CN220887627U - Bearing heat treatment unloading buffer - Google Patents

Abstract

The utility model provides a blanking buffer device for heat treatment of a bearing, which belongs to the technical field of blanking of heat treatment of bearings and aims to solve the problem that the inclination angle of a buffer plate is overlarge or undersize; the problem of small or overlarge sliding force of the bearing on the buffer plate is caused; comprises a base; the outer side of the base is fixedly provided with an adjusting module, the inside of the base is fixedly provided with a bearing device, and the inner side of the bearing device is fixedly provided with four buffer structures; the outer side of the base is fixedly provided with a stirring mechanism, and the outer side of the base is fixedly provided with a material conveying device; the blanking frame can rotate around the connecting shaft through the adjusting module and the sliding rail; the inclination angle of the blanking frame can be adjusted according to the specific size and the weight of the bearing; the phenomenon that the bearing is accumulated at the tail part of the blanking frame due to small sliding force or is collided and damaged due to overlarge sliding force can be avoided.

Description

Bearing heat treatment unloading buffer

Technical Field

The utility model belongs to the technical field of bearing heat treatment blanking, and particularly relates to a bearing heat treatment blanking buffer device.

Background

The bearing is an element for connecting workpieces, and meanwhile, the workpiece can be rotated through the bearing, the bearing is widely applied to various fields, and after the bearing production is finished, the bearing after the processing is finished needs to be subjected to heat treatment.

The existing buffer device arranged at the discharge port of the bearing heat treatment device is usually provided with an inclined buffer plate, so that the phenomenon that the inclination angle of the buffer plate is overlarge or undersize can occur; the sliding force of the bearing on the buffer plate is small or excessive; therefore, the phenomenon that the bearing is accumulated on the tail part of the buffer plate due to small sliding force or is collided and damaged due to overlarge sliding force can occur; thereby reducing the practicality of the blanking buffer device.

Disclosure of utility model

In order to solve the technical problems, the utility model provides a blanking buffer device for heat treatment of a bearing, so as to solve the problem that the buffer plate can be inclined at an excessive or insufficient angle in the prior art; resulting in a problem of small or excessive sliding force of the bearing on the buffer plate.

The utility model relates to a bearing heat treatment blanking buffer device, which is realized by the following specific technical means:

A blanking buffer device for heat treatment of a bearing comprises a base; a connecting shaft is rotatably arranged on one side of the top of the base, and the base is of a U-shaped structure; a blanking frame is fixedly arranged on the outer side of the connecting shaft, two groups of trapezoidal sliding rails are fixedly arranged at the bottom of the blanking frame, and the two groups of sliding rails are symmetrically arranged; the outer side of the base is fixedly provided with an adjusting module, the inside of the base is fixedly provided with a bearing device, and the inner side of the bearing device is fixedly provided with four buffer structures; the material stirring mechanism is fixedly arranged on the outer side of the base, and the material conveying device is fixedly arranged on the outer side of the base.

Further, the adjustment module includes: the device comprises an adjusting frame, an adjusting shaft, an adjusting rod and an adjusting seat; the adjusting frame is fixedly arranged on the outer side of the base; the adjusting shaft is rotatably arranged in the top side of the adjusting frame; the adjusting rod is fixedly arranged at the outer side of the adjusting shaft; the adjusting seat is rotatably arranged on the outer side of the end part of the adjusting rod, and the adjusting seat is slidably arranged on the outer side of the sliding rail.

Further, the adjusting module further includes: a worm and a worm wheel; the worm is rotationally arranged between the adjusting frame and the inside of the base, the worm is fixedly arranged at the shaft end of the motor, and the motor is fixedly arranged at the outer side of the adjusting frame; the worm wheel is fixedly arranged at the top end of the adjusting shaft, and the worm wheel is meshed with the worm.

Further, the receiving device includes: the device comprises a bearing plate, a fixed frame, a guide rod, a sliding seat and a rotating plate; the bearing plate is arranged in the base in a sliding way; the fixing frame is fixedly arranged at the bottom of the bearing plate; two groups of buffer structures are arranged between the bottom of the fixing frame and the inside of the base; the guide rod is fixedly arranged in the fixing frame; the sliding seat is arranged on the outer side of the guide rod in a sliding way, a spring piece is arranged between one side of the sliding seat and the top end of the guide rod, and two groups of buffer structures are arranged between the other side of the sliding seat and the inside of the fixing frame; the rotating plate is rotatably arranged at the bottom of the sliding seat, and the bottom of the rotating plate is rotatably connected with the base.

Further, the buffer structure includes: the device comprises a fixed cylinder, a buffer column, a piston plate and an orifice; the number of the fixed cylinders is four, and viscous fluid is filled in the fixed cylinders; two groups of fixed cylinders are fixedly arranged in the base, and the other two groups of fixed cylinders are fixedly arranged on the inner side of the fixed frame; the number of the buffer columns is four, the four groups of buffer columns are respectively arranged in the four groups of fixed cylinders in a sliding way, and the four groups of buffer columns are respectively fixedly connected with the fixed frame and the sliding seat; the piston plate is arranged in the fixed cylinder in a sliding way, and is fixedly arranged on the outer side of the buffer column; the throttle holes are arranged in the piston plate, and the throttle holes are arranged in an annular array.

Further, the stirring mechanism comprises: the device comprises a stirring frame, a rotating shaft, a synchronous wheel, a synchronous belt and a stirring plate; the material shifting frame is fixedly arranged on the outer side of the base; the rotating shafts are rotationally arranged in the two sides of the top of the material stirring frame, the rotating shafts are fixedly arranged at the shaft ends of the motors, and the motors are fixedly arranged at the outer sides of the material stirring frame; the synchronous wheels are fixedly arranged outside the rotating shafts, and the number of the synchronous wheels and the number of the rotating shafts are two; the synchronous belt is arranged between the two groups of synchronous wheels in a matching way; the stirring plate is fixedly arranged on the outer side of the synchronous belt, and the outer side of the stirring plate is attached to the top of the bearing plate.

Further, the material conveying device comprises: the conveying device comprises a conveying frame, a conveying roller, a conveying belt and a transition plate; the material conveying frame is fixedly arranged on the outer side of the base; the material conveying rollers are rotationally arranged in the material conveying frame, and the number of the material conveying rollers is two; the group of material conveying rollers are fixedly arranged at the shaft end of the motor, and the motor is fixedly arranged at the outer side of the material conveying frame; the conveyor belt is arranged between the two groups of material conveying rollers in a matching way; the transition plate is fixedly arranged on the outer side of the base, and the bottom of the transition plate is attached to the outer side of the conveyor belt.

Compared with the prior art, the utility model has the following beneficial effects:

1. According to the utility model, the blanking frame can rotate around the connecting shaft by arranging the adjusting module and the sliding rail; therefore, the inclination angle of the blanking frame can be adjusted according to the specific size and the weight of the bearing; the phenomenon that the sliding force of the bearing on the blanking frame is small or overlarge is avoided; therefore, the phenomenon that the bearing is accumulated at the tail part of the blanking frame due to small sliding force or is collided and damaged due to overlarge sliding force can be avoided.

2. According to the utility model, the buffer structure and the bearing device are arranged, so that the bearing can be buffered and damped when the bearing slides onto the bearing plate, and the phenomenon of damage of the bearing caused by collision can be prevented; the two groups of material shifting plates can push the bearings one by utilizing the synchronous wheels and the synchronous belts; the phenomenon that the bearings are accumulated together to cause collision between the bearings is avoided; thereby enhancing the practicability of the blanking buffer device.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

Fig. 2 is a schematic structural view of the conditioning module of the present utility model.

Fig. 3 is a schematic view of the structure of the lower surface of the receiving plate of the present utility model.

Fig. 4 is a schematic view of the internal structure of the fixing frame of the present utility model.

Fig. 5 is a schematic cross-sectional view of the stationary barrel of the present utility model.

Fig. 6 is a schematic structural view of a kick-out mechanism of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. A base; 101. a connecting shaft; 102. a blanking frame; 103. a slide rail;

2. An adjustment module; 201. an adjusting frame; 202. a worm; 203. an adjusting shaft; 204. a worm wheel; 205. an adjusting rod; 206. an adjusting seat;

3. A receiving device; 301. a receiving plate; 302. a fixing frame; 303. a guide rod; 304. a sliding seat; 305. a rotating plate;

4. A buffer structure; 401. a fixed cylinder; 402. a buffer column; 403. a piston plate; 404. an orifice;

5. A stirring mechanism; 501. a kick-out frame; 502. a rotating shaft; 503. a synchronizing wheel; 504. a synchronous belt; 505. a kick-out plate;

6. A material conveying device; 601. a material conveying frame; 602. a feed roller; 603. a conveyor belt; 604. and a transition plate.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples

As shown in fig. 1 to 6:

The utility model provides a bearing heat treatment blanking buffer device, which comprises a base 1; a connecting shaft 101 is rotatably arranged on one side of the top of the base 1, and the base 1 is of a U-shaped structure; a blanking frame 102 is fixedly arranged on the outer side of the connecting shaft 101, two groups of trapezoidal sliding rails 103 are fixedly arranged at the bottom of the blanking frame 102, and the two groups of sliding rails 103 are symmetrically arranged; the outer side of the base 1 is fixedly provided with an adjusting module 2, the inner side of the base 1 is fixedly provided with a bearing device 3, and the inner side of the bearing device 3 is fixedly provided with a four-place buffer structure 4; the outer side of the base 1 is fixedly provided with a stirring mechanism 5, and the outer side of the base 1 is fixedly provided with a material conveying device 6; the adjustment module 2 includes: the device comprises an adjusting frame 201, a worm 202, an adjusting shaft 203, a worm wheel 204, an adjusting rod 205 and an adjusting seat 206; the adjusting frame 201 is fixedly arranged on the outer side of the base 1; the adjusting shaft 203 is rotatably installed inside the top side of the adjusting frame 201; the adjusting rod 205 is fixedly arranged outside the adjusting shaft 203; the adjusting seats 206 are rotatably arranged outside the end parts of the adjusting rods 205, the number of the adjusting seats 206 and the number of the adjusting rods 205 are two, and the two groups of adjusting seats 206 are respectively arranged outside the two groups of sliding rails 103 in a sliding manner; the worm 202 is rotatably arranged between the adjusting frame 201 and the inside of the base 1, the worm 202 is also fixedly arranged at the shaft end of the motor, and the motor is fixedly arranged at the outer side of the adjusting frame 201; the worm wheel 204 is fixedly arranged at the top end of the adjusting shaft 203, and the worm wheel 204 is meshed with the worm 202; the concrete functions are as follows: through the arrangement of the worm wheel 204 and the worm 202, the effect that the adjusting shaft 203 drives the two groups of adjusting rods 205 to rotate and the adjusting seat 206 slides at the bottom of the blanking frame 102 is realized; plays a role in adjusting the inclination angle of the blanking frame 102.

Examples

As shown in fig. 3 to 5:

On the basis of the first embodiment, the receiving device 3 includes: a receiving plate 301, a fixing frame 302, a guide rod 303, a sliding seat 304 and a rotating plate 305; the bearing plate 301 is slidably arranged inside the base 1; the fixing frames 302 are fixedly arranged at the bottom of the bearing plate 301, and four groups of fixing frames 302 are arranged; two groups of buffer structures 4 are arranged between the bottom of the fixing frame 302 and the inside of the base 1; the guide rod 303 is fixedly arranged inside the fixed frame 302; the sliding seat 304 is slidably arranged outside the guide rod 303, a spring member is arranged between one side of the sliding seat 304 and the top end of the guide rod 303, and two groups of buffer structures 4 are arranged between the other side of the sliding seat 304 and the inside of the fixed frame 302; the rotating plate 305 is rotatably arranged at the bottom of the sliding seat 304, the bottom of the rotating plate 305 is rotatably connected with the base 1, and the rotating plate 305 and the sliding seat 304 are symmetrically arranged; the buffer structure 4 includes: a fixed cylinder 401, a buffer column 402, a piston plate 403, and an orifice 404; the number of the fixed cylinders 401 is four, and the fixed cylinders 401 are filled with viscous fluid; two groups of fixed cylinders 401 are fixedly arranged in the base 1, and the other two groups of fixed cylinders 401 are fixedly arranged on the inner side of the fixed frame 302; the number of the buffer columns 402 is four, the four groups of buffer columns 402 are respectively arranged in the four groups of fixed cylinders 401 in a sliding way, and the four groups of buffer columns 402 are respectively fixedly connected with the fixed frame 302 and the sliding seat 304; the piston plate 403 is slidably disposed inside the fixed cylinder 401, and the piston plate 403 is fixedly disposed outside the buffer column 402; the throttle holes 404 are arranged inside the piston plate 403, and the throttle holes 404 are arranged in an annular array; the concrete functions are as follows: by providing the symmetrical rotating plate 305, the effect of enabling the two groups of sliding seats 304 to move in opposite directions simultaneously is achieved, and the effect of decomposing the impact force of the bearing and counteracting the impact force by utilizing the buffer structure 4 is achieved.

Examples

As shown in fig. 1 and 6:

On the basis of the first embodiment and the second embodiment, the kick-out mechanism 5 includes: a kick-out frame 501, a rotation shaft 502, a synchronizing wheel 503, a synchronizing belt 504 and a kick-out plate 505; the material shifting frame 501 is fixedly arranged on the outer side of the base 1; the rotating shafts 502 are rotatably arranged inside two sides of the top of the material stirring frame 501, the rotating shafts 502 are fixedly arranged at the shaft ends of motors, and the motors are fixedly arranged outside the material stirring frame 501; the synchronizing wheels 503 are fixedly arranged outside the rotating shaft 502, and the number of the synchronizing wheels 503 and the number of the rotating shaft 502 are two; the synchronous belt 504 is cooperatively arranged between two groups of synchronous wheels 503; the material stirring plates 505 are fixedly arranged on the outer side of the synchronous belt 504, the number of the material stirring plates 505 is two, and the outer sides of the material stirring plates 505 are attached to the top of the receiving plate 301; the feeding device 6 includes: a material conveying frame 601, a material conveying roller 602, a conveyor belt 603 and a transition plate 604; the material conveying frame 601 is fixedly arranged on the outer side of the base 1; the material conveying rollers 602 are rotatably arranged inside the material conveying frame 601, and the number of the material conveying rollers 602 is two; the group of material conveying rollers 602 are fixedly arranged at the shaft ends of the motors, and the motors are fixedly arranged at the outer sides of the material conveying frames 601; the conveyor belt 603 is cooperatively arranged between two groups of material conveying rollers 602; the transition plate 604 is fixedly arranged on the outer side of the base 1, and the bottom of the transition plate 604 is attached to the outer side of the conveyor belt 603; the concrete functions are as follows: by arranging the two groups of synchronous wheels 503 and the rotating shaft 502, the effect that the synchronous belt 504 drives the two groups of stirring plates 505 to push the bearings one by one is realized, and the effect of preventing the bearing from accumulating is achieved.

Specific use and action of the embodiment:

In the utility model, when in use, the motor is started to drive the worm 202 to rotate, the worm 202 drives the adjusting shaft 203 to rotate through the worm wheel 204, and the adjusting shaft 203 drives the two groups of adjusting rods 205 to rotate, so that the end parts of the adjusting rods 205 ascend or fall down, and the adjusting seat 206 slides outside the sliding rail 103; thereby adjusting the inclination angle of the blanking frame 102; automatically sliding down the bearing after heat treatment by utilizing the inclination angle of the blanking frame 102; when the downward sliding bearing impacts the bearing plate 301, the bearing plate 301 drives the fixing frame 302 to move downwards, and the fixing frame 302 drives the two groups of sliding seats 304 to move in opposite directions at the outer side of the guide rod 303 through the two groups of rotating plates 305, so that the impact force direction of the bearing is decomposed; simultaneously, the bottom buffer column 402 of the fixing frame 302 is extruded when the fixing frame moves downwards; the sliding seat 304 pulls the outer buffer post 402 when sliding; so that the buffer column 402 drives the piston plate 403 to slide inside the fixed cylinder 401, and viscous fluid in two parts of spaces separated by the piston plate 403 can be mutually supplemented through the orifice 404; thereby forming damping, so that the impact force of the bearing is counteracted, and the bearing is damped and buffered; the starting motor drives one group of rotating shafts 502 and the synchronous wheels 503 on the outer sides of the rotating shafts, the synchronous wheels 503 drive the synchronous belt 504 to rotate through the other group of synchronous wheels 503, and the synchronous belt 504 enables the two groups of material shifting plates 505 to rotate in a ring shape, so that the material shifting plates 505 push bearings onto the conveying belt 603 through transition plates 604; the motor is started to rotate the feed roller 602 so that the conveyor belt 603 conveys the bearings to a specified position.

Claims (7)

1. The utility model provides a bearing thermal treatment unloading buffer which characterized in that includes: a base (1); a connecting shaft (101) is rotatably arranged on one side of the top of the base (1), and the base (1) is of a U-shaped structure; a blanking frame (102) is fixedly arranged on the outer side of the connecting shaft (101), two groups of trapezoidal sliding rails (103) are fixedly arranged at the bottom of the blanking frame (102), and the two groups of sliding rails (103) are symmetrically arranged; the device is characterized in that an adjusting module (2) is fixedly arranged on the outer side of the base (1), a bearing device (3) is fixedly arranged in the base (1), and four buffer structures (4) are fixedly arranged on the inner side of the bearing device (3); the material stirring mechanism (5) is fixedly arranged on the outer side of the base (1), and the material conveying device (6) is fixedly arranged on the outer side of the base (1).

2. The bearing heat treatment blanking buffer apparatus of claim 1, wherein: the regulation module (2) comprises: an adjusting frame (201), an adjusting shaft (203), an adjusting rod (205) and an adjusting seat (206); the adjusting frame (201) is fixedly arranged at the outer side of the base (1); the adjusting shaft (203) is rotatably arranged in the top side of the adjusting frame (201); the adjusting rod (205) is fixedly arranged at the outer side of the adjusting shaft (203); the adjusting seat (206) is rotatably arranged on the outer side of the end part of the adjusting rod (205), and the adjusting seat (206) is slidably arranged on the outer side of the sliding rail (103).

3. A bearing heat treatment blanking buffer apparatus as claimed in claim 2, wherein: the regulation module (2) further comprises: a worm (202) and a worm wheel (204); the worm (202) is rotationally arranged between the adjusting frame (201) and the inside of the base (1), the worm (202) is fixedly arranged at the shaft end of the motor, and the motor is fixedly arranged at the outer side of the adjusting frame (201); the worm wheel (204) is fixedly arranged at the top end of the adjusting shaft (203), and the worm wheel (204) is meshed with the worm (202).

4. The bearing heat treatment blanking buffer apparatus of claim 1, wherein: the receiving device (3) comprises: a bearing plate (301), a fixing frame (302), a guide rod (303), a sliding seat (304) and a rotating plate (305); the bearing plate (301) is arranged in the base (1) in a sliding manner; the fixing frame (302) is fixedly arranged at the bottom of the bearing plate (301); two groups of buffer structures (4) are arranged between the bottom of the fixing frame (302) and the inside of the base (1); the guide rod (303) is fixedly arranged in the fixing frame (302); the sliding seat (304) is arranged on the outer side of the guide rod (303) in a sliding way, a spring piece is arranged between one side of the sliding seat (304) and the top end of the guide rod (303), and two groups of buffer structures (4) are arranged between the other side of the sliding seat (304) and the inside of the fixed frame (302); the rotating plate (305) is rotatably arranged at the bottom of the sliding seat (304), and the bottom of the rotating plate (305) is rotatably connected with the base (1).

5. The bearing heat treatment blanking buffer apparatus of claim 4, wherein: the cushioning structure (4) comprises: a fixed cylinder (401), a buffer column (402), a piston plate (403) and an orifice (404); the number of the fixed cylinders (401) is four, and viscous fluid is filled in the fixed cylinders (401); two groups of fixed cylinders (401) are fixedly arranged in the base (1), and the other two groups of fixed cylinders (401) are fixedly arranged at the inner side of the fixed frame (302); the number of the buffer columns (402) is four, the four groups of buffer columns (402) are respectively arranged in the four groups of fixed cylinders (401) in a sliding way, and the four groups of buffer columns (402) are respectively fixedly connected with the fixed frame (302) and the sliding seat (304); the piston plate (403) is arranged in the fixed cylinder (401) in a sliding way, and the piston plate (403) is fixedly arranged outside the buffer column (402); the throttle holes (404) are formed in the piston plate (403), and the throttle holes (404) are formed in an annular array.

6. The bearing heat treatment blanking buffer apparatus of claim 4, wherein: the stirring mechanism (5) comprises: a material stirring frame (501), a rotating shaft (502), a synchronous wheel (503), a synchronous belt (504) and a material stirring plate (505); the material shifting frame (501) is fixedly arranged at the outer side of the base (1); the rotating shafts (502) are rotationally arranged inside two sides of the top of the material stirring frame (501), the rotating shafts (502) are fixedly arranged at the shaft ends of the motors, and the motors are fixedly arranged outside the material stirring frame (501); the synchronous wheels (503) are fixedly arranged outside the rotating shaft (502), and the number of the synchronous wheels (503) and the number of the rotating shaft (502) are two; the synchronous belt (504) is cooperatively arranged between the two groups of synchronous wheels (503); the stirring plate (505) is fixedly arranged on the outer side of the synchronous belt (504), and the outer side of the stirring plate (505) is attached to the top of the receiving plate (301).

7. The bearing heat treatment blanking buffer apparatus of claim 1, wherein: the material conveying device (6) comprises: a material conveying frame (601), a material conveying roller (602), a conveyor belt (603) and a transition plate (604); the material conveying frame (601) is fixedly arranged on the outer side of the base (1); the material conveying rollers (602) are rotatably arranged in the material conveying frame (601), and the number of the material conveying rollers (602) is two; the group of material conveying rollers (602) are fixedly arranged at the shaft end of the motor, and the motor is fixedly arranged at the outer side of the material conveying frame (601); the conveyor belt (603) is cooperatively arranged between the two groups of material conveying rollers (602); the transition plate (604) is fixedly arranged on the outer side of the base (1), and the bottom of the transition plate (604) is attached to the outer side of the conveyor belt (603).