CN117206459A - Bearing forging processing heat treatment equipment for wind power generation equipment with adjustable clamping range - Google Patents

Abstract

The invention discloses bearing forging processing heat treatment equipment for wind power generation equipment with an adjustable clamping range, which comprises a heating box, a feeding mechanism, a clamping mechanism, a second connecting port and an adjusting block, wherein a heating plate is arranged at the inner bottom end of the heating box; meanwhile, the left side view longitudinal section area of the sealing plate is larger than the left side view longitudinal section area of the discharge hole on the right wall of the heating box; the feeding mechanism is arranged on the left side of the heating box and comprises a feeding frame, a first connecting port, a first connecting shaft, a connecting piece, a first connecting rod, a second connecting rod, a connecting disc, a second connecting shaft and a first motor; the clamping mechanism is arranged in the heating box; the second connecting port is formed in the heating plate. This bearing forging processing heat treatment facility for wind power generation equipment of adjustable centre gripping scope is convenient for adjust the centre gripping scope and is spacing to the bearing raw materials, and the convenience is carried out the material loading to the bearing raw materials moreover, and the bearing raw materials after the heating treatment is unloaded simultaneously easily.

Description

Bearing forging processing heat treatment equipment for wind power generation equipment with adjustable clamping range

Technical Field

The invention relates to the technical field of wind power generation equipment, in particular to bearing forging processing heat treatment equipment for wind power generation equipment with an adjustable clamping range.

Background

Wind power generation is one of a plurality of power generation modes, the wind energy is huge, the wind energy can be used for generating electricity, the environment is protected, and the pollution to the environment can be reduced, so that the wind power generation is more and more widely applied, the bearing is an important component in wind power generation equipment, heat treatment is required during the production of the bearing, and the purpose of heat processing is to ensure the strength of the bearing.

The prior bearing forging processing heat treatment equipment for the wind power generation equipment with adjustable clamping range has the following defects in the using process:

1. the clamping range is inconvenient to adjust for limiting the bearing raw materials, so that the bearing raw materials with different lengths are inconvenient to limit;

2. the bearing raw materials are not convenient to feed, so that the bearing raw materials are not easy to transfer into the heating box;

3. the bearing raw materials after the heating treatment are not easy to discharge, so that the bearing raw materials are not easy to take down after the heating treatment, and the novel design is carried out on the basis of the original bearing forging processing heat treatment equipment for the wind power generation equipment with the adjustable clamping range aiming at the problems.

Disclosure of Invention

The invention aims to provide bearing forging processing heat treatment equipment for wind power generation equipment with an adjustable clamping range, which solves the problems that the bearing forging processing heat treatment equipment for wind power generation equipment with the adjustable clamping range is common in the market, is inconvenient to adjust the clamping range to limit bearing raw materials, is inconvenient to load the bearing raw materials and is difficult to unload the bearing raw materials after heating treatment.

In order to achieve the above purpose, the present invention provides the following technical solutions: the bearing forging processing heat treatment equipment for the wind power generation equipment with the adjustable clamping range comprises a heating box which is directly placed on the ground, wherein a heating plate is arranged at the inner bottom end of the heating box, and a sealing plate is rotatably connected to the right end of the heating box;

meanwhile, the left side view longitudinal section area of the sealing plate is larger than the left side view longitudinal section area of the discharging hole of the right wall of the heating box, and the supporting frame is arranged on the left side of the heating box;

further comprises:

the feeding mechanism is arranged on the left side of the heating box and comprises a feeding frame, a first connecting port, a first connecting shaft, a connecting piece, a first connecting rod, a second connecting rod, a connecting disc, a second connecting shaft and a first motor, wherein the bottom end of the feeding frame is fixedly connected to the top end of the supporting frame;

the clamping mechanism is arranged in the heating box and comprises a mounting frame, an adjusting rod, a clamping plate, a second motor, a shielding plate, a connecting frame, a gear, a third connecting shaft, a connecting strip and a track, and meanwhile the mounting frame is integrally connected to the top end of the inside of the heating box;

the second connecting port is formed in the heating plate, the left end of the second connecting port is connected with a pushing plate in a clamping mode, the bottom end of the pushing plate is connected with a supporting rod in an embedded mode, and the lower end of the supporting rod is provided with a hydraulic telescopic rod;

the top bolted connection of regulating block has the regulating block, and the front view longitudinal section of regulating block is "T" font structure to the inside lower extreme threaded connection of regulating block has the threaded rod.

Preferably, the feeding frame is obliquely arranged, the right end of the feeding frame is nested and connected in the left end of the heating box, and the right end of the bottom of the feeding frame is provided with a first connecting port;

the rear end of the feeding frame is rotatably connected with a first connecting shaft, the rear end of the first connecting shaft is integrally connected with a connecting piece, and the upper right front end of the connecting piece is embedded and connected with a first connecting rod.

Through adopting above-mentioned technical scheme, because the pay-off frame is the slope form setting, the right-hand member nested connection of pay-off frame is inside the left end of heating cabinet, consequently conveniently carries out the material loading to the bearing raw materials.

Preferably, the lower right front end of the connecting piece is connected with a second connecting rod in an embedded manner, the bottom end of the connecting piece is contacted with the upper end of the connecting disc, and the left end of the connecting disc is integrally connected with a second connecting shaft;

the second connecting shaft is rotationally connected to the supporting frame, the first motor is installed at the rear end of the second connecting shaft, the first connecting rod is of a rotating structure on the feeding frame through the connecting disc and the connecting piece, and meanwhile, the front-view longitudinal section of the connecting disc is of an oval structure.

Through adopting above-mentioned technical scheme, because the head rod is revolution mechanic through connection pad and connecting piece on the pay-off frame, the front view longitudinal section of connection pad is oval structure, consequently conveniently carries out the material loading to the bearing raw materials.

Preferably, the inner end of the mounting frame is rotatably connected with an adjusting rod, the outer surface of the front middle end of the adjusting rod is of a bidirectional thread structure, the clamping plates are connected to the adjusting rod in a front-back symmetrical thread mode, and meanwhile the top ends of the clamping plates are connected to the inner portion of the upper end of the mounting frame in a sliding mode.

Through adopting above-mentioned technical scheme, because the front and middle end outward appearance of adjusting the pole is two-way screw thread form structure to the threaded connection of grip block fore-and-aft symmetry is on adjusting the pole, and the top sliding connection of grip block is inside the upper end of mounting bracket simultaneously, consequently is convenient for adjust the centre gripping scope and carries out spacingly to the bearing raw materials.

Preferably, the second motor is installed to the rear end of adjusting the pole, and the grip block is sliding structure at the inner of mounting bracket through adjusting the pole, the right side of mounting bracket is provided with the shielding plate, and the nested connection of shielding plate is on the top of heating cabinet, and the upper end fixedly connected with connecting frame of shielding plate.

Through adopting above-mentioned technical scheme, because the grip block is sliding structure through adjusting the inner at the mounting bracket of pole, the nested connection of shielding plate is on the top of heating cabinet, consequently is convenient for adjust the centre gripping scope and carries out spacingly to the bearing raw materials.

Preferably, the inner end of the connecting frame is provided with a gear in a meshed manner, the center of the gear is fixedly connected with a third connecting shaft, the third connecting shaft is rotatably connected to the left upper end of the heating box, and the left end of the third connecting shaft is provided with a third motor.

By adopting the technical scheme, as the inner end of the connecting frame is meshed with the gear, the third connecting shaft is rotationally connected to the left upper end of the heating box, so that the clamping range is convenient to adjust and the bearing raw material is limited.

Preferably, the front and back ends of the connecting frame are embedded and connected with connecting strips, the outer ends of the connecting strips are slidably connected in the track, the symmetrical integrated connection of the track is arranged at the top end of the heating box, and the shielding plate is in a lifting structure in the heating box through the gear and the connecting frame.

Through adopting above-mentioned technical scheme, because the shielding plate is elevation structure through gear and connecting frame in the inside of heating cabinet, consequently be convenient for adjust the centre gripping scope and carry out spacingly to bearing raw materials.

Preferably, the threaded rod is rotatably connected in the connecting seat, the left side view longitudinal section of the connecting seat is of a concave structure, and the right end of the threaded rod is provided with a fourth motor;

wherein, the inside sliding connection of connecting seat has the regulating block, and the push pedal is left and right sliding construction through bracing piece and threaded rod in the inside of hot plate.

Through adopting above-mentioned technical scheme, because the left side view longitudinal section of connecting seat is "concave" font structure, the push pedal is left and right sliding construction through bracing piece and threaded rod in the inside of hot plate, consequently is unloading to the bearing raw materials after the heating treatment easily.

Compared with the prior art, the invention has the beneficial effects that: the bearing forging processing heat treatment equipment for the wind power generation equipment with the adjustable clamping range is convenient for limiting bearing raw materials in the clamping range, and is convenient for feeding the bearing raw materials, and meanwhile, the bearing raw materials after heat treatment are easy to discharge;

1. the clamping mechanism is arranged, the connecting frame is driven to descend when the gear rotates through the structural design of the shielding plate and the heating box, the shielding plate is enabled to stably descend in the heating box through the connecting strips which are symmetrical front and back until the upper end of the shielding plate abuts against the top end of the heating box, the shielding plate is enabled to block bearing raw materials on the heating plate, the clamping plate and the mounting frame are enabled to move inwards in the mounting frame through the structural design of the clamping plate and the mounting frame, and the clamping plate which are symmetrically arranged front and back when the adjusting rod rotates until the inner ends of the clamping plate abut against the front end and the rear end of the bearing raw materials, so that the clamping range is convenient to adjust and limit the bearing raw materials;

2. the feeding mechanism is arranged, and the first connecting rod and the feeding frame are structurally designed, so that the connecting piece is driven to rotate through the connecting disc when the second connecting shaft rotates, the moving directions of the second connecting rod and the first connecting rod are opposite, the second connecting rod blocks bearing raw materials, the first bearing raw materials roll onto the heating plate along the inclined direction of the feeding frame, and accordingly the bearing raw materials are conveniently fed;

3. be equipped with push pedal and threaded rod, the inside block in left end of second connector is connected with the push pedal for hydraulic telescoping rod during operation drives the push pedal and rises, until the bottom of push pedal is kept away from the left end inside of push pedal, the structural design of push pedal and hot plate makes the threaded rod rotate the lower extreme that drives the regulating block and slides right in the inside of connecting seat, lets the bracing piece remove right in the inside of hot plate, thereby the bearing raw materials after the heating treatment is unloaded easily.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of the present invention;

FIG. 2 is a schematic view of a left side cross-sectional structure of the connection of the mounting bracket and the adjusting rod;

FIG. 3 is a schematic diagram of a left side view cross-sectional structure of a connection frame and a connection bar according to the present invention;

FIG. 4 is a schematic diagram of a left side view of the connection of the first connecting shaft and the connecting member according to the present invention;

FIG. 5 is a schematic top view of the present invention;

FIG. 6 is a schematic view showing a cross-sectional structure of a push plate in a moving state according to the present invention;

FIG. 7 is a schematic top view of a second interface and push plate connection according to the present invention;

FIG. 8 is a schematic top view of a cross-section of an adjustment block of the present invention coupled to a threaded rod.

In the figure: 1. a heating box; 2. a heating plate; 3. a sealing plate; 4. a support frame; 5. a feeding mechanism; 501. a feeding frame; 502. a first connection port; 503. a first connecting shaft; 504. a connecting piece; 505. a first connecting rod; 506. a second connecting rod; 507. a connecting disc; 508. a second connecting shaft; 509. a first motor; 6. a clamping mechanism; 601. a mounting frame; 602. an adjusting rod; 603. a clamping plate; 604. a second motor; 605. a shielding plate; 606. a connection frame; 607. a gear; 608. a third connecting shaft; 609. a connecting strip; 6010. a track; 7. a third motor; 8. a second connection port; 9. a push plate; 10. a support rod; 11. a hydraulic telescopic rod; 12. an adjusting block; 13. a threaded rod; 14. a connecting seat; 15. and a fourth motor.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides a technical solution: the bearing forging processing heat treatment equipment for the wind power generation equipment with the adjustable clamping range comprises a heating box 1, a heating plate 2, a sealing plate 3, a supporting frame 4, a feeding mechanism 5, a clamping mechanism 6, a third motor 7, a second connecting port 8, a push plate 9, a supporting rod 10, a hydraulic telescopic rod 11, an adjusting block 12, a threaded rod 13, a connecting seat 14 and a fourth motor 15, wherein the heating box 1 is directly placed on the ground, the heating plate 2 is installed at the inner bottom end of the heating box 1, and the sealing plate 3 is rotatably connected to the right end of the heating box 1;

meanwhile, the left side view longitudinal section area of the sealing plate 3 is larger than the left side view longitudinal section area of the discharge hole of the right wall of the heating box 1, and the supporting frame 4 is placed on the left side of the heating box 1;

further comprises:

the feeding mechanism 5 is arranged at the left side of the heating box 1, and the feeding mechanism 5 comprises a feeding frame 501, a first connecting port 502, a first connecting shaft 503, a connecting piece 504, a first connecting rod 505, a second connecting rod 506, a connecting disc 507, a second connecting shaft 508 and a first motor 509, wherein the bottom end of the feeding frame 501 is fixedly connected to the top end of the supporting frame 4;

the clamping mechanism 6, the clamping mechanism 6 is arranged in the heating box 1, and the clamping mechanism 6 comprises a mounting frame 601, an adjusting rod 602, a clamping plate 603, a second motor 604, a shielding plate 605, a connecting frame 606, a gear 607, a third connecting shaft 608, a connecting strip 609 and a rail 6010, and meanwhile the mounting frame 601 is integrally connected to the inner top end of the heating box 1;

the second connecting port 8 is arranged in the heating plate 2, the left end of the second connecting port 8 is connected with a push plate 9 in a clamping way, the bottom end of the push plate 9 is connected with a supporting rod 10 in an embedded way, and the lower end of the supporting rod 10 is provided with a hydraulic telescopic rod 11;

the adjusting block 12 is connected with the top end of the adjusting block 12 through bolts, the front vertical section of the adjusting block 12 is of a T-shaped structure, and the lower end of the inside of the adjusting block 12 is connected with a threaded rod 13 through threads;

when the bearing forging processing heat treatment equipment for the wind power generation equipment with the adjustable clamping range is used, with reference to fig. 1, 4 and 5, bearing raw materials are fed through a structure consisting of a feeding frame 501, a first connecting port 502, a first connecting shaft 503, a connecting piece 504, a first connecting rod 505, a second connecting rod 506, a connecting disc 507, a second connecting shaft 508 and a first motor 509, as the feeding frame 501 is obliquely arranged, the bottom end of the connecting piece 504 is contacted with the upper end of the connecting disc 507, the first connecting rod 505 is in a rotary structure on the feeding frame 501 through the connecting disc 507 and the connecting piece 504, and the front vertical section of the connecting disc 507 is in an elliptic structure;

therefore, when the bearing raw material is required to be fed, the first motor 509 drives the second connecting shaft 508 to rotate when in operation, the second connecting shaft 508 drives the connecting disc 507 to rotate on the supporting frame 4 when in rotation, the connecting piece 504 rotates on the feeding frame 501 through the first connecting shaft 503 when the connecting disc 507 rotates, so that the second connecting rod 506 ascends in the first connecting port 502, the first connecting rod 505 ascends in the feeding frame 501, the first bearing raw material at the right end of the feeding frame 501 slides to the right end on the feeding frame 501, the bearing raw material rolls to the upper end of the heating plate 2, when the connecting piece 504 rotates downwards, the second connecting rod 506 descends in the first connecting port 502, and the bearing raw material rolls to the right end of the feeding frame 501 along the inclined direction of the feeding frame 501, and the right end of the bearing raw material abuts against the first connecting rod 505, so that the bearing raw material is conveniently fed;

referring to fig. 1, 3 and 5, the bearing raw materials on the heating plate 2 are limited by a structure composed of a mounting frame 601, an adjusting rod 602, a clamping plate 603, a second motor 604, a shielding plate 605, a connecting frame 606, a gear 607, a third connecting shaft 608, a connecting bar 609 and a track 6010, since the inner end of the connecting frame 606 is meshed with the gear 607, the outer end of the connecting bar 609 is slidably connected in the track 6010, the track 6010 is integrally connected at the top end of the heating box 1 in a front-back symmetrical way, and the shielding plate 605 is in a lifting structure in the heating box 1 through the gear 607 and the connecting frame 606;

therefore, before the bearing raw material rolls onto the heating plate 2, the third motor 7 drives the third connecting shaft 608 to rotate at the left upper end of the heating box 1 when working, and the third connecting shaft 608 drives the gear 607 to rotate when rotating, so that the gear 607 is meshed with the inner end of the connecting frame 606, the connecting strips 609 symmetrically arranged front and back slide downwards in the inside of the rails 6010 at corresponding positions, the shielding plate 605 descends in the heating box 1 through the connecting strips 609 and the connecting frame 606, and the bearing raw material is prevented from rolling upwards on the heating plate 2 through the shielding plate 605;

because the outer surface of the front and middle ends of the adjusting rod 602 is of a bidirectional thread structure, the front and rear symmetrical threads of the clamping plate 603 are connected to the adjusting rod 602, the top end of the clamping plate 603 is slidably connected to the inside of the upper end of the mounting frame 601, the clamping plate 603 is of a sliding structure at the inner end of the mounting frame 601 through the adjusting rod 602, therefore, when the second motor 604 works, the adjusting rod 602 is driven to rotate on the mounting frame 601, when the adjusting rod 602 rotates, the clamping plate 603 which is symmetrically arranged front and rear is driven to move inwards, the upper end of the clamping plate 603 slides inwards in the inside of the mounting frame 601, the inner ends of the front and rear groups of the clamping plate 603 are tightly abutted against the front and rear ends of bearing raw materials, and the bearing raw materials at the upper end of the heating plate 2 are limited through the adjusting rod 602 and the clamping plate 603, and therefore the bearing raw materials are limited by the clamping range can be conveniently adjusted;

referring to fig. 1, 2, 6, 7 and 8, since the push plate 9 is engaged and connected to the inside of the left end of the second connection port 8, the front vertical section of the adjusting block 12 is in a T-shaped structure, the lower end of the inside of the adjusting block 12 is in threaded connection with the threaded rod 13, the left side vertical section of the connecting seat 14 is in a concave structure, and the push plate 9 is in a left-right sliding structure inside the heating plate 2 through the support rod 10 and the threaded rod 13;

therefore, when the heating plate 2 works, the heating plate 2 heats the bearing raw material at the upper end of the heating plate 2, the second motor 604 works to drive the adjusting rod 602 to rotate, the front and rear groups of clamping plates 603 slide outwards, the front and rear groups of clamping plates 603 are far away from the front and rear ends of the bearing raw material, the third motor 7 works to drive the gear 607 to rotate, the gear 607 is meshed with the connecting frame 606 to drive the shielding plate 605 to rise, the hydraulic telescopic rod 11 works to drive the supporting rod 10 to rise, the push plate 9 which is clamped and connected inside the left end of the second connecting port 8 rises, the supporting rod 10 enters the inside of the second connecting port 8, the fourth motor 15 works to drive the threaded rod 13 to rotate inside the connecting seat 14, and the adjusting block 12 slides inside the right end of the connecting seat 14 when the threaded rod 13 rotates; the supporting rod 10 is driven to move rightward in the second connecting port 8 through the adjusting block 12, so that the pushing plate 9 moves upward of the heating plate 2, the pushing plate 9 pushes the bearing raw material on the heating plate 2 to move rightward, when the bearing raw material moves to the right end in the heating box 1, the bearing raw material pushes the sealing plate 3 to rotate on the heating box 1, the sealing plate 3 turns to the outer end to be in an inclined state until the bearing raw material at the upper end of the heating plate 2 is separated from the inside of the heating box 1, and therefore the bearing raw material after heating treatment is easily discharged, the working process of the whole device is realized, and the content which is not described in detail in the specification belongs to the prior art known to the person skilled in the art.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The bearing forging processing heat treatment equipment for the wind power generation equipment with the adjustable clamping range comprises a heating box (1) which is directly placed on the ground, wherein a heating plate (2) is arranged at the inner bottom end of the heating box (1), and a sealing plate (3) is rotatably connected to the right end of the heating box (1);

meanwhile, the left side view longitudinal section area of the sealing plate (3) is larger than the left side view longitudinal section area of the discharge hole of the right wall of the heating box (1), and the supporting frame (4) is arranged on the left side of the heating box (1);

characterized by further comprising:

the feeding mechanism (5) is arranged on the left side of the heating box (1), and the feeding mechanism (5) comprises a feeding frame (501), a first connecting port (502), a first connecting shaft (503), a connecting piece (504), a first connecting rod (505), a second connecting rod (506), a connecting disc (507), a second connecting shaft (508) and a first motor (509), wherein the bottom end of the feeding frame (501) is fixedly connected to the top end of the supporting frame (4);

the clamping mechanism (6), the clamping mechanism (6) is arranged in the heating box (1), the clamping mechanism (6) comprises a mounting frame (601), an adjusting rod (602), a clamping plate (603), a second motor (604), a shielding plate (605), a connecting frame (606), a gear (607), a third connecting shaft (608), a connecting strip (609) and a track (6010), and meanwhile the mounting frame (601) is integrally connected to the inner top end of the heating box (1);

the second connecting port (8), the second connecting port (8) is opened in the heating plate (2), the left end of the second connecting port (8) is connected with the push plate (9) in a clamping way, the bottom end of the push plate (9) is connected with the supporting rod (10) in an embedded way, and the lower end of the supporting rod (10) is provided with the hydraulic telescopic rod (11);

the adjusting block (12), the top bolted connection of adjusting block (12) has adjusting block (12), and the front view longitudinal section of adjusting block (12) is "T" font structure to the inside lower extreme threaded connection of adjusting block (12) has threaded rod (13).

2. The bearing forging heat treatment apparatus for a wind power generation apparatus of an adjustable gripping range according to claim 1, wherein: the feeding frame (501) is obliquely arranged, the right end of the feeding frame (501) is connected inside the left end of the heating box (1) in a nested manner, and a first connecting port (502) is formed in the right end of the bottom of the feeding frame (501);

the rear end of the feeding frame (501) is rotatably connected with a first connecting shaft (503), the rear end of the first connecting shaft (503) is integrally connected with a connecting piece (504), and the right front upper end of the connecting piece (504) is embedded and connected with a first connecting rod (505).

3. The bearing forging heat treatment apparatus for a wind power generation apparatus of an adjustable gripping range according to claim 2, wherein: the lower right front end of the connecting piece (504) is connected with a second connecting rod (506) in an embedded mode, the bottom end of the connecting piece (504) is in contact with the upper end of the connecting disc (507), and the left end of the connecting disc (507) is integrally connected with a second connecting shaft (508);

the second connecting shaft (508) is rotatably connected to the supporting frame (4), a first motor (509) is mounted at the rear end of the second connecting shaft (508), the first connecting rod (505) is in a rotary structure on the feeding frame (501) through the connecting disc (507) and the connecting piece (504), and meanwhile, the front vertical section of the connecting disc (507) is in an oval structure.

4. The bearing forging heat treatment apparatus for a wind power generation apparatus of an adjustable gripping range according to claim 1, wherein: the inner end of the mounting frame (601) is rotationally connected with an adjusting rod (602), the outer surface of the front middle end of the adjusting rod (602) is of a bidirectional thread structure, the clamping plate (603) is connected to the adjusting rod (602) in a front-back symmetrical thread mode, and meanwhile the top end of the clamping plate (603) is connected to the inner portion of the upper end of the mounting frame (601) in a sliding mode.

5. The bearing forging heat treatment apparatus for a wind power plant with an adjustable clamping range according to claim 4, wherein: the second motor (604) is installed to the rear end of adjusting pole (602), and grip block (603) are sliding structure at the inner of mounting bracket (601) through adjusting pole (602), the right side of mounting bracket (601) is provided with shielding plate (605), and the top at heating cabinet (1) is connected in a nested way to shielding plate (605), and the upper end fixedly connected with connecting frame (606) of shielding plate (605).

6. The bearing forging heat treatment apparatus for a wind power generation apparatus of an adjustable gripping range according to claim 5, wherein: the inner end of the connecting frame (606) is provided with a gear (607) in a meshed manner, the center of the gear (607) is fixedly connected with a third connecting shaft (608), the third connecting shaft (608) is rotatably connected to the left upper end of the heating box (1), and the left end of the third connecting shaft (608) is provided with a third motor (7).

7. The bearing forging heat treatment apparatus for a wind power plant with an adjustable clamping range according to claim 6, wherein: the front end and the rear end of the connecting frame (606) are embedded and connected with connecting strips (609), the outer ends of the connecting strips (609) are slidably connected in the track (6010), the track (6010) is integrally connected to the top end of the heating box (1) in a front-back symmetrical mode, and the shielding plate (605) is of a lifting structure in the heating box (1) through the gear (607) and the connecting frame (606).

8. The bearing forging heat treatment apparatus for a wind power generation apparatus of an adjustable gripping range according to claim 1, wherein: the threaded rod (13) is rotationally connected inside the connecting seat (14), the left side view longitudinal section of the connecting seat (14) is of a concave structure, and the right end of the threaded rod (13) is provided with a fourth motor (15);

wherein, the inside sliding connection of connecting seat (14) has regulating block (12), and push pedal (9) are left and right sliding structure through bracing piece (10) and threaded rod (13) in the inside of hot plate (2).