CN114408553A - Feeding equipment for detecting rotating shaft of wind generating set - Google Patents

Abstract

The invention relates to the technical field of shaft feeding accessories, in particular to feeding equipment for detecting a rotating shaft of a wind generating set, which comprises a horizontally arranged bottom plate; the device comprises four groups of upright posts and a top plate, wherein the top plate is arranged on a bottom plate through the four groups of upright posts; two groups of door-shaped frames are arranged on the top plate, wherein a plurality of guide rods are arranged between the cross beams on the two groups of door-shaped frames at equal intervals from front to back, and the positions of the guide rods close to the left side are provided with bent arc structures; the intermittent feeding mechanism is arranged on the top plate and comprises a turntable and four support plates, the four support plates are uniformly arranged on the circumferential outer wall of the turntable, and material clamping shell grooves are formed in centrifugal ends of the four support plates; the intermittent material pushing mechanism is arranged on the top plate and comprises a material pushing column; and the driving mechanism is arranged on the top plate. According to the automatic feeding device, intermittent feeding is automatically carried out on the rotating shaft, manual operation of workers is not needed, labor and time are saved, the labor intensity of the workers is low, and the working efficiency is high.

Description

Feeding equipment for detecting rotating shaft of wind generating set

Technical Field

The invention relates to the technical field of shaft feeding accessories, in particular to feeding equipment for detecting a rotating shaft of a wind generating set.

Background

The rotating shaft is an important composition structure on the wind wheel of the wind generating set, after the rotating shaft is processed, the circumferential degree of the rotating shaft needs to be detected, at present, when the circumferential degree of the rotating shaft is detected, workers manually feed the rotating shaft and fix the rotating shaft on circumferential degree detection equipment, manpower is wasted, time for taking and placing the rotating shaft is long, the labor intensity of the workers is high, and the working efficiency is low.

In view of the defects, the inventor of the invention actively researches and innovates based on practical experience and professional knowledge which are abundant for many years when the product is designed and manufactured, and by matching with the application of theory, so as to create the feeding equipment for detecting the rotating shaft of the wind generating set, and the feeding equipment can automatically and intermittently feed the rotating shaft without manual operation of workers, thereby saving manpower, time, labor intensity and working efficiency. After continuous research and design and repeated trial production and improvement, the invention with practical value is finally created.

Disclosure of Invention

The invention mainly aims to provide feeding equipment for detecting a rotating shaft of a wind generating set, so that the problems pointed out in the background art are effectively solved.

In order to achieve the purpose, the invention adopts the technical scheme that:

the utility model provides a wind generating set pivot detects uses charging equipment, includes:

a bottom plate horizontally arranged;

the frame is arranged on the bottom plate and comprises four groups of stand columns and a top plate, and the top plate is arranged on the bottom plate through the four groups of stand columns;

the top plate is provided with two groups of door-shaped frames, wherein the height of the door-shaped frame on the left side is lower than that of the door-shaped frame on the right side, a plurality of guide rods are arranged between the cross beams on the two groups of door-shaped frames at equal intervals from front to back, the positions of the guide rods close to the left side are provided with curved structures, and limiting plates are arranged on the front and back sides above the guide rods;

the intermittent feeding mechanism is arranged on the top plate and comprises a turntable and four support plates, the four support plates are uniformly arranged on the circumferential outer wall of the turntable, and material clamping shell grooves are formed in centrifugal ends of the four support plates;

the intermittent material pushing mechanism is arranged on the top plate, comprises a material pushing column, is positioned in front of the bent arc structure and is used for pushing the shaft raw material positioned in the bent arc structure to move backwards;

and the driving mechanism is arranged on the top plate and is used for providing driving force for the intermittent feeding mechanism and the intermittent pushing mechanism.

The intermittent feeding mechanism further comprises a connecting plate and a fixing plate which are both arranged on the top plate, an auxiliary plate is arranged on the connecting plate, a connecting shaft is arranged on the auxiliary plate in a rotating mode, a damping ring is arranged between the connecting shaft and the auxiliary plate and used for providing damping force for the connecting shaft, the rear end of the connecting shaft is connected with the turntable, a gear is arranged at the front end of the connecting shaft, the length of the gear is long, a sliding groove hole is formed in the fixing plate, a sliding block is arranged in the sliding groove hole in a sliding mode, a square column is transversely arranged on the sliding block in a sliding mode, and a rack is arranged at the right end of the square column;

wherein the rack is meshed with the gear.

Furthermore, the intermittent pushing mechanism also comprises a sliding seat, a sliding groove is formed in the top plate, and the sliding seat is slidably mounted in the sliding groove;

wherein, a spring is arranged between the sliding seat and the inner rear wall of the sliding groove, and the right end of the sliding seat is provided with a shifting sheet;

the sliding seat is provided with a linkage plate, the linkage plate extends forwards to the front of the sliding seat, the linkage plate is provided with a mounting plate, and the material pushing column is mounted on the mounting plate.

The driving mechanism further comprises a motor which is arranged on the top plate, the output end of the motor is provided with a speed regulator, the speed regulator is provided with a driving shaft, the driving shaft penetrates through the top plate in a rotating mode, the top end of the driving shaft is provided with a circular plate, and the bottom of the circular plate is provided with a shifting lever;

wherein, the square column is rotationally connected with the circular plate.

Furthermore, the bottom plate is provided with a discharging mechanism which comprises a movable plate, the movable plate sequentially penetrates through the top plate and the bottom plate from top to bottom, track holes are formed in the top plate and the bottom plate and used for enabling the movable plate to slide back and forth, the top end of the movable plate is connected with the sliding seat, the moving bottom end of the movable plate is provided with a driving toothed plate, the bottom end of the bottom plate is rotatably provided with a toothed disc, the driving toothed plate is meshed with the toothed disc, driven toothed plates are meshed with the toothed disc and symmetrically arranged with the driving toothed plate, the rear ends of the driven toothed plates are provided with guide columns, the rear ends of the guide columns are provided with supporting plates, and discharging columns are arranged on the supporting plates;

wherein, the rear end of four card feed shell grooves all link up and is provided with the through-hole, and the internal diameter of through-hole is greater than the external diameter of unloading post.

Furthermore, two limiting columns are arranged in the sliding groove, and the sliding seat is sleeved on the two limiting columns in a sliding mode.

Furthermore, rubber stays are arranged on the circumferential inner walls of the four material clamping shell grooves at equal intervals.

Furthermore, the device also comprises four support legs which are arranged at four corners of the bottom end of the bottom plate and used for supporting the device.

After the technical scheme is adopted, the invention has the beneficial effects that:

the shaft raw materials are firstly arranged on a plurality of guide rods, the shaft raw material positioned at the leftmost side enters the curved arc structures on the plurality of guide rods, the intermittent material pushing mechanism pushes the shaft raw material in the curved arc structures to move backwards, the rear end of the shaft raw material is clamped into the material clamping shell groove corresponding to the curved arc structures, then the intermittent material feeding mechanism drives four material clamping shell grooves to do circular motion by taking the circle center of the rotary table as the axis, the position of the uppermost one of the four material clamping shell grooves corresponds to an external detection station, wherein the four material clamping shell grooves are driven by the driving mechanism to do clockwise intermittent 90-degree rotation, after the shaft raw material positioned in the curved arc structures is taken away, the rest shaft raw materials sequentially enter the curved arc structures, the shaft can be automatically intermittently fed, the manual operation of workers is not needed, the labor is saved, the time is saved, and the labor intensity of the workers is low, the working efficiency is high.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic perspective view of a right front down angled construction of the present invention;

FIG. 2 is a schematic perspective view of the left rear-up squint configuration of the present invention;

FIG. 3 is a schematic perspective view of a right front to rear oblique view configuration of the present invention;

FIG. 4 is a schematic perspective view of a cross-sectional right front down angled construction of the present invention;

FIG. 5 is an enlarged view of a portion of the structure at A in FIG. 1 in accordance with the present invention;

FIG. 6 is an enlarged view of a portion of the structure at B in FIG. 3 in accordance with the present invention;

FIG. 7 is an enlarged view of a portion of the structure of FIG. 3 at C in accordance with the present invention;

reference numerals: 1. a base plate; 2. a column; 3. a top plate; 4. a door-shaped frame; 5. a guide bar; 6. a limiting plate; 7. an intermittent feeding mechanism; 701. a turntable; 702. a support plate; 703. a material clamping shell groove; 704. a connecting plate; 705. a fixing plate; 706. an auxiliary plate; 707. a connecting shaft; 708. a damping ring; 709. a gear; 710. a slider; 711. a square column; 712. a rack; 8. an intermittent material pushing mechanism; 801. pushing the material column; 802. a sliding seat; 803. a spring; 804. a shifting sheet; 805. a linkage plate; 806. mounting a plate; 9. a drive mechanism; 901. a motor; 902. a speed regulator; 903. a drive shaft; 904. a circular plate; 905. a deflector rod; 10. a discharge mechanism; 1001. moving the plate; 1002. a driving toothed plate; 1003. a fluted disc; 1004. a driven toothed plate; 1005. a guide post; 1006. a support plate; 1007. unloading the column; 11. a limiting column; 12. a rubber stay; 13. and (7) supporting legs.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

According to the feeding device for detecting the rotating shaft of the wind generating set, the installation mode, the connection mode or the arrangement mode of all the components are common mechanical modes, and the specific structures, models and coefficient indexes of all the components are self-contained technologies, so that the feeding device can be implemented as long as the beneficial effects of the feeding device can be achieved, and further description is omitted.

The feeding equipment for detecting the rotating shaft of the wind generating set has the advantages that under the condition that the reverse explanation is not carried out, the directional terms "up, down, left, right, front, back, inside, and outside, and vertical and horizontal" included in the term merely represent the orientation of the term in the normal use state, or be a trivial term understood by those skilled in the art, and should not be considered as limiting the term, at the same time, the numerical terms "first," "second," and "third," etc. do not denote any particular quantity or order, but rather are used to distinguish one from another, furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements, but also includes other elements not expressly listed or inherent to such process, method, article, or apparatus.

As shown in fig. 1-4, a feeding device for detecting a rotating shaft of a wind generating set comprises: a bottom plate 1 arranged horizontally; the frame is arranged on the bottom plate 1 and comprises four groups of upright posts 2 and a top plate 3, and the top plate 3 is arranged on the bottom plate 1 through the four groups of upright posts 2; two groups of door-shaped frames 4 are arranged on the top plate 3, wherein the height of the door-shaped frame 4 on the left side is lower than that of the door-shaped frame 4 on the right side, a plurality of guide rods 5 are arranged between the cross beams on the two groups of door-shaped frames 4 at equal intervals from front to back, a bent arc structure is arranged at the position, close to the left side, of each guide rod 5, and limiting plates 6 are arranged on the front side and the back side above each guide rod 5; the intermittent feeding mechanism 7 is arranged on the top plate 3 and comprises a turntable 701 and four support plates 702, the four support plates 702 are uniformly arranged on the outer wall of the circumference of the turntable 701, and material clamping shell grooves 703 are formed in centrifugal ends of the four support plates 702; the intermittent material pushing mechanism 8 is arranged on the top plate 3, comprises a material pushing column 801 and is positioned in front of the bent arc structure and used for pushing the shaft raw material positioned in the bent arc structure to move backwards; and the driving mechanism 9 is arranged on the top plate 3 and is used for providing driving force for the intermittent feeding mechanism 7 and the intermittent pushing mechanism 8.

In the using process of the device, shaft raw materials are firstly arranged on a plurality of guide rods 5, the shaft raw material positioned at the leftmost side enters a curved arc structure on the plurality of guide rods 5, the shaft raw material in the curved arc structure is pushed to move backwards through an intermittent material pushing mechanism 8, the rear end of the shaft raw material is clamped into a material clamping shell groove 703 corresponding to the curved arc structure, then an intermittent feeding mechanism 7 drives the four material clamping shell grooves 703 to do circular motion by taking the circle center of a turntable 701 as an axis, the position of the uppermost material clamping shell groove 703 in the four material clamping shell grooves 703 corresponds to an external detection station, wherein the four material clamping shell grooves 703 are driven by a driving mechanism 9 to rotate clockwise at intervals of 90 degrees, and after the shaft raw material positioned in the curved arc structure is taken away, the rest shaft raw materials sequentially enter the curved arc structure.

In the process, the intermittent feeding mechanism 7 and the intermittent pushing mechanism 8 are linked, so that intermittent feeding can be automatically carried out on the rotating shaft, manual operation of workers is not needed, manpower is saved, time is saved, the labor intensity of the workers is low, and the working efficiency is high.

As a preferred embodiment, as shown in fig. 1, 2, 3, 4 and 7, the intermittent feeding mechanism 7 further includes a connecting plate 704 and a fixing plate 705, both of which are mounted on the top plate 3, an auxiliary plate 706 is disposed on the connecting plate 704, a connecting shaft 707 is rotatably disposed on the auxiliary plate 706, a damping ring 708 is disposed between the connecting shaft 707 and the auxiliary plate 706 for providing a damping force to the connecting shaft 707, a rear end of the connecting shaft 707 is connected to the rotating disc 701, a gear 709 is disposed at a front end of the connecting shaft 707, wherein the gear 709 has a long length, a sliding slot is disposed on the fixing plate 705, a slider 710 is slidably disposed in the sliding slot, a square column 711 is slidably disposed on the slider 710, and a rack 712 is disposed at a right end of the square column 711; wherein the rack 712 is engaged with the gear 709.

In the using process, the rack 712 moves transversely to further drive the gear 709 engaged with the rack to rotate, the gear 709 drives the rotating disc 701 to rotate through the connecting shaft 707, and the rotating disc 701 drives the four material clamping shell grooves 703 to rotate, wherein the connecting shaft 707 can only rotate under the driving of the rack 712 and the gear 709 because the damping ring 708 is arranged between the connecting shaft 707 and the auxiliary plate 706, and when the rack 712 and the gear 709 do not have driving force to the connecting shaft 707, the connecting shaft 707 cannot rotate, so that the four material clamping shell grooves 703 can stably stop after reaching a specified position, and when the rack 712 moves left and right, the slider 710 can slide back and forth in the sliding groove hole, so that the moving track of the rack 712 does not follow a straight line, but a specific track (which can be understood in the description of the driving mechanism 9 later).

As shown in fig. 1, 2, 3 and 4, the intermittent pushing mechanism 8 further includes a sliding seat 802, the top plate 3 is provided with a sliding groove, and the sliding seat 802 is slidably mounted in the sliding groove; wherein, a spring 803 is arranged between the sliding seat 802 and the rear wall in the sliding groove, and a shifting piece 804 is arranged at the right end of the sliding seat 802; the sliding seat 802 is provided with a linkage plate 805, the linkage plate 805 extends forwards to the front of the sliding seat 802, the linkage plate 805 is provided with a mounting plate 806, and the pushing column 801 is mounted on the mounting plate 806.

In the using process, the sliding seat 802 can move backwards under the driving of the driving mechanism 9, in the backwards movement process of the sliding seat 802, the spring 803 is in a state of being continuously compressed, at the moment that the driving mechanism 9 does not apply a driving force to the sliding seat 802, the sliding seat 802 moves forwards to an initial position under the action of elastic deformation recovery of the spring 803, in the backwards movement process of the sliding seat 802, the sliding seat 802 drives the material pushing column 801 to move backwards through the linkage plate 805, the material pushing column 801 moves the shaft raw material located in the curved arc structure backwards, and the rear end of the shaft raw material is clamped into the material clamping shell groove 703 corresponding to the position.

In the process, after the pushing column 801 pushes the shaft raw material backwards into the material clamping shell groove 703, the turntable 701 rotates clockwise by 90 degrees, so that the material clamping shell groove 703 where the shaft raw material is clamped rotates to the detection station for detection, the whole device firstly performs pushing operation and then performs feeding operation, and the processes are sequentially circulated, so that the shaft raw material can be automatically fed.

As shown in fig. 1, 2, 3 and 4, the driving mechanism 9 further includes a motor 901 mounted on the top plate 3, a speed regulator 902 is disposed at an output end of the motor 901, a driving shaft 903 is disposed on the speed regulator 902, the driving shaft 903 is rotatably passed through the top plate 3, a circular plate 904 is disposed at a top end of the driving shaft 903, and a shift lever 905 is disposed at a bottom of the circular plate 904; the square column 711 is rotatably connected with the circular plate 904.

In the using process, the motor 901 drives the circular plate 904 to rotate, the circular plate 904 rotates clockwise in the overlooking view angle, the circular plate 904 drives the shift lever 905 to rotate, the shift lever 905 pushes the shift sheet 804 to move backwards when rotating to be in contact with the shift sheet 804, the shift sheet 804 drives the sliding seat 802 to move backwards, when the shift lever 905 is out of contact with the shift sheet 804, the material pushing column 801 completes one material pushing action, and when the shift lever 905 is out of contact with the shift sheet 804, the sliding seat 802 returns to the original position.

In the above process, when the circular plate 904 rotates, because the square column 711 and the circular plate 904 are in a rotational connection relationship, and as can be clearly seen from fig. 1, the rotational connection position of the square column 711 and the circular plate 904 is not the center of the circular plate 904, when the circular plate 904 rotates, the motion trajectory of the rack 712 is elliptical due to the limiting function of the slider 710, when the rack 712 performs circular motion to the right, the rack 712 slides forward while meshing with the gear 709, until the rack 712 disengages from the gear 709, the rack 712 performs circular motion to the left, and further the gear 709 rotates 90 degrees when the circular plate 904 rotates one turn, so that when the circular plate 904 rotates one turn, one pushing motion and one sequential loading motion are sequentially completed.

As a preferred embodiment, as shown in fig. 1, 2, 3 and 4, the bottom plate 1 is provided with a discharging mechanism 10, which includes a moving plate 1001, the moving plate sequentially penetrates through the top plate 3 and the bottom plate 1 from top to bottom, and the top plate 3 and the bottom plate 1 are both provided with track holes for the moving plate 1001 to slide back and forth, the top end of the moving plate 1001 is connected with a sliding seat 802, the moving bottom end of the moving plate is provided with a driving toothed plate 1002, the bottom end of the bottom plate 1 is rotatably provided with a toothed plate 1003, wherein the driving toothed plate 1002 is engaged with the toothed plate 1003, a driven toothed plate 1004 is engaged with the toothed plate 1003 and symmetrically provided with the driving toothed plate 1002, the rear end of the driven toothed plate 1004 is provided with a guide column 1005, the rear end of the guide column 1005 is provided with a support plate 1006, and the support plate 1006 is provided with a discharging column 1007; wherein, the rear ends of the four material clamping shell grooves 703 are all provided with through holes in a penetrating manner, and the inner diameters of the through holes are larger than the outer diameter of the discharging column 1007.

In the using process, the discharging column 1007 on the discharging mechanism 10 is connected with the sliding seat 802 on the intermittent material pushing mechanism 8 through the moving plate 1001, the driving toothed plate 1002 drives the toothed disc 1003 to rotate, and further indirectly drives the driven toothed plate 1004 to rotate, because the toothed disc 1003 plays a reversing role, the motion of the discharging column 1007 and the motion of the sliding seat 802 are reverse and opposite, the lowermost material clamping shell groove 703 in the four material clamping shell grooves 703 is just at the discharging position, when the detected shaft raw material moves to the lowermost discharging position, the discharging column 1007 completes one discharging action while the discharging column 801 completes one material pushing action, namely one discharging is completed, so that the manual participation of workers is not needed during the feeding and discharging, and the labor intensity of the workers is effectively reduced.

As shown in fig. 4 and 5, preferably, the two limit posts 11 are disposed in the sliding groove, and the sliding seat 802 is slidably fitted over the two limit posts 11.

In the using process, the two limiting columns 11 can limit the sliding seat 802, and the sliding seat 802 is prevented from being separated from the sliding groove.

As a preferable example of the above embodiment, as shown in fig. 1 to 4, rubber stays 12 are provided at equal intervals on the circumferential inner walls of the four card housing grooves 703.

In the using process, the rubber stays 12 in the four material clamping shell grooves 703 can further enhance the clamping effect on the shaft raw materials, so that the material clamping on the shaft raw materials is stable.

As a preferred embodiment, as shown in fig. 1-4, the device further comprises four legs 13 mounted at four corners of the bottom end of the bottom plate 1 for supporting the device.

In the use process, the four supporting legs 13 can support the whole device and can prevent the bottom surface of the bottom plate 1 from being corroded due to damp.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a wind generating set pivot detects uses charging equipment which characterized in that includes:

a bottom plate (1) arranged horizontally;

the frame is arranged on the bottom plate (1) and comprises four groups of stand columns (2) and a top plate (3), and the top plate (3) is arranged on the bottom plate (1) through the four groups of stand columns (2);

two groups of door-shaped frames (4) are arranged on the top plate (3), wherein the height of the door-shaped frame (4) on the left side is lower than that of the door-shaped frame (4) on the right side, a plurality of guide rods (5) are arranged between the cross beams on the two groups of door-shaped frames (4) at equal intervals from front to back, a bent arc structure is arranged at the position, close to the left side, of each guide rod (5), and limiting plates (6) are arranged on the front side and the rear side above the guide rods (5);

the intermittent feeding mechanism (7) is arranged on the top plate (3) and comprises a turntable (701) and four support plates (702), the four support plates (702) are uniformly arranged on the outer wall of the circumference of the turntable (701), and the centrifugal ends of the four support plates (702) are provided with material clamping shell grooves (703);

the intermittent material pushing mechanism (8) is arranged on the top plate (3), comprises a material pushing column (801) which is positioned in front of the bent arc structure and is used for pushing the shaft raw material positioned in the bent arc structure to move backwards;

and the driving mechanism (9) is arranged on the top plate (3) and is used for providing driving force for the intermittent feeding mechanism (7) and the intermittent pushing mechanism (8).

2. The feeding device for detecting the rotating shaft of the wind generating set according to claim 1, wherein the intermittent feeding mechanism (7) further comprises a connecting plate (704) and a fixing plate (705) which are both installed on the top plate (3), an auxiliary plate (706) is arranged on the connecting plate (704), a connecting shaft (707) is rotatably arranged on the auxiliary plate (706), a damping ring (708) is arranged between the connecting shaft (707) and the auxiliary plate (706), is used for providing damping force for the connecting shaft (707), the rear end of the connecting shaft (707) is connected with the turntable (701), the front end of the connecting shaft (707) is provided with a gear (709), wherein, the length of the gear (709) is longer, a sliding slot hole is arranged on the fixing plate (705), a sliding block (710) is arranged in the sliding groove hole in a sliding mode, a square column (711) is arranged on the sliding block (710) in a transverse sliding mode, and a rack (712) is arranged at the right end of the square column (711);

wherein the rack (712) is meshed with the gear (709).

3. The feeding equipment for detecting the rotating shaft of the wind generating set according to claim 1, wherein the intermittent pushing mechanism (8) further comprises a sliding seat (802), a sliding groove is formed in the top plate (3), and the sliding seat (802) is slidably mounted in the sliding groove;

wherein, a spring (803) is arranged between the sliding seat (802) and the rear wall in the sliding groove, and the right end of the sliding seat (802) is provided with a shifting sheet (804);

the sliding seat (802) is provided with a linkage plate (805), the linkage plate (805) extends forwards to the front of the sliding seat (802), the linkage plate (805) is provided with a mounting plate (806), and the material pushing column (801) is mounted on the mounting plate (806).

4. The feeding equipment for detecting the rotating shaft of the wind generating set according to claim 1, wherein the driving mechanism (9) further comprises a motor (901) which is installed on the top plate (3), a speed regulator (902) is arranged at the output end of the motor (901), a driving shaft (903) is arranged on the speed regulator (902), the driving shaft (903) penetrates through the top plate (3) in a rotating manner, a circular plate (904) is arranged at the top end of the driving shaft (903), and a shifting rod (905) is arranged at the bottom of the circular plate (904);

wherein, the square column (711) is rotationally connected with the circular plate (904).

5. The feeding equipment for detecting the rotating shaft of the wind generating set according to claim 1, wherein the bottom plate (1) is provided with a discharging mechanism (10) which comprises a moving plate (1001) which sequentially penetrates through the top plate (3) and the bottom plate (1) from top to bottom, the top plate (3) and the bottom plate (1) are provided with track holes, used for sliding the moving plate (1001) back and forth, the top end of the moving plate (1001) is connected with the sliding seat (802), the moving bottom end is provided with a driving toothed plate (1002), the bottom end of the bottom plate (1) is rotatably provided with a toothed disc (1003), the driving toothed plate (1002) is meshed with the toothed plate (1003), the driven toothed plate (1004) is meshed with the toothed plate (1003) and symmetrically arranged with the driving toothed plate (1002), the rear end of the driven toothed plate (1004) is provided with a guide column (1005), the rear end of the guide column (1005) is provided with a support plate (1006), and the support plate (1006) is provided with a discharging column (1007);

wherein, the rear ends of the four material clamping shell grooves (703) are all provided with through holes in a penetrating way, and the inner diameters of the through holes are larger than the outer diameter of the discharging column (1007).

6. The feeding equipment for detecting the rotating shaft of the wind generating set according to claim 3, wherein two limiting columns (11) are arranged in the sliding groove, and the sliding seat (802) is slidably sleeved on the two limiting columns (11).

7. The feeding equipment for detecting the rotating shaft of the wind generating set according to claim 1, wherein rubber stays (12) are arranged on the circumferential inner walls of the four material clamping shell grooves (703) at equal intervals.

8. The feeding equipment for detecting the rotating shaft of the wind generating set according to claim 1, further comprising four supporting legs (13) arranged at four corners of the bottom end of the bottom plate (1) and used for supporting the device.

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