seat (201.62), and the second bearing (201.68) is arranged in the bearing seat (201.69).

7. The positioning mechanism for an unwind of claim 6 wherein: the bearing seat (201.69) is locked with the adjusting seat (201.62) through a plurality of fixing screws (201.610).

8. The positioning mechanism for an unwind of claim 7 characterized in that: a plurality of set screws (201.610) are circumferentially arranged centering on the axis of the rotary shaft (201.66).

9. The positioning mechanism for an unwind of claim 6 wherein: the second bearing (201.68) is provided in plurality.

10. A positioning mechanism for an unwind as claimed in claim 9, characterized in that: a plurality of second bearings (201.68) are axially arranged along the rotation shaft (201.66).

11. A positioning mechanism for an unwind as claimed in claim 10, characterized in that: the number of the second bearings (201.68) is two.