CN114406176A - Wind driven generator cover forging die capable of being cooled rapidly and facilitating taking of parts - Google Patents

Abstract

The invention discloses a forging die for a wind driven generator cover, which can be rapidly cooled and is convenient for taking a part, and comprises a workbench which is integrally in a cuboid structure, wherein the lower end of the workbench is fixedly connected with a base; meanwhile, the right rear end of the base is connected with a second motor through a bolt, and a water tank is arranged at the rear end of the base; the connecting frame is integrally connected to the upper end of the workbench, and the lower end of the air cylinder is connected with a supporting frame through a bolt; further comprising: the cooling table is fixedly connected to the upper end of the workbench; the first connecting pipe is connected to the left rear end of the cooling platform through a bolt; the stirring mechanism is arranged inside the water tank; the blending mechanism is arranged on the upper die. This but quick cooling and be convenient for get wind turbine cover of piece with forging mould, the quick cooling of being convenient for and the piece of being convenient for get, the water to the water tank in easily stirs moreover, and the forging raw materials in the convenient lower mould of letting simultaneously is floating.

Description

Wind driven generator cover forging die capable of being cooled rapidly and facilitating taking of parts

Technical Field

The invention relates to the technical field of wind driven generator cover bodies, in particular to a forging die for a wind driven generator cover body, which can be cooled quickly and is convenient for taking a part.

Background

Wind power generation is one of numerous power generation modes, the amount of wind energy is huge, can generate electricity by wind energy and be very environment-friendly, can reduce the pollution to the environment, therefore people are more and more extensive to wind power generation's application, wind power generation can not leave the generator, wherein aerogenerator's core component includes wheel hub, the main tank body, ironcasting such as lid, simultaneously, in the wind power generation process, because the environment is complicated abominable, the quality requirement to subassembly such as lid is higher, can use specific forging mould when making aerogenerator lid, the special forging mould of aerogenerator lid in the production at present style is various, can satisfy people's different demands.

However, the existing forging die for the wind turbine cover has the following defects in the using process, mainly as follows:

1. the cover body is inconvenient to cool quickly and take out, so that the cooling of the cover body after forging and forming is slow, and the cooled cover body is inconvenient to take out;

2. the water in the water tank is not easy to stir, so that the cooling device is not easy to uniformly cool the water in the water tank;

3. the inconvenient forging raw materials that lets in the lower mould is floating, leads to the forging raw materials in the lower mould to pile up, and the lid quality of making out is poor, to above-mentioned problem, carries out the innovative design on original wind turbine generator lid is with the basis of forging the mould.

Disclosure of Invention

The invention aims to provide a forging die for a wind driven generator cover, which can be quickly cooled and is convenient for taking parts, and aims to solve the problems that the forging die for the wind driven generator cover, which is provided in the background art and is common in the market at present, is inconvenient to quickly cool and take parts, is not easy to stir water in a water tank, and is inconvenient for floating forging raw materials in a lower die.

In order to achieve the purpose, the invention provides the following technical scheme: a forging die for a wind driven generator cover, which can be rapidly cooled and is convenient for taking a workpiece, comprises a workbench which is integrally in a cuboid structure, wherein the lower end of the workbench is fixedly connected with a base, and the right front end of the base is connected with a first motor through a bolt;

meanwhile, the right rear end of the base is connected with a second motor through a bolt, a water tank is placed at the rear end of the base, and a water pump is connected to the right rear end of the water tank through a bolt;

the connecting frame is integrally connected to the upper end of the workbench, a cylinder is mounted in the center of the upper end of the connecting frame, the lower end of the cylinder is connected with a supporting frame through a bolt, the lower end of the supporting frame is fixedly connected to the top end of the upper die, and a liquid storage tank is placed at the upper right end of the connecting frame;

further comprising:

the cooling table is fixedly connected to the upper end of the workbench, the cross section of the lower end of the cooling table is of a circular ring structure, the inner end of the cooling table is integrally connected with a lower die, the pickup mechanism is arranged at the lower end of the lower die and comprises a lifting plate, a first connecting shaft, a first connecting piece, a second connecting piece and a second connecting shaft;

the first connecting pipe is connected to the left rear end of the cooling platform through a bolt, the lower end of the first connecting pipe is connected to the inner portion of the left rear end of the water tank in a penetrating mode, and the right rear end of the cooling platform is connected with a second connecting pipe through a bolt;

the stirring mechanism is arranged inside the water tank and comprises a third connecting shaft, stirring blades, a first mounting piece, a belt and a second mounting piece, the third connecting shaft is connected inside the water tank in a bilaterally symmetrical and rotating mode, and meanwhile a second motor is mounted at the front end of the first mounting piece;

the mixing mechanism is arranged on the upper die, the connecting plate, the fourth connecting shaft, the third motor, the mounting plate and the hydraulic telescopic rod are arranged, and the length of the connecting plate is equal to the diameter of the inner end of the upper die.

Preferably, the outer end of the lifting plate is tightly attached to the inner wall of the bottom end of the lower die, the lower end of the lifting plate is connected with a first connecting shaft in a bilaterally symmetrical and rotating manner, and the first connecting shaft is fixedly connected to the upper end of a first connecting piece;

the lower end of the first connecting piece is rotatably connected with a second connecting piece, the upper inner ends of the first connecting shafts which are arranged in bilateral symmetry are meshed and connected, the lower inner ends of the first connecting pieces which are arranged in bilateral symmetry are meshed and arranged, and the lower end of the second connecting piece is fixedly connected with a second connecting shaft.

By adopting the technical scheme, the outer end of the lifting plate is tightly attached to the inner wall of the bottom end of the lower die, the upper inner ends of the first connecting shafts which are arranged in the bilateral symmetry are meshed and connected, and the lower inner ends of the first connecting pieces which are arranged in the bilateral symmetry are meshed and arranged, so that the piece taking is convenient.

Preferably, the second connecting shaft rotates to be connected in the bottom of base, and the rear end of first motor is installed at the front end of right side second connecting shaft, and the lifting board is elevation structure in the workstation upper end through first connecting piece and second connecting piece simultaneously.

Through adopting above-mentioned technical scheme, because the front end at right side second connecting axle is installed to the rear end of first motor, the lifting board is elevation structure in the workstation upper end through first connecting piece and second connecting piece simultaneously, is convenient for get the piece.

Preferably, the rear end bolted connection of second connecting pipe is in the front end of water pump, and the upper end bolted connection of water pump has the third connecting pipe to the lower extreme through connection of third connecting pipe is inside the rear end of water tank, and the cooling bench is linked together through the inside of second connecting pipe and third connecting pipe and water tank simultaneously, and the inside lower extreme of water tank installs cooling device, and the surface of the inside third connecting axle that sets up of water tank is the equidistant integration and is connected with the stirring leaf.

Through adopting above-mentioned technical scheme, because the lower extreme through connection of third connecting pipe is inside the rear end of water tank, and the cooling bench is linked together through the inside of second connecting pipe and third connecting pipe and water tank simultaneously, the rapid cooling of consequently being convenient for, because the surface of third connecting axle is equidistant integration and is connected with the stirring leaf, consequently stirs the water in the water tank easily.

Preferably, the outer end of stirring leaf does not contact with the inner wall of water tank, and the stirring leaf is revolution mechanic in the inside of water tank through first installed part and second installed part to the front end integration of right side third connecting axle is connected with first installed part.

Through adopting above-mentioned technical scheme, because the outer end of stirring leaf does not contact with the inner wall of water tank, the stirring leaf is revolution mechanic in the inside of water tank through first installed part and second installed part, consequently stirs the water in the water tank easily.

Preferably, first installed part passes through belt looks drive connection with the second installed part, and the front end at left side third connecting axle is connected to the second installed part integration to the inner diameter of first installed part is greater than the diameter of the inner of second installed part, and the longitudinal section of first installed part and second installed part is "worker" font structure simultaneously.

Through adopting above-mentioned technical scheme, because first installed part passes through the belt with the second installed part looks drive connection, the inner diameter of first installed part is greater than the inner diameter of second installed part, and the longitudinal section of first installed part and second installed part is "worker" font structure, consequently stirs the water in the water tank easily.

Preferably, the upper outer end of the upper die is embedded and connected with connecting blocks with longitudinal sections in a convex structure at equal angles, the positions of the connecting blocks and the positions of the connecting grooves are in one-to-one correspondence, and the lower ends of the connecting blocks are nested and connected with connecting grooves with positively-dissected longitudinal sections in a concave structure;

the inner end of the connecting groove is embedded in the upper outer end of the lower die, and the lower end of the upper die is clamped and connected to the upper end of the inner portion of the lower die.

Through adopting above-mentioned technical scheme, because the position of connecting block and the position one-to-one in connecting groove are from top to bottom, the lower extreme nested connection of connecting block is at the connecting groove that just dissects the longitudinal section and be "concave" font structure, and the lower extreme block of going up the mould is connected in the inside upper end of lower mould, consequently prevents to go up the mould and produces the skew in the position on the lower mould.

Preferably, the middle upper end of the connecting plate is integrally connected with a fourth connecting shaft, the fourth connecting shaft is connected to the center of the upper end of the upper die in a penetrating mode, the upper end of the fourth connecting shaft is rotatably connected to the inner portion of the right end of the mounting plate, and a third motor is installed on the top end of the fourth connecting shaft.

Through adopting above-mentioned technical scheme, because fourth connecting axle through connection puts at the upper end central point of last mould, the upper end of fourth connecting axle is rotated and is connected inside the right-hand member of mounting panel, consequently conveniently lets the interior forging raw materials of lower mould trowel.

Preferably, the left lower end of the mounting plate is provided with a hydraulic telescopic rod, the lower end of the hydraulic telescopic rod is arranged at the left upper end of the upper die, and the connecting plate moves up and down in the upper die through a fourth connecting shaft and the mounting plate;

wherein, the upper right end fixedly connected with unloading pipe of going up the mould, and the bottom at the liquid reserve tank is installed to the upper end of unloading pipe.

Through adopting above-mentioned technical scheme, because the connecting plate is elevating movement through fourth connecting axle and mounting panel in the inside of last mould, consequently conveniently let the forging raw materials in the lower mould trowel.

Compared with the prior art, the invention has the beneficial effects that: the forging die for the wind driven generator cover, which can be cooled quickly and is convenient for taking the parts, is convenient for cooling quickly and taking the parts, is easy to stir water in the water tank, and is convenient for floating forging raw materials in the lower die;

1. the cooling platform and the water tank are structurally designed, so that cold water in the water tank flows through the first connecting pipe and the second connecting pipe in the cooling platform, and quick cooling is facilitated;

2. the stirring mechanism is arranged, the diameter of the inner end of the first mounting part is larger than that of the inner end of the second mounting part, so that the first mounting part and the second mounting part drive the left and right groups of third connecting shafts to rotate, and the stirring blades and the water tank are structurally designed, so that the stirring blades arranged at equal intervals are driven to rotate when the third connecting shafts rotate, the stirring blades stir water in the water tank, and the water in the water tank is easily stirred;

3. be equipped with mixing mechanism, the structural design of connecting plate and last mould for hydraulic telescoping rod during operation drives mounting panel and fourth connecting axle and descends, contacts until the lower extreme of connecting plate and the upper end of forging stock, and the length of connecting plate equals with the diameter of last mould inner, makes the fourth connecting axle drive the connecting plate and rotates in the inside of lower mould, thereby conveniently lets the forging stock in the lower mould trowel.

Drawings

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

FIG. 2 is a schematic left side sectional view of the connection between the first connecting member and the second connecting member according to the present invention;

FIG. 3 is a schematic structural view of a front cross section of a stirring blade connected with a third connecting shaft according to the present invention;

FIG. 4 is a schematic view of the cross-sectional bottom view of the connection between the connecting plate and the upper mold of the present invention;

FIG. 5 is a schematic top sectional view of the connection between the fourth connecting shaft and the upper mold according to the present invention;

FIG. 6 is a schematic view of a cross-sectional top view of the connection between the lifting plate and the lower mold of the present invention;

FIG. 7 is a schematic sectional elevational view of the strap of the present invention in connection with a second mounting member;

FIG. 8 is a schematic cross-sectional view of the upper mold of the present invention in a raised state.

In the figure: 1. a work table; 2. a cooling table; 3. a lower die; 4. a pickup mechanism; 401. lifting the plate; 402. a first connecting shaft; 403. a first connecting member; 404. a second connecting member; 405. a second connecting shaft; 5. a first motor; 6. a first connecting pipe; 7. a second connecting pipe; 8. a water pump; 9. a third connecting pipe; 10. a water tank; 11. a cooling device; 12. a stirring mechanism; 1201. a third connecting shaft; 1202. stirring blades; 1203. a first mounting member; 1204. a belt; 1205. a second mount; 13. a second motor; 14. an upper die; 15. connecting blocks; 16. connecting grooves; 17. a blending mechanism; 1701. a connecting plate; 1702. a fourth connecting shaft; 1703. a third motor; 1704. mounting a plate; 1705. a hydraulic telescopic rod; 18. a support frame; 19. a cylinder; 20. a connecting frame; 21. a liquid storage tank; 22. a discharging pipe; 23. a base.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-8, the present invention provides a technical solution: a forging die capable of being cooled rapidly and convenient to take a wind driven generator cover comprises a workbench 1, a cooling table 2, a lower die 3, a taking mechanism 4, a first motor 5, a first connecting pipe 6, a second connecting pipe 7, a water pump 8, a third connecting pipe 9, a water tank 10, a cooling device 11, a stirring mechanism 12, a second motor 13, an upper die 14, a connecting block 15, a connecting groove 16, a blending mechanism 17, a supporting frame 18, a cylinder 19, a connecting frame 20, a liquid storage tank 21, a discharging pipe 22 and a base 23, wherein the workbench 1 is integrally in a cuboid structure, the lower end of the workbench 1 is fixedly connected with the base 23, and the right front end of the base 23 is connected with the first motor 5 through a bolt;

meanwhile, the right rear end of the base 23 is connected with a second motor 13 through a bolt, the rear end of the base 23 is provided with a water tank 10, and the right rear end of the water tank 10 is connected with a water pump 8 through a bolt;

the connecting frame 20 is integrally connected to the upper end of the workbench 1, a cylinder 19 is installed in the center of the upper end of the connecting frame 20, a supporting frame 18 is connected to the lower end of the cylinder 19 through a bolt, the lower end of the supporting frame 18 is fixedly connected to the top end of the upper die 14, and a liquid storage tank 21 is placed at the upper right end of the connecting frame 20;

further comprising:

the cooling table 2 is fixedly connected to the upper end of the workbench 1, the cross section of the lower end of the cooling table 2 is of a circular ring structure, the inner end of the cooling table 2 is integrally connected with the lower die 3, the pickup mechanism 4 is arranged at the lower end of the lower die 3, and the pickup mechanism 4 comprises a lifting plate 401, a first connecting shaft 402, a first connecting piece 403, a second connecting piece 404 and a second connecting shaft 405;

the cooling device comprises a first connecting pipe 6, a second connecting pipe 7 and a third connecting pipe 6, wherein the first connecting pipe 6 is connected to the left rear end of the cooling platform 2 through a bolt, the lower end of the first connecting pipe 6 is connected to the inside of the left rear end of a water tank 10 in a penetrating mode, and the right rear end of the cooling platform 2 is connected with the second connecting pipe 7 through a bolt;

the stirring mechanism 12 is arranged inside the water tank 10, the stirring mechanism 12 comprises a third connecting shaft 1201, a stirring blade 1202, a first mounting piece 1203, a belt 1204 and a second mounting piece 1205, the third connecting shaft 1201 is connected inside the water tank 10 in a bilaterally symmetrical mode, and meanwhile a second motor 13 is mounted at the front end of the first mounting piece 1203;

the blending mechanism 17 is arranged on the upper die 14, the connecting plate 1701, the fourth connecting shaft 1702, the third motor 1703, the mounting plate 1704 and the hydraulic telescopic rod 1705 are connected, and the length of the connecting plate 1701 is equal to the diameter of the inner end of the upper die 14;

when the forging die for the wind turbine cover, which can be rapidly cooled and is convenient to take, is used, with reference to figures 1, 4, 5 and 6, because the outer end of the lifting plate 401 is tightly attached to the inner wall of the bottom end of the lower die 3, the upper end of the lifting plate 401 is tightly sealed to the bottom end of the lower die 3, the cylinder 19 works to drive the supporting frame 18 to descend, the supporting frame 18 drives the upper die 14 to descend until the upper die 14 is clamped and connected to the inner upper end of the lower die 3, the connecting block 15 with the vertical section in the shape of a convex character is nested inside the vertical section in the shape of a concave character, the upper die 14 is prevented from shifting in the lower die 3 through the connecting block 15 and the connecting groove 16, when a control valve arranged at the upper end of the blanking pipe 22 is opened, forging raw materials in the liquid storage tank 21 enter the lower end of the lower die 3 through the blanking pipe 22, and the control valve arranged at the upper end of the blanking pipe 22 is closed;

the forging material in the lower die 3 is flattened through the structure formed by the connecting plate 1701, the fourth connecting shaft 1702, the third motor 1703, the mounting plate 1704 and the hydraulic telescopic rod 1705, because the connecting plate 1701 moves up and down in the upper die 14 through the fourth connecting shaft 1702 and the mounting plate 1704, the length of the connecting plate 1701 is equal to the diameter of the inner end of the upper die 14, the hydraulic telescopic rod 1705 drives the mounting plate 1704 to descend when in work, and when the mounting plate 1704 descends, the fourth connecting shaft 1702 penetrating through the center position of the upper end of the upper die 14 descends until the fourth connecting shaft 1702 drives the connecting plate 1701 to descend in the upper die 14;

the lower end of the connecting plate 1701 is contacted with the upper end of the forging material in the lower die 3, the third motor 1703 drives the fourth connecting shaft 1702 to rotate at the right end of the mounting plate 1704 during working, the connecting plate 1701 is driven to rotate inside the lower die 3 during rotation of the fourth connecting shaft 1702, and the forging material inside the lower die 3 is flattened during rotation of the connecting plate 1701, so that the forging material in the lower die 3 is conveniently leveled;

with reference to fig. 1, 2, 6 and 8, since the cooling platform 2 is communicated with the inside of the water tank 10 through the second connecting pipe 7 and the third connecting pipe 9, after the forging material in the lower die 3 is leveled, the water pump 8 allows the cold water in the water tank 10 to enter the inside of the cooling platform 2 through the first connecting pipe 6 when working, wherein the cross section of the lower end of the cooling platform 2 is in a circular ring structure, the lower die 3 is integrally connected to the inner end of the cooling platform 2, the cooling platform 2 is surrounded at the outer end of the lower die 3, so that the cold water in the cooling platform 2 cools the lower die 3, the heated water in the cooling platform 2 enters the inside of the water tank 10 through the second connecting pipe 7 and the third connecting pipe 9, and the cooling device 11 cools the water in the water tank 10 when working, so that the cold water in the water tank 10 enters the inside of the cooling platform 2 again;

when the cover body in the lower die 3 needs to be taken out after being molded, the air cylinder 19 works to drive the supporting frame 18 to ascend, the supporting frame 18 drives the upper die 14 to ascend, the upper end of the upper die 14 is close to the upper end of the connecting frame 20, and the structure formed by the lifting plate 401, the first connecting shaft 402, the first connecting piece 403, the second connecting piece 404 and the second connecting shaft 405 is completed;

the lower end of the right first connecting piece 403 is meshed with the lower end of the left first connecting piece 403 to drive the left second connecting shaft 405 to rotate, the upper end of the second connecting piece 404 is rotatably connected with the first connecting piece 403, so that the left and right first connecting pieces 403 are driven to rotate when the bilaterally symmetrical second connecting pieces 404 rotate, the upper inner ends of the left and right first connecting pieces 403 are meshed to drive the bilaterally symmetrical first connecting shafts 402 to rotate at the lower end of the lifting plate 401, the lifting plate 401 is driven to ascend through the bilaterally symmetrical second connecting pieces 404 and the first connecting pieces 403, and the lifting plate 401 drives the cover body formed inside the lower die 3 to ascend until the cover body in the lower die 3 moves out of the lower die 3, so that the rapid cooling and the taking of the parts are facilitated;

with reference to fig. 1, 2, 3 and 7, the water in the water tank 10 is stirred by the structure composed of the third connecting shaft 1201, the stirring blade 1202, the first mounting member 1203, the belt 1204 and the second mounting member 1205, because the stirring blade 1202 is in a rotating structure inside the water tank 10 through the first mounting member 1203 and the second mounting member 1205, the first mounting member 1203 and the second mounting member 1205 are in transmission connection through the belt 1204, the diameter of the inner end of the first mounting member 1203 is larger than that of the inner end of the second mounting member 1205, the second motor 13 drives the first mounting member 1203 to rotate when working, and the belt 1204 drives the second mounting member 1205 to rotate when the first mounting member 1203 rotates;

the third connecting shaft 1201 which is arranged in bilateral symmetry is driven to rotate in the water tank 10 when the first mounting part 1203 and the second mounting part 1205 are rotated, the third connecting shaft 1201 drives the stirring blades 1202 which are arranged at equal intervals to rotate in the water tank 10 when the third connecting shaft 1201 rotates, when the cooling device 11 works to cool water in the water tank 10, the water in the water tank 10 can be uniformly cooled through the stirring blades 1202, so that the water in the water tank 10 is easily stirred, wherein the longitudinal sections of the first mounting part 1203 and the second mounting part 1205 are in an I-shaped structure, a belt 1204 is prevented from falling off from the first mounting part 1203 and the second mounting part 1205, the operation process of the whole device is achieved, and the content which is not described in detail in the specification belongs to the prior art which is known by technicians in the field.

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

Claims (9)

1. A forging die for a wind driven generator cover capable of being cooled rapidly and facilitating workpiece taking comprises a workbench (1) which is integrally in a cuboid structure, a base (23) is fixedly connected to the lower end of the workbench (1), and a first motor (5) is connected to the front right end of the base (23) through a bolt;

meanwhile, a second motor (13) is connected to the right rear end of the base (23) through a bolt, a water tank (10) is placed at the rear end of the base (23), and a water pump (8) is connected to the right rear end of the water tank (10) through a bolt;

the connecting frame (20) is integrally connected to the upper end of the workbench (1), a cylinder (19) is installed in the center of the upper end of the connecting frame (20), a supporting frame (18) is connected to the lower end of the cylinder (19) through a bolt, the lower end of the supporting frame (18) is fixedly connected to the top end of the upper die (14), and a liquid storage tank (21) is placed at the upper right end of the connecting frame (20);

it is characterized by also comprising:

the cooling table (2) is fixedly connected to the upper end of the workbench (1), the cross section of the lower end of the cooling table (2) is of a circular ring structure, the inner end of the cooling table (2) is integrally connected with the lower die (3), the pickup mechanism (4) is arranged at the lower end of the lower die (3), and the pickup mechanism (4) comprises a lifting plate (401), a first connecting shaft (402), a first connecting piece (403), a second connecting piece (404) and a second connecting shaft (405);

the cooling device comprises a first connecting pipe (6), wherein the first connecting pipe (6) is connected to the left rear end of the cooling platform (2) through a bolt, the lower end of the first connecting pipe (6) is connected to the inner portion of the left rear end of a water tank (10) in a penetrating mode, and the right rear end of the cooling platform (2) is connected with a second connecting pipe (7) through a bolt;

the stirring mechanism (12) is arranged inside the water tank (10), the stirring mechanism (12) comprises a third connecting shaft (1201), a stirring blade (1202), a first mounting part (1203), a belt (1204) and a second mounting part (1205), the third connecting shaft (1201) is connected inside the water tank (10) in a bilaterally symmetrical mode, and meanwhile a second motor (13) is installed at the front end of the first mounting part (1203);

the blending mechanism (17), blending mechanism (17) set up on last mould (14), and connecting plate (1701), fourth connecting axle (1702), third motor (1703), mounting panel (1704) and hydraulic telescoping rod (1705) to the length of connecting plate (1701) equals with the diameter of last mould (14) inner.

2. The forging die for the cover of the wind driven generator, capable of being rapidly cooled and facilitating taking of the part, according to claim 1, wherein: the outer end of the lifting plate (401) is tightly attached to the inner wall of the bottom end of the lower die (3), the lower end of the lifting plate (401) is connected with a first connecting shaft (402) in a bilaterally symmetrical and rotating mode, and the first connecting shaft (402) is fixedly connected to the upper end of a first connecting piece (403);

the lower end of the first connecting piece (403) is rotatably connected with a second connecting piece (404), the upper inner ends of the first connecting shafts (402) which are arranged in bilateral symmetry are meshed and connected, the lower inner ends of the first connecting pieces (403) which are arranged in bilateral symmetry are meshed and arranged, and meanwhile the lower end of the second connecting piece (404) is fixedly connected with a second connecting shaft (405).

3. The forging die for the cover of the wind driven generator, capable of being rapidly cooled and facilitating taking of the part, according to claim 2, wherein: the second connecting shaft (405) is rotatably connected to the bottom end of the base (23), the rear end of the first motor (5) is mounted at the front end of the second connecting shaft (405) on the right side, and the lifting plate (401) is of a lifting structure at the upper end of the workbench (1) through the first connecting piece (403) and the second connecting piece (404).

4. The forging die for the cover of the wind driven generator, capable of being rapidly cooled and facilitating taking of the part, according to claim 1, wherein: rear end bolted connection of second connecting pipe (7) is at the front end of water pump (8), and the upper end bolted connection of water pump (8) has third connecting pipe (9), and the lower extreme through connection of third connecting pipe (9) is inside the rear end of water tank (10), simultaneously cooling platform (2) are linked together through the inside of second connecting pipe (7) and third connecting pipe (9) with water tank (10), and cooling device (11) are installed to the inside lower extreme of water tank (10), and the surface of the inside third connecting axle (1201) that sets up of water tank (10) is equidistant integration and is connected with stirring leaf (1202).

5. The forging die for the cover of the wind driven generator, capable of being rapidly cooled and facilitating taking of the part, according to claim 4, wherein: the outer end of the stirring blade (1202) is not in contact with the inner wall of the water tank (10), the stirring blade (1202) is of a rotating structure in the water tank (10) through a first mounting piece (1203) and a second mounting piece (1205), and the first mounting piece (1203) is integrally connected with the front end of the right third connecting shaft (1201).

6. The forging die for the cover of the wind driven generator, capable of being rapidly cooled and facilitating taking of the part, according to claim 5, wherein: first installed part (1203) and second installed part (1205) pass through belt (1204) looks drive connection, and the front end at left side third connecting axle (1201) is connected in second installed part (1205) integration to the inner diameter of first installed part (1203) is greater than the diameter at the inner of second installed part (1205), and the longitudinal section of first installed part (1203) and second installed part (1205) is "worker" font structure simultaneously.

7. The forging die for the cover of the wind driven generator, capable of being rapidly cooled and facilitating taking of the part, according to claim 1, wherein: the upper outer end of the upper die (14) is embedded and connected with connecting blocks (15) with the longitudinal sections in a convex structure in an equal angle mode, the positions of the connecting blocks (15) are in up-down one-to-one correspondence with the positions of the connecting grooves (16), and the lower ends of the connecting blocks (15) are connected with the connecting grooves (16) with the positively-cut longitudinal sections in a concave structure in an embedded mode;

the inner end of the connecting groove (16) is embedded and connected with the upper outer end of the lower die (3), and the lower end of the upper die (14) is clamped and connected with the upper end of the interior of the lower die (3).

8. The forging die for the cover of the wind driven generator, capable of being rapidly cooled and facilitating taking of the part, according to claim 1, wherein: the middle upper end of the connecting plate (1701) is integrally connected with a fourth connecting shaft (1702), the fourth connecting shaft (1702) is connected to the center of the upper end of the upper die (14) in a penetrating mode, the upper end of the fourth connecting shaft (1702) is rotatably connected to the inner portion of the right end of the mounting plate (1704), and a third motor (1703) is mounted at the top end of the fourth connecting shaft (1702).

9. The forging die for the cover of the wind driven generator, capable of being rapidly cooled and facilitating taking of the part, according to claim 8, wherein: a hydraulic telescopic rod (1705) is installed at the left lower end of the installing plate (1704), the lower end of the hydraulic telescopic rod (1705) is installed at the left upper end of the upper die (14), and the connecting plate (1701) moves up and down in the upper die (14) through a fourth connecting shaft (1702) and the installing plate (1704);

wherein, the upper right end fixedly connected with unloading pipe (22) of going up mould (14), and the bottom at liquid reserve tank (21) is installed to the upper end of unloading pipe (22).

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