CN209831153U - Bearing lateral surface grinding is carried, is processed all-in-one - Google Patents

Abstract

The utility model provides a bearing lateral surface grinding is carried, processing all-in-one, includes conveyor and grinding device, and conveyor includes vertical conveying unit, installs in the pay-off track of vertical conveying unit discharge end department, is connected with the orbital discharge end of pay-off and realizes the material pushing unit of feeding, and grinding device includes the processing unit and arranges in the processing unit and pushes away the passageway that the material unit cooperation was used with pushing. The utility model discloses a bearing lateral surface grinding is carried, processing all-in-one collects carries, processing in an organic whole, it is effectual and noiselessness to have to carry the thing, solve the bearing and carry the jam problem, and when pushing away material to processingequipment, rotate through driving the bearing and promote feeding efficiency, and thereby the bearing can not empty, lose the problem that the original state of putting hinders the feeding process, need not two sides that the clamping can realize quick grinding bearing in abrasive machining, realize mass production, and is convenient and fast, and is worth promoting.

Description

Bearing lateral surface grinding is carried, is processed all-in-one

Technical Field

The utility model relates to a bearing processing equipment, especially a bearing lateral surface grinding is carried, is processed all-in-one.

Background

At present, the existing processing equipment for processing the peripheral surface of a bearing is realized by driving a feeding groove to do periodic linear reciprocating vibration along an inclined direction through a shaking type feeding machine by utilizing a special vibration motor, when the vertical component of the vibration acceleration of the feeding groove is larger than the gravity acceleration, materials in the groove are thrown up and jump forward along a parabolic track, but the noise generated by the feeding machine during working is overlarge, and the feeding machine is not arranged by a single machine but arranged by a plurality of machines, so the overall noise is large, the health of workers is influenced, secondly, the feeding track for conveying the bearing is arranged in an inclined way, but the bearing is usually blocked in the feeding track during the feeding process of the common feeding track, so that the bearing cannot be conveyed continuously, under the condition that no one sees the attention, the processing equipment is in an idle running state, and finally, a processing part is formed, after the bearing falls down, the workpiece is clamped through the clamping mechanism arranged at the bearing mounting area, then the outer peripheral surface is machined by feeding, short falling position, adjustment and clamping time can be generated in machining by using the structure, the machining progress is reduced, the batch is reduced, and the yield is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model discloses solve above-mentioned prior art's shortcoming, provide a convenient to use's bearing lateral surface grinding and carry, processing all-in-one, automatic transport, automatic processing realize mass production, and do not have the pause, and transport stability is good, and the processing smoothness degree is high, convenient and fast.

The utility model provides a technical scheme that its technical problem adopted: the grinding, conveying and machining integrated machine for the outer side face of the bearing comprises a conveying device and a grinding device, wherein the conveying device comprises a vertical conveying unit, a feeding rail arranged at the discharge end of the vertical conveying unit, and a material pushing unit connected with the discharge end of the feeding rail to realize feeding, and the grinding device comprises a machining unit and a channel which is arranged in the machining unit and is matched with the material pushing unit for use. Therefore, the equipment integrates conveying and processing functions, the conveying is formed by feeding, feeding and pushing, the work division is clear, smooth conveying is achieved, conveying blockage cannot be caused, the processing unit is used for processing, receiving and conveying bearings, and the equipment is convenient and fast.

The vertical conveying unit comprises a container for placing a bearing, a vertical and inclined conveying frame is arranged in the container, the lower end of the conveying frame is arranged in the container, the upper end of the conveying frame is arranged outside the container, the conveying frame comprises cladding distributed from left to right, conveying shafts which are arranged in the two cladding and distributed from top to bottom, and a conveying crawler matched with the two conveying shafts for use, segmented grooves for segmenting the conveying crawler are arranged on the conveying crawler, fixed blocks fixed on the outer peripheral surface of the conveying crawler are arranged between the adjacent segmented grooves, the fixed blocks are arranged in an inclined manner, the left end heads of the fixed blocks are higher than the right end heads of the fixed blocks, and the conveying shafts arranged at the upper ends are; a first discharge port is formed in the cladding arranged on the right side, and the feeding track is arranged at the first discharge port and is arranged on the outer side of the cladding; an anti-drop protective cover is arranged outside the conveying frame. Like this, the container is used for the material stock, the carriage will be present in the container work piece and send to work piece material receiving track department, then get into to work piece material receiving track in with the form of blanking in, it is often used for transverse transport to consider self to carry the track, so set the carriage to vertical and slope in order to realize vertical transport, then the cooperation fixed block realizes carrying the work piece, the fixed block slope sets up the position and is convenient for the work piece to get into to work piece material receiving track in, the setting of slope makes the work piece lean on carrying the track outer peripheral face, so the structure not only carries effectually, and noiselessness.

The feeding rail comprises a rail body, the rail body comprises a transition rail, a feeding guide part and a discharging guide part, the feeding guide part is installed at the feeding end of the transition rail, the discharging guide part is installed at the discharging end of the transition rail, a feeding hole which is opened on the transition rail is formed in the joint of the transition rail and the feeding guide part, the feeding guide part is a U-shaped pipeline, the lower end face of the feeding guide part is attached to the upper end face of the transition rail, a second discharging hole which is opened on the transition rail is formed in the joint of the transition rail and the discharging guide part, the discharging guide part is an arc-shaped pipeline, and the discharging; the lower end of the transition track is provided with an air cylinder mounting plate arranged on the transition track, an air cylinder is arranged on the air cylinder mounting plate, and a top plate existing in the transition track is arranged on a piston rod of the air cylinder; the outside of the feeding guide part is provided with a notch. Thus, the feeding guide part is used for guiding the bearing to enter the transition track, the feeding guide part is arranged into a U-shaped structure in consideration of the requirement of the bearing on the placement state, on the one hand, the bearing is convenient to receive and is prevented from toppling over, the discharging guide part is used for guiding the bearing to be separated from the transition track, and in consideration of the requirement of the bearing on the placement state in consideration of the separation of the bearing from the transition track, the discharging guide part is arranged into an arc-shaped structure, so that the bearing after discharging can be discharged along the discharging guide part under the condition of keeping the original placement state, the top plate is added in order to avoid the problem that the bearings in the transition track cannot be normally and smoothly conveyed, the top plate is driven by the air cylinder to impact the bearing according to the frequency of 2 s/time, the moving stroke of a piston rod of the air cylinder, the setting of breach is for the slope setting in consideration that the track body is installed on the feeding frame, and the outer wall through the breach makes the track body paste completely on the outer wall of feeding frame, connects both through welding or bolted connection's mode, is convenient for receive the bearing that comes out from the feeding frame.

The material pushing unit comprises a base, a pair of supporting blocks which are distributed at intervals is installed on the base, a supporting plate which is supported by the two supporting blocks is installed on the supporting block, a pair of supporting column groups which are distributed at intervals is installed on the supporting plate, the supporting column groups comprise a pair of supporting columns which are distributed front and back, the upper end of the supporting plate is provided with a top plate which is connected with the two supporting column groups, a pair of conveying parts which are distributed at intervals is arranged between the supporting plate and the top plate, the conveying parts comprise belt pulleys which are connected between the supporting plate and the top plate in a rotating mode, the two belt pulleys are connected through a group of belts, the inner side of each belt is provided with a row of rotating shafts which are arranged. Like this, this structure is used for propelling movement bearing to processing equipment in before processing, the belt pulley is the rotation with the belt and is connected, frictional force through the belt drives the bearing propelling movement, the effect has the drive on the one hand, on the other hand can improve propelling movement efficiency, and the propelling movement is steady, very be applicable to large batch production, but single belt can lead to the bearing to turn on one's side, the event is according to the diameter size decision of bearing, the pivot is used for increasing the use strength of belt, prevent the atress and warp, destroy the propelling movement, the pivoted sets up the resistance that can reduce and bring for the belt when contacting with the belt, excellent in use effect, convenient and fast.

The processing unit comprises a workbench, driving boxes distributed at intervals at the left and right are mounted on the workbench, a channel is arranged between the two driving boxes, a wheel seat is arranged on the inner side of each driving box, a grinding wheel driven by the driving boxes is rotatably connected onto the wheel seat, a synchronous disc is connected between the grinding wheel arranged on the left side and the grinding wheel arranged on the right side, a pair of stop blocks which are arranged in the channel and mounted on the workbench are arranged at the front end of each grinding wheel, and the distance between the stop blocks is consistent with the distance between the two grinding wheels; the feed end of the channel is provided with a guide rail arranged on the workbench, and the discharge end of the channel is provided with a discharge rail arranged on the workbench. Like this, connect and draw the track and be used for receiving the bearing to the processing unit in, the processing uses through two emery wheels combinations and realizes two-sided abrasive machining to the bearing, and the interval between two emery wheels equals the thickness of bearing, and realizes that two emery wheels synchronous rotating's synchronization disc pushes up on the bearing, and single synchronization disc rotates along with the rotation of emery wheel, pushes away the bearing of accomplishing the grinding through the friction, can not pause promptly, so can realize mass production, and orderly blanking is realized to ejection of compact track for the bearing after accomplishing the processing falls to formulating the collection point department.

Further perfection, and the two conveying shafts are connected through a chain mechanism. Therefore, the chain mechanism has the phenomena of no elastic sliding and no slipping, the average transmission ratio is accurate, the work is reliable, and the efficiency is high; the transmission power is large, the overload capacity is strong, and the transmission size under the same working condition is small; the required tension is small, and the pressure acting on the shaft is small; can work in severe environments such as high temperature, humidity, dustiness, pollution and the like.

Further perfect, the upper end of carriage is equipped with the blanking brush of supplementary blanking, and the blanking brush is the slant setting, and this blanking brush is equipped with the second mounting panel of installing on the cladding outside, installs the bearing frame on the second mounting panel, and the internal rotation of two bearing frames is connected with the axostylus axostyle, and the axostylus axostyle part department of arranging between two claddings in installs the brush roll, is equipped with the brush hair on the brush roll, installs the second motor mounting panel in the second mounting panel outside of left side cladding, and the fourth motor of using with the axostylus ax. Therefore, the blanking brush is used for assisting in blanking, the bristles on the brush roll are in contact with the workpiece, the workpiece which is still on the fixed block falls, the blanking brush is arranged at the upper end of the workpiece receiving rail, and therefore the brushed workpiece directly falls on the workpiece receiving rail, direct discharging is achieved, and convenience and rapidness are achieved.

Further perfection, a pair of reinforcing ribs distributed at intervals are arranged between the transition track and the feeding guide part. Like this, consider that transition track and feeding guide portion between area of contact is not big, in order to improve the holistic stability of track body, so add the strengthening rib between transition track and feeding guide portion for feeding guide portion is stably installed on transition track.

Further perfected, three belts are connected to the belt pulley. Therefore, the number of the belts is determined according to the diameter of the bearing, so that the side turning of the bearing can be avoided, and the material pushing is smooth.

Further perfection, five rotating shafts are provided. Therefore, the using number of the rotating shafts is related to the conveying distance of the bearing passing through the section, so that the using strength of the belt of the section is better, the deformation of the belt is reduced, the bearing is prevented from being clamped in the material pushing device, and the material pushing effect is good.

Further perfection, the supporting block is provided with a placing groove. Like this, the setting of putting the groove at first can supply the backup pad to put on, secondly puts seting up of groove and makes the supporting shoe upper end be the height form, and high part can keep off in the backup pad side for backup pad lower extreme, side all obtain the restraint, and whole stability in use is good.

Further perfection, the workbench is provided with a hollow groove at the lower end of the grinding wheel. Therefore, the empty groove provides the operation space for the grinding wheel, and the bearing is in contact with the working table surface, so that the full grinding cannot be realized without adding the empty groove, the full grinding can be realized, and the grinding wheel cannot damage the working table.

Further perfection, a pair of slide rails for adjusting the use position of the driving box is arranged on the workbench. Therefore, the size of the bearing is different, the using position of the driving box is adjusted through the sliding rail, and then the corresponding synchronous disc is replaced, so that the synchronous disc type bearing box can be suitable for the bearings with different sizes, and the using range of equipment is wide.

The discharging guide part is internally provided with a rotating block which is rotatably connected into the discharging guide part, the outer wall of the rotating block is connected with a connecting rod, a first chute for the connecting rod to move is formed in the discharging guide part, the connecting rod passes through the first chute and is arranged outside the discharging guide part, a connecting block is arranged on the end of the connecting rod arranged outside the discharging guide part, a driving unit which is vertically arranged is arranged outside the connecting block, the driving unit comprises a mounting frame which is arranged outside the discharging guide part, a lever cylinder is rotatably connected in the mounting frame, a second chute for a piston rod of the lever cylinder to pass through is formed in the mounting frame, and a piston rod of the lever cylinder is arranged on the outer side; a shaft seat is installed in the installation frame, and a connecting block rotatably connected in the shaft seat is installed at the tail part of the lever cylinder; the turning block is triangle-shaped, and the inside and outside of turning block all is the arc setting. Thus, considering that two side surfaces of a bearing are machined, the bearing needs to be placed and changed according to the position arrangement of a grinding wheel in grinding, the bearing in a feeding track moves on an X axis, the bearing entering a machining area moves on a Y axis, the position change is realized through a rotating block, meanwhile, the rotating block is required to move all the time to guide the bearing to turn, and considering that the inner space of a discharging guide part is limited and the swinging cannot be realized in the discharging guide part, two cylinders which are vertically arranged are arranged in the discharging guide part, the rotating block is realized by moving on an X, Y axis, and considering that the cylinders do linear motion and cannot realize radial motion, the cylinders are rotatably connected in a mounting frame, and the cylinders have radial motion capability by matching with a second chute, are more flexible, the arrangement of the first chute realizes distance control, and the movement angle without worry is reduced, the using effect is good, convenient and fast, and the turning block of triangle-shaped just can not cause the interference at ejection of compact guide part internal rotation, and rotates the smoothness degree height.

The utility model discloses profitable effect is: the utility model discloses a bearing lateral surface grinding is carried, processing all-in-one collects and carries, processing an organic whole, has following several effects: 1. the bearing is conveyed, the object lifting is realized through the fixing blocks, the fixing blocks are provided with a plurality of arrangements, workpieces which reach the discharge port and are still on the fixing blocks are completely brushed down by matching with the blanking brushes, the omission is avoided, the using effect is good, and no noise is generated in the conveying process; 2. the problem of bearing conveying blockage is solved, the top plate is driven by the air cylinder to be in contact with the bearings in the feeding track in a low-frequency short-distance moving mode, the bearings in the feeding track can be conveyed smoothly by winding up the top plate for conveying, the bearings are pushed, the bearings are driven to rotate by shaft rotation, and bearing turning is realized by matching with the rotating block; 3. the problem that the feeding process is hindered due to the fact that the bearings topple over and lose the original placement state when the bearings enter the placement area from the conveying track is effectively solved, and the bearing feeding device is suitable for non-stop batch production and high in efficiency; 4. need not the clamping and can realize quick grinding bearing lateral surface, realize two-sided abrasive machining through two emery wheels combined use to the bearing, interval between two emery wheels equals the thickness of bearing, and realizes that two emery wheels synchronous rotation's synchronization disc pushes up on the bearing, and the single synchronization disc rotates along with the rotation of emery wheel, pushes away the bearing of accomplishing the grinding through the friction, can not pause promptly, realizes mass production, convenient and fast is worth promoting.

Drawings

FIG. 1 is a schematic view of the overall three-dimensional structure of the present invention;

fig. 2 is a schematic perspective view of the vertical conveying unit of the present invention;

FIG. 3 is a schematic plan view of the brush roll and bristles of the present invention;

fig. 4 is a schematic perspective view of the feeding track of the present invention;

fig. 5 is a partially enlarged schematic view of a portion a in fig. 4 according to the present invention;

fig. 6 is a partially enlarged view of a portion B in fig. 4 according to the present invention;

FIG. 7 is an enlarged partial view of the portion C in FIG. 4 according to the present invention

Fig. 8 is a schematic perspective view of the pushing unit of the present invention;

fig. 9 is an enlarged partial view of portion D of fig. 8 according to the present invention;

fig. 10 is a schematic perspective view of the processing unit of the present invention;

fig. 11 is a partially enlarged view of portion E of fig. 10 according to the present invention;

fig. 12 is a schematic plan view of the processing unit of the present invention;

fig. 13 is a schematic front perspective view of the rotating block and the driving unit of the present invention;

fig. 14 is a schematic perspective view of the back side of the rotating block and the driving unit according to the present invention;

fig. 15 is a partially enlarged schematic view of a portion F in fig. 14 according to the present invention.

Description of reference numerals: the device comprises a conveying device 1, a grinding device 2, a vertical conveying unit 3, a feeding track 4, a pushing unit 5, a processing unit 6, a channel 7, a container 8, a conveying frame 9, a cladding 10, a conveying shaft 11, a conveying crawler 12, a segmentation groove 13, a fixing block 14, a first motor 15, a first discharge port 16, a track body 17, a transition track 18, a feeding guide part 19, a discharge guide part 20, a feed port 21, a second discharge port 22, a cylinder mounting plate 23, a cylinder 24, a top plate 25, a notch 26, an anti-falling protection cover 27, a base 28, a supporting block 29, a placing groove 29-1, a supporting plate 30, a supporting column group 31, a supporting column 31-1, a top plate 32, a conveying part 33, a belt pulley 34, a belt 35, a rotating shaft 36, a workbench 37, a driving box 38, a wheel seat 40, a grinding wheel 41, a synchronous disc 42, a stop 43, a guide track, the brush roller brush device comprises a second mounting plate 47, a bearing seat 48, a shaft rod 49, a brush roller 50, bristles 51, a motor mounting plate 52, a second motor 53, a reinforcing rib 54, an empty groove 55, a sliding rail 56, a rotating block 57, a connecting rod 58, a first sliding groove 59, a connecting block 60, a driving unit 61, a mounting frame 62, a lever cylinder 63, a second sliding groove 64, a shaft seat 65 and a mounting block 66.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

with reference to the accompanying drawings: the grinding, conveying and processing integrated machine for the outer side face of the bearing comprises a conveying device 1 and a grinding device 2, wherein the conveying device 1 comprises a vertical conveying unit 3, a feeding rail 4 arranged at the discharging end of the vertical conveying unit 3 and a material pushing unit 5 connected with the discharging end of the feeding rail 4 to realize feeding, and the grinding device 2 comprises a processing unit 6 and a channel 7 which is arranged in the processing unit 6 and is matched with the material pushing unit 5 for use;

the vertical conveying unit 3 comprises a container 8 for placing a bearing, a vertical and inclined conveying frame 9 is arranged in the container 8, the lower end of the conveying frame 9 is arranged in the container 8, the upper end of the conveying frame 9 is arranged outside the container 8, the conveying frame 9 comprises cladding 10 which are distributed left and right, conveying shafts 11 which are arranged in the two cladding 10 and distributed up and down, and a conveying crawler 12 which is matched with the two conveying shafts 11 for use, sectional grooves 13 which are used for sectioning the conveying crawler 12 are formed in the conveying crawler 12, a fixing block 14 which is fixed on the outer peripheral surface of the conveying crawler 12 is arranged between the adjacent sectional grooves 13, the fixing block 14 is obliquely arranged, the left end of the fixing block 14 is higher than the right end of the fixing block 14, and the conveying shaft 11 arranged at the upper; a first discharge port 16 is arranged on the enclosure 10 arranged on the right side, wherein the feeding track 4 is arranged at the first discharge port 16 and is arranged outside the enclosure 10; an anti-falling protection cover 27 is arranged outside the conveying frame 9;

the feeding rail 4 comprises a rail body 17, the rail body 17 comprises a transition rail 18, a feeding guide part 19 arranged at the feeding end of the transition rail 18 and a discharging guide part 20 arranged at the discharging end of the transition rail 18, a feeding port 21 formed in the transition rail 18 is arranged at the joint of the transition rail 18 and the feeding guide part 19, the feeding guide part 19 is a U-shaped pipe, the lower end surface of the feeding guide part 19 is attached to the upper end surface of the transition rail 18, a second discharging port 22 formed in the transition rail 18 is arranged at the joint of the transition rail 18 and the discharging guide part 20, the discharging guide part 20 is an arc-shaped pipe, and the discharging guide part 20 and the transition rail 18 are vertically arranged; the lower end of the transition track 18 is provided with an air cylinder mounting plate 23 arranged on the transition track 18, an air cylinder 24 is arranged on the air cylinder mounting plate 23, and a top plate 25 existing in the transition track 18 is arranged on a piston rod of the air cylinder 24; the outer side of the feeding guide part 19 is provided with a notch 26;

the material pushing unit 5 comprises a base 28, a pair of supporting blocks 29 distributed at intervals left and right are mounted on the base 28, supporting plates 30 supported by the two supporting blocks 29 are mounted on the supporting blocks 29, a pair of supporting column groups 31 distributed at intervals left and right are mounted on the supporting plates 30, each supporting column group 31 comprises a pair of supporting columns 31-1 distributed front and back, a top plate 32 connected by the two supporting column groups 31 is arranged at the upper end of each supporting plate 30, a pair of conveying parts 33 distributed at intervals left and right are arranged between the supporting plates 30 and the top plate 32, each conveying part 33 comprises a pair of belt pulleys 34 distributed front and back and rotatably connected between the supporting plates 30 and the top plate 32, the two belt pulleys 34 are connected through a group of belts 35, a row of rotating shafts 36 arranged between the two belt pulleys 34 and rotatably connected between the supporting plates 30 and the top plate 32;

the processing unit 6 comprises a workbench 37, wherein the workbench 37 is provided with driving boxes 38 which are distributed at intervals left and right, the channel 7 is arranged between the two driving boxes 38, the inner side of each driving box 38 is provided with a wheel seat 40, the wheel seat 40 is rotatably connected with a grinding wheel 41 driven by the driving box 38, a synchronous disc 42 is connected between the grinding wheel 41 arranged on the left side and the grinding wheel 41 arranged on the right side, the front end of the grinding wheel 41 is provided with a pair of stop blocks 43 which are arranged in the channel 7 and arranged on the workbench 37, and the distance between the stop blocks 43 is consistent with the distance between the two grinding wheels 41; the feed end of the channel 7 is provided with a guide rail 44 mounted on the worktable 37, and the discharge end of the channel 7 is provided with a discharge rail 45 mounted on the worktable 37.

The two conveying shafts 11 are connected through a chain mechanism.

The upper end of the conveying frame 9 is provided with a blanking brush 46 for assisting blanking, the blanking brush 46 is obliquely arranged, the blanking brush 46 is provided with a second mounting plate 47 mounted on the outer side of the cladding 10, a bearing seat 48 is mounted on the second mounting plate 47, shaft rods 49 are rotatably connected with the two bearing seats 48, a brush roller 50 is mounted at the part of the shaft rod 49 arranged between the two cladding 10, brush bristles 51 are arranged on the brush roller 50, a motor mounting plate 52 is mounted on the outer side of the second mounting plate 47 mounted on the left cladding 10, and a second motor 53 matched with the shaft rod 49 for use is mounted on the outer side of the motor mounting.

A pair of spaced apart ribs 54 are provided between the transition rail 18 and the feed guide 19.

Three belts 35 are connected to the pulley 34.

There are five shafts 36.

The supporting block 29 is provided with a placing groove 29-1.

The table 37 is provided with a hollow groove 55 existing at the lower end of the grinding wheel 41.

A pair of slide rails 56 for adjusting the use position of the drive case 38 are mounted on the table 37.

A rotating block 57 rotatably connected into the discharging guide part 20 is arranged in the discharging guide part 20, a connecting rod 58 is connected to the outer wall of the rotating block 57, a first sliding groove 59 for the connecting rod 58 to move is formed in the discharging guide part 20, the connecting rod 58 penetrates through the first sliding groove 59 and is arranged outside the discharging guide part 20, a connecting block 60 is installed at the end of the connecting rod 58 arranged outside the discharging guide part 20, a driving unit 61 vertically arranged is arranged outside the connecting block 60, the driving unit 61 comprises an installation frame 62 installed outside the discharging guide part 20, a lever cylinder 63 is rotatably connected to the installation frame 62, a second sliding groove 64 for a piston rod of the lever cylinder 63 to penetrate through is formed in the installation frame 62, and piston rods of the lever cylinder 63 are installed on the outer side faces of the connecting; a shaft seat 65 is installed in the mounting frame 62, and an installation block 66 which is rotatably connected in the shaft seat 65 is installed at the tail part of the lever cylinder 63; the turning block 57 is triangular, and the inside and the outside of the turning block 57 are both arc-shaped.

When the bearing feeding device is used, a bearing to be processed is put into the container 8, the first motor 15 is started, the conveying shaft 11 drives the conveying crawler 12 to move circularly, the bearing is guided upwards by the fixing block 14 arranged on the conveying crawler 12 in the circulation of the conveying crawler 12 and then guided to the first discharge hole 16 of the conveying frame 9, in order to brush down the bearing still existing on the fixing block 14 when the bearing reaches the first discharge hole 16 by the blanking brush 46, then the bearing is conveyed to the material pushing unit 5 by the feeding rail 4, the cylinder 24 is started in the feeding process, the bearing existing in the feeding rail 4 is slightly jacked by the top plate 25 to prevent the bearing existing in the feeding rail 4 from being blocked, the bearing is required to be changed according to the processing requirement after entering the discharge guide part 20, the connecting block 60 is driven by the lever cylinder 63 to change direction, and the connecting block 60 is driven to do X-direction change, The Y-direction movement drives the rotating block 57 to rotate, the bearing direction change is realized through the rotating block 57, after the bearing enters the material pushing unit 5, the bearing exists between the two belts 35, the friction force of the belt 35 drives the bearing to push, on one hand, the driving effect is achieved, on the other hand, the pushing efficiency can be improved, the pushing is stable, enters the processing unit 6 through the guide track 44, and the processing realizes double-sided grinding processing on the bearing through the combined use of two grinding wheels 41, the distance between the two grinding wheels 41 is equal to the thickness of the bearing, and the synchronous disk 42 realizing the synchronous rotation of the two grinding wheels 41 is pressed against the bearing, the single synchronous disk rotates along with the rotation of the grinding wheels 41, the bearing completing the grinding is pushed away by friction, the bearing machining device does not stop, so that batch production can be achieved, ordered blanking is achieved on the discharging rail 45, and the machined bearing falls to the designated collecting point.

While the invention has been shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the scope of the appended claims.

Claims (10)

1. The utility model provides a bearing lateral surface grinding is carried, processing all-in-one, characterized by: the grinding device comprises a conveying device (1) and a grinding device (2), wherein the conveying device (1) comprises a vertical conveying unit (3), a feeding rail (4) arranged at the discharging end of the vertical conveying unit (3), and a material pushing unit (5) connected with the discharging end of the feeding rail (4) to realize feeding, and the grinding device (2) comprises a processing unit (6) and a channel (7) which is arranged in the processing unit (6) and is matched with the material pushing unit (5) for use;

the vertical conveying unit (3) comprises a container (8) for placing a bearing, a vertical and inclined conveying frame (9) is arranged in the container (8), the lower end of the conveying frame (9) is arranged in the container (8), the upper end of the conveying frame (9) is arranged outside the container (8), the conveying frame (9) comprises a left and a right distributed cladding (10), conveying shafts (11) which are arranged in the two cladding (10) and are distributed up and down, and conveying crawler belts (12) which are matched with the two conveying shafts (11), the conveying crawler (12) is provided with subsection grooves (13) for sectioning the conveying crawler (12), fixing blocks (14) fixed on the outer peripheral surface of the conveying crawler (12) are arranged between the adjacent subsection grooves (13), the fixed block (14) is obliquely arranged, the left end head of the fixed block (14) is higher than the right end head of the fixed block (14), and the conveying shaft (11) arranged at the upper end is connected with a first motor (15); a first discharge hole (16) is formed in the right-side cladding (10), wherein the feeding rail (4) is arranged at the first discharge hole (16) and is arranged on the outer side of the cladding (10); an anti-falling protection cover (27) is arranged outside the conveying frame (9);

the feeding rail (4) comprises a rail body (17), the rail body (17) comprises a transition rail (18), a feeding guide part (19) arranged at the feeding end of the transition rail (18) and a discharging guide part (20) arranged at the discharging end of the transition rail (18), a feeding hole (21) formed in the transition rail (18) is formed in the joint of the transition rail (18) and the feeding guide part (19), the feeding guide part (19) is a U-shaped pipeline, the lower end face of the feeding guide part (19) is attached to the upper end face of the transition rail (18), a second discharging hole (22) formed in the transition rail (18) is formed in the joint of the transition rail (18) and the discharging guide part (20), the discharging guide part (20) is an arc-shaped pipeline, and the discharging guide part (20) and the transition rail (18) are vertically arranged; the lower end of the transition track (18) is provided with a cylinder mounting plate (23) arranged on the transition track (18), a cylinder (24) is arranged on the cylinder mounting plate (23), and a top plate (25) existing in the transition track (18) is arranged on a piston rod of the cylinder (24); a notch (26) is formed on the outer side of the feeding guide part (19);

material pushing unit (5) includes base (28), install a pair of supporting shoe (29) of controlling interval distribution on base (28), install backup pad (30) that support through two supporting shoe (29) on supporting shoe (29), install a pair of support post group (31) of controlling interval distribution on backup pad (30), support post group (31) are including a pair of support post (31-1) of distributing around, backup pad (30) upper end is equipped with roof (32) of being connected through two support post groups (31), wherein be equipped with a pair of transport portion (33) of controlling interval distribution between backup pad (30) and roof (32), transport portion (33) are including rotating belt pulley (34) of connecting a pair of distributing around between backup pad (30) and roof (32), two belt pulley (34) are connected through a set of belt (35), belt (35) inboard is equipped with one row and arranges in between two belt pulley (34) and rotates to connect in backup pad (30) and roof (30) and belt (35) and rotate A rotating shaft (36) between the top plates (32), wherein the rotating shaft (36) is matched with the belt (35) for use;

the machining unit (6) comprises a workbench (37), driving boxes (38) which are distributed at left and right intervals are mounted on the workbench (37), a channel (7) is arranged between the two driving boxes (38), a wheel seat (40) is arranged on the inner side of each driving box (38), a grinding wheel (41) driven by the driving boxes (38) is connected to the wheel seat (40) in a rotating mode, a synchronous disc (42) is connected between the grinding wheel (41) on the left side and the grinding wheel (41) on the right side, a pair of stop blocks (43) which are arranged in the channel (7) and mounted on the workbench (37) are arranged at the front end of each grinding wheel (41), and the distance between the stop blocks (43) is consistent with the distance between the two grinding wheels (41); the feed end of passageway (7) is equipped with and installs connect guide rail (44) on workstation (37), the discharge end of passageway (7) is equipped with ejection of compact track (45) of installing on workstation (37).

2. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: the two conveying shafts (11) are connected through a chain mechanism.

3. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: the blanking brush (46) for assisting blanking is arranged at the upper end of the conveying frame (9), the blanking brush (46) is obliquely arranged, the blanking brush (46) is provided with a second mounting plate (47) installed on the outer side of the cladding (10), bearing seats (48) are installed on the second mounting plate (47), shaft rods (49) are rotationally connected with the two bearing seats (48), brush rollers (50) are installed at the parts of the shaft rods (49) between the two cladding (10) in place, brush bristles (51) are arranged on the brush rollers (50), a motor mounting plate (52) is installed on the outer side of the second mounting plate (47) installed on the left cladding (10), and a second motor (53) matched with the shaft rods (49) for use is installed on the outer side of the motor mounting plate (52).

4. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: a pair of reinforcing ribs (54) distributed at intervals are arranged between the transition track (18) and the feeding guide part (19).

5. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: three belts (35) are connected to the belt pulley (34).

6. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: five rotating shafts (36) are arranged.

7. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: the supporting block (29) is provided with a placing groove (29-1).

8. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: the workbench (37) is provided with a hollow groove (55) which is arranged at the lower end of the grinding wheel (41).

9. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: and a pair of slide rails (56) for adjusting the use position of the driving box (38) are arranged on the workbench (37).

10. The bearing lateral surface grinding, conveying and machining integrated machine according to claim 1, is characterized in that: be equipped with in ejection of compact guide portion (20) and rotate turning block (57) of connecting in ejection of compact guide portion (20), be connected with connecting rod (58) on the outer wall of turning block (57), it has first spout (59) that supply connecting rod (58) activity to open in ejection of compact guide portion (20), outside ejection of compact guide portion (20) is arranged in first spout (59) connecting rod (58), arrange in ejection of compact guide portion (20) outward install connecting block (60) on connecting rod (58) end, connecting block (60) are equipped with outward and are drive unit (61) of perpendicular setting, drive unit (61) are including installing in the outer mounting bracket (62) of ejection of compact guide portion (20), and mounting bracket (62) internal rotation is connected with lever cylinder (63), wherein it has second spout (64) that the piston rod that supplies lever cylinder (63) to pass to open on mounting bracket (62), the piston rod of lever cylinder (63) is installed in arranging connecting rod (58) both ends connecting block ( On the surface; an axle seat (65) is installed in the mounting rack (62), and a mounting block (66) which is rotatably connected in the axle seat (65) is installed at the tail part of the lever cylinder (63); the rotating block (57) is triangular, and the inside and the outside of the rotating block (57) are both arc-shaped.