CN114285235A - Special device for bonding wrap angle of wind power magnetic steel - Google Patents

Abstract

The invention discloses a special device for bonding wrap angles of wind power magnetic steel, which comprises: a work table; the magnetic steel limiting table is arranged on the workbench, and a plurality of stop blocks are arranged on the magnetic steel limiting table and used for surrounding and blocking the left side surface and the right side surface of the wind power magnetic steel with wrap angle adhesion and the rear side surface without wrap angle adhesion when the wind power magnetic steel is placed on the magnetic steel limiting table; the three pressing mechanisms are arranged on the workbench and are respectively positioned on the left side and the right side of the magnetic steel limiting table and in front of the magnetic steel limiting table, each pressing mechanism comprises a telescopic element and a pressing block connected to the telescopic element, and when the wind power magnetic steel adhered with the wrap angle is placed on the magnetic steel limiting table, the telescopic element drives the pressing block to press the wrap angle, so that the wrap angle is adhered to be solid. The invention can quickly position and bond the wind power magnetic steel and the wrap angle, saves labor and ensures the bonding consistency of products.

Description

Special device for bonding wrap angle of wind power magnetic steel

Technical Field

The invention relates to the technical field of magnetic steel application. More specifically, the invention relates to a special device for bonding wrap angles of wind power magnetic steel.

Background

The wind driven generator mainly comprises a shell, a rotor, a stator, a rotating shaft, a fixed shaft and other parts. When the wind driven generator is manufactured, magnetic steel needs to be adhered to the interior of the rotor, so that the magnetic steel for the wind driven generator is called wind power magnetic steel 1 (shown in fig. 1). Wind-powered electricity generation magnet steel 1 is when the preparation, for the protection magnet steel is not corroded by adverse service environment, often at magnet steel surface plating coat, and aerogenerator rotor when the preparation, the acute angle corner of wind-powered electricity generation magnet steel 1 collides with easily and makes the cladding by the fish tail, so in order to protect wind-powered electricity generation magnet steel cladding installation in-process not by the fish tail, need bond cornerite 2 (as shown in fig. 2 ~ 3) at two relative acute angle corners of wind-powered electricity generation magnet steel 1. At present, the work of bonding wrap angles on wind power magnetic steel is manually finished, a worker firstly uses glue to uniformly paint the inner surface of a stainless steel wrap angle, then sprays primer on the bonding position of the wind power magnetic steel, finally puts the stainless steel wrap angle on the wind power magnetic steel, applies pressure to press the wrap angle until the glue is cured, however, because the manual operation strength is not standard, the wrap angle positioning is not accurate, the wrap angle bonding consistency is poor, and because the bonding glue is long in curing time, and the wrap angle needs to be pressed by applying force all the time in the glue curing process, the manual bonding of the wrap angle is more labor-consuming.

Disclosure of Invention

The invention aims to provide a special device for bonding wrap angles of wind power magnetic steel, which can be used for rapidly positioning and bonding the wind power magnetic steel and the wrap angles, saves manpower and ensures the bonding consistency of products.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a device dedicated to wind power magnetic steel bonding wrap angle, comprising:

a work table;

the magnetic steel limiting table is arranged on the workbench, and a plurality of stop blocks are arranged on the magnetic steel limiting table and used for surrounding and blocking the left side surface and the right side surface of the wind power magnetic steel with wrap angle adhesion and the rear side surface without wrap angle adhesion when the wind power magnetic steel is placed on the magnetic steel limiting table;

the three pressing mechanisms are arranged on the workbench and are respectively positioned on the left side and the right side of the magnetic steel limiting table and in front of the magnetic steel limiting table, each pressing mechanism comprises a telescopic element and a pressing block connected to the telescopic element, and when the wind power magnetic steel adhered with the wrap angle is placed on the magnetic steel limiting table, the telescopic element drives the pressing block to press the wrap angle, so that the wrap angle is adhered to be solid.

Preferably, the pressing mechanism further comprises a telescopic element support, the telescopic element is arranged on the telescopic element support, and the telescopic element support is fixed on the workbench.

Preferably, the telescopic element is any one of a pneumatic telescopic rod, a hydraulic telescopic rod and an electric telescopic rod.

Preferably, the telescopic element is a pneumatic telescopic rod, and the wind power magnetic steel bonding wrap angle special device further comprises:

the three electromagnetic valves respectively control the air supply pipelines of the pneumatic telescopic rods in the three abutting mechanisms;

the PLC is respectively connected with the three electromagnetic valves and is used for controlling the three electromagnetic valves to be opened or closed;

the starting switch is connected with the PLC and is used for outputting a starting signal to enable the PLC to control the three electromagnetic valves to be opened;

and the emergency stop switch is connected with the PLC and is used for outputting an emergency stop signal to enable the PLC to control the three electromagnetic valves to be closed.

Preferably, the three pressing mechanisms comprise two first pressing mechanisms and one second pressing mechanism, and the two first pressing mechanisms are respectively positioned at the left side and the right side of the magnetic steel limiting table;

the telescopic element support of the first abutting mechanism comprises a seat plate fixed on the workbench and an inclined plate which is connected with the seat plate and inclines towards the magnetic steel limiting table, the telescopic element of the first abutting mechanism is fixed on the surface of the inclined plate, which is opposite to the magnetic steel limiting table, the inclined plate is provided with a first through hole for allowing a telescopic part of the telescopic element of the first abutting mechanism to pass through, a pressing block of the first abutting mechanism is connected with the telescopic part of the telescopic element of the first abutting mechanism, the pressing block is positioned on one side, facing the magnetic steel limiting table, of the inclined plate, a groove matched with the wrap angle long bending part is formed in the pressing block of the first abutting mechanism, and when the telescopic part of the telescopic element of the first abutting mechanism extends, the pressing block of the first abutting mechanism abuts against the wrap angle long bending part.

Preferably, the first pressing mechanism further comprises a pressing block limiting plate, the pressing block limiting plate is fixed on the surface of the inclined plate facing the magnetic steel limiting table and is abutted to the pressing block to limit the pressing block to rotate.

Preferably, the telescopic element support of the second abutting mechanism comprises a vertical plate fixed on the side surface of the workbench, the telescopic element of the second abutting mechanism is fixed on the surface of the vertical plate back to the magnetic steel limit table, the vertical plate is provided with a second through hole for the telescopic part of the telescopic element of the second abutting mechanism to pass through, the pressing block of the second abutting mechanism is connected with the telescopic part of the telescopic element of the second abutting mechanism, the pressing block is positioned on one side of the vertical plate facing the magnetic steel limiting table, the pressing block of the second abutting mechanism comprises two convex parts, the two convex parts are respectively opposite to the short bending side parts of the wrap angles on the two sides of the wind power magnetic steel placed on the magnetic steel limiting table, when the telescopic part of the telescopic element of the second abutting mechanism extends, the two convex parts of the pressing block of the second abutting mechanism respectively abut against the short bent side parts of the wrap angles on the two sides of the wind power magnetic steel.

Preferably, a support rack is arranged below the workbench, and the workbench is fixed on a top plate of the support rack.

Preferably, the starting switch and the emergency stop switch are installed on a top plate of the supporting rack, a control box is arranged in the supporting rack, and the electromagnetic valve and the PLC are installed in the control box.

The invention at least comprises the following beneficial effects: through setting up the spacing platform of magnet steel, can make the wind-powered electricity generation magnet steel that is stained with the cornerite by the card on the station that the dog semi-surrounded, let three telescopic component that supports the pressure mechanism drive the briquetting simultaneously again and support the cornerite on wind-powered electricity generation magnet steel surface, wait to bond cornerite and wind electromagnetic steel's glue solidification can contract telescopic component, will bond the wind-powered electricity generation magnet steel of cornerite again and take out from the spacing platform of magnet steel. Above-mentioned whole in-process, because the magnet steel is spacing on the spacing platform of magnet steel, therefore when the briquetting supported the cornerite on wind-powered electricity generation magnet steel surface, wind-powered electricity generation magnet steel can not slide, and the cornerite supports to press down hugs closely wind-powered electricity generation magnet steel at the briquetting, and the bonding location is accurate, and in the glue solidification process, flexible component power is unchangeable, so the application of force standard is unanimous, and the bonding process uses mechanical substitution manual work to accomplish simultaneously, has also practiced thrift the manpower.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic structural diagram of wind power magnetic steel according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of the wrap angle according to the embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a wind power magnetic steel adhesion wrap angle according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of the special device for bonding wrap angles of wind power magnetic steel according to the embodiment of the invention;

fig. 5 is a schematic structural diagram of another view angle of the special device for bonding wrap angles of wind power magnetic steel according to the embodiment of the invention.

Detailed Description

The present invention is further described in detail below with reference to the attached drawings so that those skilled in the art can implement the invention by referring to the description text.

It is to be noted that the experimental methods described in the following embodiments are all conventional methods unless otherwise specified, and the reagents and materials, if not otherwise specified, are commercially available; in the description of the present invention, the terms "lateral", "longitudinal", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 4 to 5, the invention provides a special device for bonding wrap angles of wind power magnetic steel, which comprises:

a work table 3;

specifically, the table 3 may be a steel plate disposed on a reference plane;

the magnetic steel limiting table 4 is arranged on the workbench 3, and a plurality of stop blocks 5 are arranged on the magnetic steel limiting table 4 and used for surrounding and blocking the left side surface and the right side surface of the wind power magnetic steel 1 with the wrap angle 2 and the back side surface without the wrap angle 2 when the wind power magnetic steel 1 is placed on the magnetic steel limiting table 4;

specifically, the number of the stop blocks 5 can be three, two stop blocks 5 are respectively arranged along a pair of wide sides of the bottom surface of the wind power magnetic steel 1, the other stop block 5 is arranged along one long side of the bottom surface of the wind power magnetic steel 1, in addition, because the left side surface and the right side surface of the wind power magnetic steel 1 are slightly inclined outwards, the two stop blocks 5 arranged along the pair of wide sides of the bottom surface of the wind power magnetic steel 1 are also milled into inclined surfaces matched with the left side surface and the right side surface of the wind power magnetic steel 1, and the rear side surface of the wind power magnetic steel 1 is a vertical surface, so that the stop blocks 5 arranged along one long side surface of the bottom surface of the wind power magnetic steel 1 can be milled into vertical surfaces matched with the rear side surface of the wind power magnetic steel 1, when the wind power magnetic steel 1 adhered with the wrap angle 2 is placed on the magnetic steel limit table 4, the three stop blocks 5 can tightly adhere to the three side surfaces of the wind power magnetic steel 1 and play a role of surrounding limit, when the magnetic steel limiting table 4 is machined, a plane and three stop blocks 5 can be milled on the steel block through a machining center. It should be noted that, because the stopper 5 only plays a role in surrounding and limiting, and cannot interfere with the bonding of the wrap angle 2, the top of the stopper 5 needs to be lower than the lowest edge of the wrap angle 2 adhered to the wind power magnetic steel 1.

The three pressing mechanisms are arranged on the workbench 3 and are respectively positioned on the left side and the right side of the magnetic steel limiting table 4 and in front of the magnetic steel limiting table, each pressing mechanism comprises a telescopic element and a pressing block connected to the telescopic element, and when the wind power magnetic steel 1 adhered with the wrap angle 2 is placed on the magnetic steel limiting table 4, the telescopic element drives the pressing block to press the wrap angle 2, so that the wrap angle 2 is adhered firmly.

Specifically, the abutting mechanism further comprises a telescopic element support, the telescopic element is arranged on the telescopic element support, and the telescopic element support is fixed on the workbench 3.

The three pressing mechanisms comprise two first pressing mechanisms 6 and a second pressing mechanism 7, and the two first pressing mechanisms 6 are respectively positioned at the left side and the right side of the magnetic steel limiting table 4;

wherein, the telescopic element bracket 603 of the first pressing mechanism 6 comprises a seat plate fixed on the workbench 3 and an inclined plate connected with the seat plate and inclined towards the magnetic steel limit table 4, as shown in fig. 4, the seat plate is connected with the workbench 3 by screws, the telescopic element 601 of the first pressing mechanism 6 is fixed on the surface of the inclined plate opposite to the magnetic steel limit table 4, the inclined plate is provided with a first through hole for the telescopic part of the telescopic element 601 of the first pressing mechanism 6 to pass through, a press block 602 of the first pressing mechanism 6 is connected with the telescopic part of the telescopic element 601 of the first pressing mechanism 6, the press block 602 is positioned at one side of the inclined plate facing the magnetic steel limit table 4, the press block 602 of the first pressing mechanism 6 is provided with a groove matched with the long bending part of the wrap angle 2, when the telescopic part of the telescopic element 601 of the first pressing mechanism 6 extends, the pressing block 602 of the first abutting mechanism 6 abuts against the long bending part of the wrap angle 2.

The telescopic element support 703 of the second abutting mechanism 7 comprises a vertical plate fixed on the side surface of the workbench 3, the vertical plate is connected with the workbench 3 through a screw, the telescopic element 701 of the second abutting mechanism 7 is fixed on the surface of the vertical plate opposite to the magnetic steel limit table 4, a second through hole for allowing the telescopic part of the telescopic element 701 of the second abutting mechanism 7 to pass through is formed in the vertical plate, the press block 702 of the second abutting mechanism 7 is connected with the telescopic part of the telescopic element 701 of the second abutting mechanism 7, the press block 702 is positioned on one side of the vertical plate facing the magnetic steel limit table 4, the press block 702 of the second abutting mechanism 7 comprises two convex parts which are respectively opposite to the short bent side parts of the two side cornerites 2 of the wind power magnetic steel 1 placed on the magnetic steel limit table 4, and when the telescopic part 701 of the second abutting mechanism 7 is extended, the two convex parts of the press block 702 of the second abutting mechanism 7 respectively abut against the short bent side parts of the two sides of the two side cornerites 2 of the wind power magnetic steel 1 And bending the side parts.

In the use process of the embodiment, the wind power magnetic steel 1 adhered with the wrap angle 2 is firstly clamped and limited in the station which is surrounded by the three stop blocks 5 on the magnetic steel limiting platform 4, then the three telescopic elements of the abutting mechanism drive the pressing block to abut against the wrap angle 2 on the surface of the wind power magnetic steel 1 at the same time, the glue for adhering the wrap angle 2 and the wind power magnetic steel 1 is cured to contract the telescopic elements, the pressing block is far away from the wind power magnetic steel 1, and then the wind power magnetic steel 1 adhered with the wrap angle 2 is taken out from the magnetic steel limiting platform 4. Above-mentioned whole in-process, because the magnet steel is spacing on spacing platform 4 of magnet steel, therefore when the briquetting supported wind-powered electricity generation magnet steel 1 surperficial cornerite 2, wind-powered electricity generation magnet steel 1 can not slide, and cornerite 2 is supported to press at the briquetting and is hugged closely wind-powered electricity generation magnet steel 1, and the bonding location is accurate, and in the glue solidification process, flexible component power is unchangeable, so application of force standard is unanimous, and the bonding process uses mechanical substitution manual work to accomplish simultaneously, has also practiced thrift the manpower.

In another embodiment, the first pressing mechanism 6 further includes a pressing block limiting plate 604 fixed on the surface of the inclined plate facing the magnetic steel limiting table 4, and abutting against the pressing block to limit the rotation of the pressing block.

Specifically, as shown in fig. 4-5, the briquetting limiting plate 604 can be set up to be the plate body of buckling into the right angle, a right angle panel of briquetting limiting plate 604 passes through the bolt fastening on the swash plate, and another right angle panel holds in the palm in the briquetting below to one side, and the briquetting will be supported by briquetting limiting plate 604 like this, is difficult to take place the rotation, and ideal here is more, when the briquetting supported and presses on cornerite 2, the briquetting still has the part to be supported by briquetting limiting plate 604, and the whole stroke of briquetting all is restricted to rotate like this, can avoid the recess skew on the briquetting to lead to the pressure to decrease wind-powered electricity generation magnet steel 1.

In another embodiment, the telescopic element is a pneumatic telescopic rod, and the special device for bonding the wrap angle by the wind power magnetic steel further comprises:

the three electromagnetic valves 8 respectively control the air supply pipelines of the pneumatic telescopic rods in the three abutting mechanisms;

the PLC 9 is respectively connected with the three electromagnetic valves 8 and is used for controlling the three electromagnetic valves 8 to be opened or closed;

the starting switch 10 is connected with the PLC 9 and used for outputting a starting signal to enable the PLC 9 to control the three electromagnetic valves 8 to be opened;

and the emergency stop switch 11 is connected with the PLC 9 and is used for outputting an emergency stop signal to enable the PLC 9 to control the three electromagnetic valves 8 to be closed.

Above-mentioned embodiment can make PLC controller 9 control three solenoid valve 8 open through pressing starting switch 10 in the use, and three pneumatic telescopic link obtains the air feed back, promotes three briquetting and is close to simultaneously and supports and press wind-powered electricity generation magnet steel 1 cornerite 2, when emergency appears, can press scram switch 11 immediately, makes PLC controller 9 control three solenoid valve 8 close, waits that emergency to eliminate, pulls out scram switch 11 again, presses starting switch 10 and continues work.

Here, the opening duration of the electromagnetic valve 8 can be regulated and controlled by the PLC controller 9, and the opening duration of the electromagnetic valve 8 can be preset in the PLC controller 9 in advance according to the glue curing time.

More preferably, the PLC controller 9 may be operated by a touch panel, and an air pressure sensor may be provided in an air supply line of the pneumatic telescopic rod to display the pneumatic pressure through the touch panel.

In another embodiment, a supporting rack 12 is disposed below the working table 3, the working table 3 is fixed on a top plate of the supporting rack 12, where the supporting rack 12 may be a structure as shown in fig. 4-5, and includes a supporting frame and a top plate disposed on a top surface of the supporting frame, lower ends of four supporting rods of the supporting frame may further be provided with feet 13, the feet 13 are in threaded connection with the supporting rods, and the top plate can be adjusted to be in a horizontal state by rotating the feet 13.

The starting switch 10 and the emergency stop switch 11 are installed on the top plate of the supporting rack 12, a control box is arranged in the supporting rack 12, and the electromagnetic valve 8 and the PLC 9 are installed in the control box.

In another embodiment, the telescopic element may also be a hydraulic telescopic rod or an electric telescopic rod.

Here, if the telescopic element is a hydraulic telescopic rod, the three solenoid valves 8 control the liquid supply lines of the hydraulic telescopic rod in the three pressing mechanisms respectively, and the use method is the same as that of the pneumatic telescopic rod.

If the telescopic elements adopt electric telescopic rods, the motors of the three electric telescopic rods can be directly controlled by the PLC 9 without arranging the electromagnetic valve 8.

While embodiments of the invention have been described above, it is not limited to the applications set forth in the description and the embodiments, which are fully applicable in various fields of endeavor to which the invention pertains, and further modifications may readily be made by those skilled in the art, it being understood that the invention is not limited to the details shown and described herein without departing from the general concept defined by the appended claims and their equivalents.

Claims (9)

1. The utility model provides a wind-powered electricity generation magnet steel bonding cornerite isolated plant which characterized in that includes:

a work table;

the magnetic steel limiting table is arranged on the workbench, and a plurality of stop blocks are arranged on the magnetic steel limiting table and used for surrounding and blocking the left side surface and the right side surface of the wind power magnetic steel with wrap angle adhesion and the rear side surface without wrap angle adhesion when the wind power magnetic steel is placed on the magnetic steel limiting table;

the three pressing mechanisms are arranged on the workbench and are respectively positioned on the left side and the right side of the magnetic steel limiting table and in front of the magnetic steel limiting table, each pressing mechanism comprises a telescopic element and a pressing block connected to the telescopic element, and when the wind power magnetic steel adhered with the wrap angle is placed on the magnetic steel limiting table, the telescopic element drives the pressing block to press the wrap angle, so that the wrap angle is adhered to be solid.

2. The special device for bonding and wrapping wind power magnetic steel according to claim 1, wherein the pressing mechanism further comprises a telescopic element support, the telescopic element is arranged on the telescopic element support, and the telescopic element support is fixed on the workbench.

3. The special device for bonding the wrap angle of the wind power magnetic steel as claimed in claim 2, wherein the telescopic element is any one of a pneumatic telescopic rod, a hydraulic telescopic rod and an electric telescopic rod.

4. The special device for bonding the wind power magnetic steel wrap angle of claim 3, wherein the telescopic element is a pneumatic telescopic rod, and the special device for bonding the wind power magnetic steel wrap angle further comprises:

the three electromagnetic valves respectively control the air supply pipelines of the pneumatic telescopic rods in the three abutting mechanisms;

the PLC is respectively connected with the three electromagnetic valves and is used for controlling the three electromagnetic valves to be opened or closed;

the starting switch is connected with the PLC and is used for outputting a starting signal to enable the PLC to control the three electromagnetic valves to be opened;

and the emergency stop switch is connected with the PLC and is used for outputting an emergency stop signal to enable the PLC to control the three electromagnetic valves to be closed.

5. The special device for bonding the wrap angle of the magnetic steel for the wind power generation as claimed in claim 2, wherein the three pressing mechanisms comprise two first pressing mechanisms and one second pressing mechanism, and the two first pressing mechanisms are respectively positioned at the left side and the right side of the magnetic steel limiting table;

the telescopic element support of the first abutting mechanism comprises a seat plate fixed on the workbench and an inclined plate which is connected with the seat plate and inclines towards the magnetic steel limiting table, the telescopic element of the first abutting mechanism is fixed on the surface of the inclined plate, which is opposite to the magnetic steel limiting table, the inclined plate is provided with a first through hole for allowing a telescopic part of the telescopic element of the first abutting mechanism to pass through, a pressing block of the first abutting mechanism is connected with the telescopic part of the telescopic element of the first abutting mechanism, the pressing block is positioned on one side, facing the magnetic steel limiting table, of the inclined plate, a groove matched with the wrap angle long bending part is formed in the pressing block of the first abutting mechanism, and when the telescopic part of the telescopic element of the first abutting mechanism extends, the pressing block of the first abutting mechanism abuts against the wrap angle long bending part.

6. The device special for bonding and angle wrapping of wind power magnetic steel according to claim 5, wherein the first abutting mechanism further comprises a pressing block limiting plate, which is fixed on a plate surface of the inclined plate facing the magnetic steel limiting table and abuts against the pressing block to limit the rotation of the pressing block.

7. The special device for bonding and wrapping wind power magnetic steel according to claim 5, wherein the telescopic element bracket of the second pressing mechanism comprises a vertical plate fixed on the side surface of the workbench, the telescopic element of the second abutting mechanism is fixed on the surface of the vertical plate back to the magnetic steel limit table, the vertical plate is provided with a second through hole for the telescopic part of the telescopic element of the second abutting mechanism to pass through, the pressing block of the second abutting mechanism is connected with the telescopic part of the telescopic element of the second abutting mechanism, the pressing block is positioned on one side of the vertical plate facing the magnetic steel limiting table, the pressing block of the second abutting mechanism comprises two convex parts, the two convex parts are respectively opposite to the short bending side parts of the wrap angles on the two sides of the wind power magnetic steel placed on the magnetic steel limiting table, when the telescopic part of the telescopic element of the second abutting mechanism extends, the two convex parts of the pressing block of the second abutting mechanism respectively abut against the short bent side parts of the wrap angles on the two sides of the wind power magnetic steel.

8. The special device for bonding the wrap angle of the wind power magnetic steel as claimed in claim 4, wherein a support rack is arranged below the workbench, and the workbench is fixed on a top plate of the support rack.

9. The special device for bonding the wind power magnetic steel wrap angle of claim 8, wherein the starting switch and the emergency stop switch are installed on a top plate of the supporting rack, a control box is arranged in the supporting rack, and the electromagnetic valve and the PLC are installed in the control box.

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