CN113664191A - New energy automobile motor casing casting is with reinforced mechanism - Google Patents

Abstract

The invention discloses a feeding mechanism for casting a motor shell of a new energy automobile, which belongs to the technical field of motor shell casting and comprises a bottom frame, wherein a feeding frame is fixedly clamped at the top end of the bottom frame, a feeding assembly is arranged in the feeding frame, a feeding nozzle is fixedly installed at one end, far away from the bottom frame, of the feeding frame, a support frame is fixedly sleeved on the outer side of the feeding nozzle, a material buffering assembly is fixedly clamped at the top of one side, close to the feeding nozzle, of the feeding frame, a mixing assembly is fixedly installed at the top end of the material buffering assembly, and a driving motor is fixedly installed on the outer side of the mixing assembly. Prevent that the material of buffer memory from appearing solidifying and influencing the casting of follow-up motor casing.

Description

New energy automobile motor casing casting is with reinforced mechanism

Technical Field

The invention relates to the technical field of motor casing casting, in particular to a feeding mechanism for casting a motor casing of a new energy automobile.

Background

The new energy automobile adopts unconventional automobile fuel as a power source, and comprises four types of hybrid electric automobiles, a pure electric automobile, a fuel cell electric automobile, other new energy automobiles and the like, wherein the pure electric automobile is mainly driven by a motor;

the motor is used as a power source of the new energy automobile, the quality of the motor determines how far the new energy automobile can travel, the motors used by the new energy automobile in the current market are mainly two types, namely a permanent magnet synchronous motor and an alternating current asynchronous motor, wherein in the process of processing and manufacturing the motor, special motor shell casting equipment is required to be used for casting a motor shell, the motor shell casting equipment mainly comprises a casting mold plate block, a feeding mechanism and the like, the feeding mechanism is matched with the casting mold plate block for use, and the feeding mechanism is mainly used for feeding the casting mold plate block;

however, the feeding mechanism for casting the existing motor casing is simple in most structures, and the feeding quality of the motor casing can not be effectively controlled once, so that the materials are added too much and waste is caused, and secondly, the corresponding mixing mechanism and the heating mechanism are lacked, so that the materials are easily solidified in the transportation process, and the casting of the follow-up motor casing is influenced.

Disclosure of Invention

The invention aims to provide a feeding mechanism for casting a motor shell of a new energy automobile, and aims to solve the problems in the background art.

In order to solve the technical problems, the invention adopts the following technical scheme: the utility model provides a new energy automobile motor casing casting is with reinforced mechanism, includes the chassis, the top fixing clip of chassis is equipped with the feeding frame, be equipped with reinforced subassembly in the feeding frame, the one end fixed mounting that the chassis was kept away from to the feeding frame has the charging mouth, the fixed cover in the outside of charging mouth is equipped with the support frame, one side top fixing clip that reinforced frame is close to the charging mouth is equipped with slowly expects the subassembly, the top fixed mounting who slowly expects the subassembly has mixed subassembly, mixed subassembly's outside fixed mounting has driving motor, mixed subassembly's top fixing clip is equipped with the inlet pipe.

Preferably, the feeding assembly comprises a driving frame and a connecting rod, driven shafts are fixedly mounted at two end parts of the driving frame and movably inserted into the top of the underframe, a ball sleeve is fixedly connected to one side of each driven shaft, which is far away from the driving frame, a rotating ball is arranged in the ball sleeve in a rotating and clamping manner, and a connecting shaft is fixedly mounted on one side of each rotating ball, which is far away from the ball sleeve;

the two connecting rods are symmetrically arranged and fixedly mounted on the outer side of the bottom frame, a first driving shaft is rotatably mounted on one side, away from the bottom frame, of each connecting rod, a driving rod is fixedly mounted at the end part of each first driving shaft, a rotating seat is rotatably sleeved on one side, away from the first driving shaft, of each driving rod, and the rotating seats and one side, away from the rotating ball, of each connecting shaft are fixedly mounted;

the middle part fixing clip of drive frame is equipped with the drive post, one side that the drive post was kept away from the drive frame extends into in the material feeding frame and fixed mounting has the material pushing frame, the fixed cover of outer wall of material pushing frame is equipped with the rubber sleeve, the inner wall at the material feeding frame is blocked in the activity of rubber sleeve.

Preferably, the material slowing assembly comprises a material slowing frame, the top integrated into one piece of the material slowing frame is provided with a material slowing frame, a fixed groove is formed in the outer wall of one side, close to the charging nozzle, of the material adding frame, the bottom fixed joint of the material slowing frame is arranged in the fixed groove, a material slowing frame is arranged in the material slowing frame in a rotating mode, second driving shafts are fixedly mounted at two end portions of the material control frame, the second driving shafts are rotatably mounted on the material slowing frame through sealing bearings, uniformly distributed material control grooves are formed in the outer wall of the material slowing frame, and a first heating frame is arranged in the material slowing frame in the fixing clamp.

Preferably, the end parts of the second driving shaft and the first driving shaft are fixedly sleeved with a first belt pulley group.

Preferably, the mixing assembly comprises a mixing frame, the bottom of mixing the frame and the top fixed mounting of slow-feeding frame, driving motor fixed mounting is in the outside of mixing the frame, the inlet pipe fixed clip is on the top of mixing the frame, the bottom of mixing the frame is rotated through sealed bearing and is installed well section of thick bamboo, driving motor's output fixed mounting has the third drive shaft, one side and well section of thick bamboo fixed mounting that driving motor was kept away from to the third drive shaft, well section of thick bamboo is kept away from one side middle part activity card of third drive shaft and is equipped with the heater bar, the outer wall fixed mounting of well section of thick bamboo has the stirring frame, the fixing clip is equipped with the second heating frame in the mixing frame.

Preferably, the outer wall of the middle cylinder is provided with a plurality of through grooves which are uniformly distributed.

Preferably, the third driving shaft and one of the second driving shafts are fixedly sleeved with a second pulley group.

Preferably, the fixed frame is fixedly sleeved on the outer wall of one side, far away from the feeding frame, of the feeding nozzle.

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 of 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 view of the structure of the present invention.

Fig. 2 is a schematic view of the structural connection of the present invention.

Figure 3 is a schematic view of the structural connection of the loading frame and the loading assembly of the present invention.

Fig. 4 is an enlarged view of the invention at a in fig. 3.

Fig. 5 is an enlarged view of the invention at B in fig. 3.

FIG. 6 is a schematic structural view of a buffer assembly according to the present invention.

Fig. 7 is a schematic view of the structural connection of the hybrid module and the motor of the present invention.

Fig. 8 is an enlarged view of the invention at C in fig. 7.

In the figure: 1. a chassis; 2. a feeding frame; 21. a charging nozzle; 22. a fixing frame; 201. fixing grooves; 3. a feeding assembly; 4. a material buffering component; 5. a mixing assembly; 6. a drive motor; 61. a third drive shaft; 7. a feed pipe; 8. a support frame; 9. a first pulley set; 10. a second pulley set; 31. a driving frame; 32. a driven shaft; 321. a ball sleeve; 322. rotating the ball; 33. a connecting shaft; 34. a connecting rod; 341. a first drive shaft; 35. a drive rod; 351. a rotating seat; 36. a drive column; 37. a material pushing frame; 371. a rubber sleeve; 41. a material buffering outer frame; 42. a material buffering frame; 422. a second drive shaft; 43. a material control frame; 431. a material control groove; 44. a first heating frame; 51. mixing the outer frame; 511. a second heating frame; 52. a stirring frame; 53. a middle cylinder; 531. penetrating a groove; 54. a heating rod.

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.

Example (b): as shown in fig. 1-8, the invention provides a feeding mechanism for casting a motor casing of a new energy automobile, which comprises an underframe 1, wherein a feeding frame 2 is clamped and arranged at the top end of the underframe 1, a feeding assembly 3 is arranged in the feeding frame 2, a feeding nozzle 21 is fixedly arranged at one end, away from the underframe 1, of the feeding frame 2, a support frame 8 is fixedly sleeved outside the feeding nozzle 21, the stability of the whole feeding mechanism can be effectively improved by arranging the support frame 8, a fixing frame 22 is fixedly sleeved on the outer wall of one side, away from the feeding frame 2, of the feeding nozzle 21, a plurality of fixing bolts are arranged on the fixing frame 22 in a threaded manner, and the feeding nozzle 21 and the position of a feeding opening of a casting mold can be fixedly installed by using the fixing bolts and the fixing frame 22;

add one side top fixing clip that material frame 2 is close to charging nozzle 21 and be equipped with and slow down material subassembly 4, the top fixed mounting who slows down material subassembly 4 has hybrid module 5, and hybrid module 5's outside fixed mounting has driving motor 6, and hybrid module 5's top fixing clip is equipped with inlet pipe 7, through setting up inlet pipe 7, can pour into the material for the casing casting of motor shell into hybrid module 5.

The feeding assembly 3 comprises a driving frame 31 and a connecting rod 34, driven shafts 32 are fixedly mounted at two end parts of the driving frame 31, the driven shafts 32 are movably inserted into the top of the underframe 1, stable horizontal movement of the driving frame 31 is realized, a ball sleeve 321 is fixedly connected to one side, away from the driving frame 31, of the driven shaft 32, a rotating ball 322 is rotatably clamped in the ball sleeve 321, a connecting shaft 33 is fixedly mounted at one side, away from the ball sleeve 321, of the rotating ball 322, and one side, away from the ball sleeve 321, of the rotating ball 33 can rotate through connection of the rotating ball 322 and the ball sleeve 321;

the two connecting rods 34 are symmetrically arranged, the connecting rods 34 are fixedly arranged on the outer side of the underframe 1, one side, away from the underframe 1, of each connecting rod 34 is rotatably provided with a first driving shaft 341, the first driving shaft 341 can stably rotate on the connecting rod 34, the end part of each first driving shaft 341 is fixedly provided with a driving rod 35, one side, away from the first driving shaft 341, of each driving rod 35 is rotatably sleeved with a rotating seat 351, the driving rods 35 can rotate in the rotating seats 351, one sides, away from the rotating balls 322, of the rotating seats 351 and the connecting shafts 33 are fixedly arranged, the first driving shafts 341 are driven to rotate, the driving rods 35 and the corresponding connecting shafts 33 can be driven to rotate, and therefore the driven shafts 32 and the driving frames 31 are driven to stably move horizontally back and forth;

the middle part fixing clip of driving frame 31 is equipped with drive column 36, drive column 36 is far away from one side extension of driving frame 31 and is advanced in the material feeding frame 2 and fixed mounting has and pushes away material frame 37, the fixed cover of outer wall that pushes away material frame 37 is equipped with rubber sleeve 371, rubber sleeve 371 activity joint is at the inner wall of material feeding frame 2, horizontal migration makes a round trip through driving frame 31, drive pushes away material frame 37 and rubber sleeve 371 and carries out round trip movement, through pushing away the round trip movement of material frame 37 and rubber sleeve 371, can release the material of depositing in material feeding frame 2 through charging nozzle 21, feed in raw material to the casting mould.

The buffering component 4 comprises a buffering outer frame 41, a buffering frame 42 is integrally formed at the top end of the buffering outer frame 41, a fixing groove 201 is formed in the outer wall of one side, close to the feeding nozzle 21, of the feeding frame 2, a bottom portion of the buffering outer frame 41 is fixedly clamped in the fixing groove 201 to achieve communication between the feeding frame 2 and the buffering outer frame 41, in an initial state, the pushing frame 37 and the rubber sleeve 371 block the fixing groove 201, a material control frame 43 is rotatably clamped in the buffering outer frame 42, the material control frame 43 can stably rotate in the buffering outer frame 42, the outer wall of the material control frame 43 is in contact with the inner wall of the buffering outer frame 42, second driving shafts 422 are fixedly mounted at two end portions of the material control frame 43, the second driving shafts 422 are rotatably mounted on the buffering outer frame 42 through sealing bearings and can drive the material control frame 43 to stably rotate in the buffering outer frame 42 by driving the second driving shafts 422, uniformly distributed material control grooves 431 are formed in the outer wall of the buffering outer frame 42, through the steady rotation of accuse material frame 43, drive the accuse material groove 431 that slows down material frame 42 outer wall in proper order and rotate, thereby can will stop quantitative material indirectness input in accuse material groove 431 and buffer memory in slowing down material frame 41 and use, thereby can prevent that the material from adding too much and causing the waste, the fixing clip is equipped with first heating frame 44 in the material frame 41 of slowing down, carry out effective heating to the quantitative material of buffer memory in slowing down material frame 42, thereby can prevent that the material of buffer memory from appearing solidifying and influencing the casting operation of follow-up motor casing.

The fixed cover of tip of second drive shaft 422 and first drive shaft 341 is equipped with first pulley group 9, wherein, first pulley group 9 includes that two belt pulleys and activity cup joint the driving belt in two belt pulley outsides, two belt pulleys are fixed respectively and cup joint the tip at second drive shaft 422 and first drive shaft 341, rotate through driving second drive shaft 422, drive one of them belt pulley and rotate, thereby drive driving belt and carry out the transmission, and then another belt pulley of synchronous drive rotates, thereby can drive first drive shaft 341 in step and rotate.

The mixing assembly 5 comprises a mixing outer frame 51, the bottom end of the mixing outer frame 51 and the top end fixed mounting of a buffering outer frame 41 are arranged, the communication between the mixing assembly 5 and the buffering assembly 4 is realized, a driving motor 6 is fixedly mounted at the outer side of the mixing outer frame 51, a feeding pipe 7 is fixedly clamped at the top end of the mixing outer frame 51, a middle cylinder 53 is rotatably mounted at the bottom of the mixing outer frame 51 through a sealing bearing, a third driving shaft 61 is fixedly mounted at the output end of the driving motor 6, one side of the third driving shaft 61, which is far away from the driving motor 6, and the middle cylinder 53 are fixedly mounted, the driving motor 6 is controlled and started to drive the third driving shaft 61 to rotate, so that the middle cylinder 53 is driven to stably rotate, a stirring frame 52 is fixedly mounted on the outer wall of the middle cylinder 53, and the stirring frame 52 is further driven to stably rotate, the materials in the mixing outer frame 51 are effectively stirred and mixed, and the quality of the materials is improved, the middle part of one side of the middle barrel 53, which is far away from the third driving shaft 61, is movably clamped with a heating rod 54, the outer wall of the middle barrel 53 is provided with a plurality of through grooves 531 which are uniformly distributed, and the heating rod 54 is arranged in the middle barrel 53, so that the middle part of the material stirred in the mixing outer frame 51 can be heated; mix the frame 51 in the fixing clip be equipped with second heating frame 511, can carry out the heating of side position to the material of stirring in mixing the frame 51 to effectively heat the material of stirring, and then prevent that the material of stirring from taking place to solidify, further promoted the quality of material.

The fixed cover in the outside of third drive shaft 61 and one of them second drive shaft 422 is equipped with second belt pulley group 10, wherein, second belt pulley group 10 includes two belt pulleys and the activity cup joints the drive belt in two belt pulley outsides, two belt pulleys are fixed the end of cup jointing at third drive shaft 61 and second drive shaft 422 respectively, rotate through driving third drive shaft 61, drive one of them belt pulley and rotate, thereby drive belt and carry out the transmission, and then another belt pulley of synchronous drive rotates, thereby can drive second drive shaft 422 in step and rotate.

The working principle is as follows: the invention relates to a feeding mechanism for casting a motor shell of a new energy automobile, when casting equipment needs to be fed, a fixed frame 22 is used for installing and fixing a feeding nozzle 21 and a casting mold, then a driving motor 6 is controlled and started to drive a third driving shaft 61 to rotate, so that a middle cylinder 53 is driven to stably rotate, a stirring frame 52 is driven to stably rotate, materials in a mixing outer frame 51 are effectively stirred and mixed, a heating rod 54 and a second heating frame 511 are simultaneously started, and the materials stirred in the mixing outer frame 51 are synchronously heated at the middle position and the side end position, so that the stirred materials are effectively heated, and the stirred materials are prevented from being solidified;

when the third driving shaft 61 rotates, the second driving shaft 422 synchronously rotates through the transmission of the second belt pulley group 10, the second driving shaft 422 is driven to rotate, the material control frame 43 can be driven to stably rotate in the material buffering frame 42, and the material control grooves 431 on the outer wall of the material buffering frame 42 are sequentially driven to rotate, so that quantitative materials staying in the material control grooves 431 can be indirectly input into the material buffering outer frame 41 for buffering and using, the waste caused by excessive material addition is prevented, the first heating frame 44 is simultaneously started to effectively heat the buffered quantitative materials, and the buffered materials are prevented from being solidified;

when the second driving shaft 422 rotates, the first driving shaft 341 rotates synchronously through the transmission of the first pulley set 9, the driving rod 35 and the corresponding connecting shaft 33 can be driven to rotate by driving the first driving shaft 341, so that the driven shaft 32 and the driving frame 31 are driven to perform stable back-and-forth horizontal movement, the material pushing frame 37 and the rubber sleeve 371 are driven to perform back-and-forth movement, when the material pushing frame 37 and the rubber sleeve 371 move towards one side far away from the feeding nozzle 21, the fixing groove 201 is opened, materials used by quantitative cache are added into the material feeding frame 2 through the fixing groove 201, at the moment, materials with proper quantity are injected into the material feeding frame 2, then the material pushing frame 37 and the rubber sleeve 371 can move towards one side close to the feeding nozzle 21, the materials with proper quantity injected into the material feeding frame 2 are pushed out of the feeding nozzle 21 through the rubber sleeve 371, and quantitatively enter the casting mold for motor shell casting, thereby realize the quantitative orderly feeding when the motor casing is cast.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. The utility model provides a new energy automobile motor casing casting is with reinforced mechanism, includes chassis (1), its characterized in that: the top fixing clip of chassis (1) is equipped with feeding frame (2), be equipped with reinforced subassembly (3) in feeding frame (2), the one end fixed mounting that chassis (1) was kept away from in feeding frame (2) has charging mouth (21), the fixed cover in the outside of charging mouth (21) is equipped with support frame (8), one side top fixing clip that feeding frame (2) are close to charging mouth (21) is equipped with and delays material subassembly (4), the top fixed mounting that delays material subassembly (4) has hybrid module (5), the outside fixed mounting of hybrid module (5) has driving motor (6), the top fixing clip of hybrid module (5) is equipped with inlet pipe (7).

2. The feeding mechanism for casting the motor casing of the new energy automobile as claimed in claim 1, wherein the feeding assembly (3) comprises a driving frame (31) and a connecting rod (34), driven shafts (32) are fixedly mounted at both ends of the driving frame (31), the driven shafts (32) are movably inserted into the top of the chassis (1), a ball sleeve (321) is fixedly connected to one side of the driven shafts (32) far away from the driving frame (31), a rotating ball (322) is arranged in the ball sleeve (321) in a rotating manner, and a connecting shaft (33) is fixedly mounted on one side of the rotating ball (322) far away from the ball sleeve (321);

the connecting rod (34) is provided with two symmetrically distributed connecting rods, the connecting rod (34) is fixedly installed on the outer side of the bottom frame (1), one side, far away from the bottom frame (1), of the connecting rod (34) is rotatably provided with a first driving shaft (341), the end part of the first driving shaft (341) is fixedly provided with a driving rod (35), one side, far away from the first driving shaft (341), of the driving rod (35) is rotatably sleeved with a rotating seat (351), and the rotating seat (351) and one side, far away from the rotating ball (322), of the connecting shaft (33) are fixedly installed;

the middle part fixing clip of carriage (31) is equipped with drive post (36), one side that drive post (36) kept away from carriage (31) extends into in feeding frame (2) and fixed mounting has material pushing frame (37), the fixed cover of outer wall of material pushing frame (37) is equipped with rubber sleeve (371), rubber sleeve (371) activity joint is at the inner wall that adds material frame (2).

3. The feeding mechanism for casting the motor casing of the new energy automobile as claimed in claim 2, the material buffering component (4) comprises a material buffering outer frame (41), a material buffering frame (42) is integrally formed at the top end of the material buffering outer frame (41), the outer wall of one side of the feeding frame (2) close to the feeding nozzle (21) is provided with a fixed groove (201), the bottom of the material buffering outer frame (41) is fixedly clamped in the fixing groove (201), the material control frame (43) is rotatably clamped in the material buffering frame (42), two ends of the material control frame (43) are fixedly provided with second driving shafts (422), the second driving shaft (422) is rotatably arranged on the buffer frame (42) through a sealed bearing, the outer wall of the material buffering frame (42) is provided with uniformly distributed material control grooves (431), a first heating frame (44) is fixedly clamped in the buffering outer frame (41).

4. The feeding mechanism for casting the motor casing of the new energy automobile as claimed in claim 3, wherein the first pulley set (9) is fixedly sleeved at the end parts of the second driving shaft (422) and the first driving shaft (341).

5. The feeding mechanism for casting the motor casing of the new energy automobile as claimed in claim 3, wherein the mixing assembly (5) comprises a mixing outer frame (51), the bottom end of the mixing outer frame (51) and the top end of a buffering outer frame (41) are fixedly installed, the driving motor (6) is fixedly installed at the outer side of the mixing outer frame (51), the feeding pipe (7) is fixedly clamped at the top end of the mixing outer frame (51), the bottom of the mixing outer frame (51) is rotatably installed with a middle barrel (53) through a sealed bearing, the output end of the driving motor (6) is fixedly installed with a third driving shaft (61), one side of the third driving shaft (61) far away from the driving motor (6) and the middle barrel (53) are fixedly installed, the middle part of one side of the middle barrel (53) far away from the third driving shaft (61) is movably clamped with a heating rod (54), and the outer wall of the middle barrel (53) is fixedly installed with a stirring frame (52), the mixing outer frame (51) is fixedly clamped with a second heating frame (511).

6. The feeding mechanism for casting the motor casing of the new energy automobile as claimed in claim 5, wherein a plurality of through grooves (531) are uniformly distributed on the outer wall of the middle cylinder (53).

7. The feeding mechanism for casting the motor shell of the new energy automobile as claimed in claim 5, wherein a second pulley set (10) is fixedly sleeved on the outer side of the third driving shaft (61) and one of the second driving shafts (422).

8. The feeding mechanism for casting the motor casing of the new energy automobile as claimed in claim 1, wherein a fixing frame (22) is fixedly sleeved on the outer wall of one side of the feeding nozzle (21) far away from the feeding frame (2).

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