CN110732703A

CN110732703A - automobile battery support perforating device

Info

Publication number: CN110732703A
Application number: CN201911109889.6A
Authority: CN
Inventors: 乐马克; 匡华阳; 衡旭
Original assignee: Wuxi Wei Tang Industrial Technology Ltd By Share Ltd
Current assignee: Wuxi Wei Tang Industrial Technology Ltd By Share Ltd
Priority date: 2019-11-14
Filing date: 2019-11-14
Publication date: 2020-01-31

Abstract

The invention provides a punching device for an automobile battery support, which can increase the number of drilling positions of the battery support, can detect the drilling positions after punching and improve the working efficiency.

Description

automobile battery support perforating device

Technical Field

The invention relates to the technical field of automobile battery supports, in particular to a punching device for automobile battery supports.

Background

In a new energy electric vehicle, power batteries form a power device, and in order to ensure the mileage of the new energy electric vehicle, a plurality of groups of power batteries are usually required to be arranged, so that a power battery bracket matched with the power batteries is particularly important, and more mounting holes are required to be drilled on the power battery bracket to mount the corresponding power batteries, so that the connection of the plurality of groups of batteries is realized.

China invention patent CN109822125A discloses a punching device for an automobile battery support, which comprises a punching support, a power device, a plurality of punching drill bits and a clamp for clamping and fixing the battery support, wherein the punching support can be arranged on an outer rail in a vertically sliding manner and is arranged above the clamp, the plurality of punching drill bits are rotatably arranged on the lower side surface of the punching support, the power device is linked with the punching drill bits to fix the battery support to be punched on the clamp, the punching support slides downwards above the battery support, and the power device drives the punching drill bits to complete punching of the battery support.

Disclosure of Invention

Aiming at the problems that the punching density of the existing punching device for the automobile battery support is not enough and the detection on the drilling positions of the punched battery support is lacked, the invention provides punching devices for the automobile battery support, which can increase the number of the drilling positions of the battery support, can detect the drilling positions of the punched battery support and improve the working efficiency.

The technical scheme is that the punching device for automobile battery supports comprises a frame, a conveying mechanism for clamping the battery supports and a punching mechanism, wherein a feeding end is positioned at the end of the frame, the punching mechanism is positioned at the other end of the frame,

the automatic punching machine is characterized in that the conveying mechanism is mounted on the rack in a manner of moving along the length direction of the rack, the punching mechanism comprises an th punching mechanism and a second punching mechanism, the th punching mechanism and the second punching mechanism respectively comprise a lifting cylinder, the lifting cylinder is mounted in a punching box above the rack, a piston rod of the lifting cylinder is connected with a lifting seat, the lifting seat is sleeved on a stand column of the punching box, a punching motor is mounted on the lifting seat, a motor shaft of the punching motor is connected with the input end of a rotating shaft through a th synchronous belt gear, the output end of the rotating shaft is respectively connected with the drilling mechanism through a downward output shaft of the second synchronous belt gear, and the rear end of the second punching mechanism is further provided with a detection mechanism for detecting the drilling position of a battery support.

It is further characterized by steps:

the detection mechanism comprises a detection support, the detection support is arranged in a detection box above the rack and can slide up and down along an upright post of the detection box, an elastic telescopic piece corresponding to a drilling position is sleeved on the detection support, the elastic telescopic piece respectively extends out of the upper end and the lower end of the detection support in a linkage manner from the top surface and the bottom surface of the detection support, and the upper surface of the detection support is respectively provided with a transmitting end and a receiving end of an opposite sensor;

the elastic telescopic piece comprises th connecting blocks sleeved on the detection support, elastic structures are symmetrically arranged on two sides of the bottom of the th connecting block, each elastic structure comprises a piston-type guide column sleeve, the end parts of the extending ends of the guide columns are connected with the second connecting block respectively, springs are sleeved outside the guide columns of the guide column sleeves respectively, two ends of each spring are pressed on the end part of the column of the guide column sleeve and the upper surface of the second connecting block respectively, the top column penetrates through the th connecting block and is in clearance fit connection with the th connecting block, a limiting block is sleeved on the top column above the th connecting block, the end part of the lower end of the top column is abutted against the bottom column, and the bottom column is fixedly installed on the second connecting block in a penetrating mode;

a drawing mechanism is further arranged at the joint of the detection support and the detection box, the drawing mechanism comprises a slide rail fixedly arranged on the inner wall of the detection box, and two sides of the detection support are slidably arranged in the slide rail;

the lower end of the lifting seat is provided with a side shifting plate in sliding connection, the side shifting plate slides outwards from the upper part of the rack to the side surface of the rack through a side shifting sliding mechanism, the -th synchronous belt gear is fixedly arranged on the lower surface of the lifting seat, the upper end of the rotating shaft is sleeved with a gear, the gear is meshed and connected with an outer gear of the -th synchronous belt gear, the lower end of the rotating shaft is sleeved in the second synchronous belt gear, and the second synchronous belt gear and a linked drilling mechanism are arranged on the side shifting plate;

the side-shifting sliding mechanism comprises a middle connecting plate which is respectively connected with the lower surface of the lifting seat and the upper surface of the side-shifting plate in a sliding manner, the lower surface of the lifting seat and the upper surface of the side-shifting plate are respectively provided with an th sliding rail and a second sliding rail, the upper surface and the lower surface of the middle connecting plate are respectively provided with an upper sliding block and a lower sliding block which are vertically staggered correspondingly, and the middle connecting plate is provided with an outward groove;

the lower surface of the lifting seat is also provided with a blocking part and a positioning part, the blocking part comprises an upper blocking column and a lower blocking column which are respectively abutted against the end part of an upper sliding block of the middle connecting plate and the end part of the side shifting plate, the positioning part comprises a positioning cylinder, the output end of the positioning cylinder is connected with a downward positioning column, and the end part of the side shifting plate is provided with a positioning hole which is penetrated by the positioning column;

the drilling mechanism comprises a gear box arranged at the lower end of the side shifting plate, a drilling bit group is arranged in the gear box and comprises two drilling bit rows meshed through a transition gear, the drilling bit rows comprise -th main shaft gears, two ends of the -th main shaft gear are meshed and connected with a driven shaft gear through a -th transition gear, and rotatable drilling bits are respectively arranged at the lower ends of the -th main shaft gear and the driven shaft gear;

conveying mechanism includes the base, the base top is equipped with the backup pad of placing battery support, its two edges in bights of base are provided with the location respectively and stop the piece, the diagonal angle in bight, be provided with adjust cylinder on its both corners limit respectively, the base still is equipped with the clamping piece of pressing from both sides tight fixed to battery support's bight.

After the structure is adopted, the battery support is clamped and fixed by the conveying mechanism and then is moved to the position below the punching mechanism along the rack, a piston rod of a lifting cylinder of the punching mechanism pushes a lifting seat to move downwards, then a synchronous belt gear connected with a motor shaft of a power motor drives a second synchronous belt gear to rotate, the second synchronous belt gear drives the drilling mechanism to punch holes on the battery support, the battery support is respectively punched by the aid of the punching mechanism and the second punching mechanism, the density of drilling positions of the battery support is increased, compared with the situation that secondary manual supplementary punching is needed outside a line, punching precision and working efficiency are improved, a detection mechanism is further arranged at the rear end of the second punching mechanism, the lower end of an elastic expansion piece stretches into the drilling positions to detect, and whether hole leakage is caused by the fact that the lower end of the elastic expansion piece is linked with the upper end of the elastic expansion piece, so that the accuracy of the drilling positions of the battery support is ensured, and working efficiency is improved by steps.

Drawings

FIG. 1 is an overall structural view of the present invention;

FIG. 2 is a top view of the overall structure of the present invention;

FIG. 3 is a schematic view of the conveying mechanism of the present invention;

FIG. 4 is a front view of an punch mechanism of the present invention;

FIG. 5 is a left side view of an hole punch mechanism of the present invention;

FIG. 6 is a top view of the drilling structure of the present invention;

FIG. 7 is a schematic view of the detecting mechanism of the present invention;

FIG. 8 is a front view of the resilient telescoping member of the present invention;

in the figure: 1. a frame;

2. a conveying mechanism; 20. a base; 21. a support plate; 22. a clamping member; 220. a telescopic motor; 221. pressing down the connecting rod; 23. an adjusting cylinder; 24. positioning a blocking member;

3. punching mechanism, 30 punching box, 300 lifting cylinder, 31 lifting seat, 32 blocking piece, 320 upper blocking column, 321 lower blocking column, 33 positioning piece, 330 positioning cylinder, 331 positioning column, 34 punching motor, 35 lateral shifting plate, 350 middle connecting plate, 351, guide rail, 352, second guide rail, 36, synchronous belt gear, 37, second synchronous belt gear, 38 rotating shaft, 39 drilling mechanism, 390 transition gear, 391, main shaft gear, 392, transition gear, 393 driven shaft gear;

4. a second hole punching mechanism;

5. the device comprises a detection mechanism, a detection box, a detection bracket, an elastic telescopic piece, a top column, a bottom column, a guide column sleeve, a guide;

6. an electrical control cabinet;

7. a debris collection bin;

8. a control panel.

Detailed Description

As shown in figures 1 and 2, punching devices for automobile battery supports comprise a frame 1, wherein the end of the frame 1 is a feeding end, the other end of the frame 1 is sequentially provided with a punching mechanism 3, a second punching mechanism 4 and a detection mechanism 5 for detecting the drilling position of the battery support, the frame 1 is also provided with a conveying mechanism 2 for clamping the battery support, and the conveying mechanism 2 is sequentially conveyed to the positions below the punching mechanism 3, the second punching mechanism 4 and the detection mechanism 5 from the feeding end of the frame 1 through a conveying mechanism on the frame 1.

As shown in FIG. 3, the conveying mechanism 2 comprises a base 20, a supporting plate 21 for placing the battery support is arranged on the base 20, a plurality of positioning blocking pieces 24 are respectively arranged on two sides of corners of the base 20, correspondingly, adjusting cylinders 23 are respectively arranged on two opposite sides of opposite corners of the corners, the battery support is pushed to abut against the positioning blocking pieces 24 on the two sides of the corners of the base 20 through the adjusting cylinders 23 on the two sides, so that the position of the battery support is adjusted, the drilling position of the battery support can better correspond to the drill bit of the drilling mechanism, a clamping piece 22 is further arranged on the base 20, the clamping piece 22 is respectively arranged on the four corners of the base 20, the clamping piece 22 comprises a telescopic motor 220 and a pressing connecting rod 221 linked with an output shaft of the telescopic motor 220, the pressing connecting rod 221 is driven by the telescopic motor 220 to move downwards to press the four corners of the battery support, so that the battery support is clamped and fixed, a plurality of convex grooves penetrating through the upper surface are uniformly formed on the base 20, the convex grooves are vertical to the length direction of the frame 1, the adjusting cylinders 23, the positioning blocking pieces 24 and the telescopic motor 220 are respectively detachably connected to the base 20, and the convex grooves which can meet the size of the conveying mechanism.

As shown in figures 4 and 5, a th punching mechanism 3 and a second punching mechanism 4 have the same structure, a th punching mechanism 3 is selected for explanation, a th punching mechanism 3 comprises a lifting cylinder 300, the lifting cylinder 300 is installed in a punching box 30 above a rack 1, a piston rod of the lifting cylinder 30 is connected with a lifting seat 31, the lifting seat 31 is sleeved on a stand column of the punching box 30 and can slide up and down along the stand column, a punching motor 34 is installed on the lifting seat 31 and extends downwards to form a motor shaft, the motor shaft is connected with an input end of a rotating shaft 38 through a th synchronous belt gear 36, an output end of the rotating shaft 38 is connected with a second synchronous belt gear 37, the second synchronous belt gear 37 extends downwards to form a plurality of output shafts and is respectively connected with a drilling mechanism 39, the lifting seat 31 is controlled to move up and down along the stand column of the punching box 30 through the arrangement of the lifting cylinder 300, a th synchronous belt gear 36 is driven to rotate through the rotation of the punching motor 34, the th synchronous belt gear 36 drives the second synchronous belt gear 37 to rotate through the rotating shaft 38, thereby driving the punching mechanism 39 to punch a punching mechanism 39 on the battery support, the punching mechanism is selected, and the punching mechanism can be used for realizing the secondary punching work of the high punching mechanism, and the secondary punching mechanism can be used for the secondary punching support according to the punching efficiency of the punching mechanism, so that the punching mechanism, the.

The lower end of the lifting seat 31 is further provided with a side shifting plate 35 in sliding connection, the side shifting plate 35 can slide outwards from the upper side of the machine frame 1 to the side space of the machine frame 1, a -th synchronous belt gear 36 connected with the punching motor 34 is fixedly arranged on the bottom surface of the lifting seat 31, the upper end of a rotating shaft 38 is sleeved with a gear and is in meshed connection with a synchronous belt external gear of a -th synchronous belt gear 36, the lower end of the rotating shaft 38 extends into a second synchronous belt gear 37 and drives the second synchronous belt gear 37 to rotate, the second synchronous belt gear 37 and a connected drilling mechanism 39 are fixedly arranged on the side shifting plate 35, meanwhile, a handle convenient to pull is arranged on the side outwards of the side shifting plate 35, through the arrangement of the side shifting plate 35, when the side shifting plate 35 slides outwards from the upper side of the machine frame 1 to the side surface, the -38 is disconnected with the rotating shaft 36 at the moment, the power of the punching motor 34 is cut off, and the drilling mechanism 39 connected with the side shifting plate 35 is convenient to periodically detect or maintain the side shifting plate 35, the -synchronous belt gear 36 is reconnected with the second synchronous.

A lateral movement sliding mechanism is arranged between the lower surface of the lifting seat 31 and the upper surface of the lateral movement plate 35, specifically, a middle connecting plate 350 is further arranged between the lifting seat 31 and the lateral movement plate 35, a guide rail 351 and a second guide rail 352 which are perpendicular to the length direction of the rack 1 are respectively arranged on the lower surface of the lifting seat 31 and the upper surface of the lateral movement plate 35, a corresponding upper sliding block and a corresponding lower sliding block which are staggered up and down are respectively arranged on the upper surface and the lower surface of the middle connecting plate 350, the middle connecting plate 350 is respectively connected with the guide rail 351 and the second guide rail 352 in a sliding mode through the upper sliding block and the lower sliding block, a U-shaped opening is formed in the edge, facing outwards, of the middle connecting plate 350, the rotating shaft 38 conveniently penetrates through the U-shaped opening, a sliding rail which is connected with the upper section and the lower section is formed when the lateral movement plate 35 slides towards the outside of the side face of the rack 1, the moving path of the lateral movement plate 35 is lengthened, so that the drilling mechanism 39 connected with the.

The lower surface of the lifting seat 31 is further provided with a blocking member 32 and a positioning member 33, the blocking member 32 comprises an upper blocking column 320 and a lower blocking column 321, the upper blocking column 320 and the lower blocking column 321 are respectively fixedly arranged on the lower surface of the lifting seat 31 through fixed supports, and the upper blocking column 320 and the lower blocking column 321 are respectively abutted to the end portion of the upper sliding block of the middle connecting plate 350 and the end portion of the side shifting plate 35. When side shift plate 35 is moved out to the side of frame 1 by the arrangement of blocking member 32 and then moved back to the original position, upper blocking column 320 and lower blocking column 321 position intermediate connecting plate 350 and side shift plate 35, respectively, thereby moving side shift plate 35 back to the original position. The positioning part 33 comprises a positioning cylinder 330 and a positioning column 331 linked with the positioning cylinder 330, the positioning cylinder 330 drives the positioning column 331 to move up and down, and a corresponding positioning hole is formed in the side shifting plate 35 corresponding to a downward moving path of the positioning column 331. Through the arrangement of the positioning part 33, the positioning cylinder 330 drives the positioning column 331 to move downwards and extend into the positioning hole on the side shift plate 35 for fixing, so that the reset side shift plate 35 is prevented from sliding towards the outside of the rack 1.

As shown in FIG. 6, the drilling mechanism 39 comprises a plurality of gear boxes, a drilling bit group is arranged in each gear box, the drilling bit group comprises two drilling bit rows which are connected in a meshed mode, each drilling bit row comprises th main shaft gear 391, th transition gear 392 and slave shaft gear 393, two ends of th main shaft gear 391 are respectively connected with a plurality of slave shaft gears 393 in a meshed mode through th transition gear 392, drilling bits are respectively and rotatably connected to lower ends of th main shaft gear 391 and slave shaft gear 393, so that drilling bit rows with the same rotating direction and equal distance intervals are formed, th main shaft gears 391 of two adjacent drilling bit rows are connected in a meshed mode through transition gears 390 to form the drilling bit group, an upward output shaft is arranged at the upper end of the transition gears 390 and is respectively and coaxially connected with a downward output shaft of the second synchronous belt gear 37, and the drilling bit groups are driven to rotate through the second synchronous belt gear 37.

As shown in fig. 7 and 8, the rear end of the second hole punching mechanism 4 is further provided with a detection mechanism 5, the detection mechanism 5 includes a detection bracket 51, the detection bracket 51 is disposed inside the detection box 50 and can slide up and down along the pillar of the detection box 50, the elastic expansion member 52 is sleeved on the detection bracket 51 and corresponds to a drilling position hole on the battery bracket, the elastic expansion member 52 includes a -th connection block 523 sleeved on the detection bracket 51, two sides of the bottom of the -th connection block 523 are symmetrically provided with pairs of elastic structures, the elastic structures include a piston-type guide pillar sleeve 522, the end of the extending end of the guide pillar sleeve 522 is respectively connected with a second connection block 524, springs are respectively sleeved outside the guide pillars, two ends of the springs are respectively pressed on the end of the guide pillar sleeve 522 and the upper surface of the second connection block 524, the top pillar 520 passes through the -th connection block 523 and is in clearance fit with the second connection block 523, an upper limit block 520 is sleeved on the top pillar, a lower end of the top pillar is provided with a bottom pillar sleeve 521 corresponding to be connected with the upper end of the top pillar sleeve 521, the piston-type guide pillar sleeve 520 is capable of pushing up and pushing up the lower end of the bottom pillar sleeve 522 to be connected with the lower end of the lower connection block 521, so as to push pillar sleeve 521, the piston-down through the piston-type guide pillar sleeve 521, the piston-down connection block 520, the piston-down link 521 is capable of the piston-down link 521, the piston-down.

A drawing mechanism is further arranged between the detection bracket 51 and the detection box 50, the drawing mechanism comprises a slide rail 54 fixedly arranged on the inner wall of the detection box 50, and two sides of the detection bracket 51 are slidably arranged in the slide rail 54. Therefore, the detection bracket 51 can slide outwards from the upper part of the machine frame 1 to the vacant position on the side surface of the machine frame 1, thereby facilitating the regular inspection or the replacement of the damage of the elastic expansion piece 52 or the opposite emission sensor 53 sleeved on the detection bracket 51.

The rear end of the detection mechanism 5 is also provided with an electric control cabinet 6 and a fragment collecting box 7, the electric control cabinet 6 provides a required air source for the whole battery support punching device, and the fragment collecting box 7 collects fragments of the two punching mechanisms after punching through a transmission mechanism on the rack 1, so that the fragments can be conveniently processed by the system .

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims

1, automobile battery support perforating device, which comprises a frame, a conveying mechanism for clamping the battery support and a perforating mechanism, wherein the feeding end is positioned at the end of the frame, the perforating mechanism is positioned at the other end of the frame,

2. The perforating device of claim 1, wherein the detecting mechanism includes a detecting bracket disposed inside the detecting box above the frame and capable of sliding up and down along the upright post of the detecting box, the detecting bracket is sleeved with an elastic expansion member corresponding to the drilling position , the elastic expansion member extends out of the top and bottom surfaces of the detecting bracket to form the upper and lower ends of the linkage, and the upper surface of the detecting bracket is provided with the transmitting and receiving ends of the opposite correlation sensor.

3. The perforating device for automobile battery holders according to claim 2, wherein the elastic extensible member includes a th connecting block sleeved on the detecting bracket, elastic structures are symmetrically disposed on both sides of the bottom of the th connecting block, the elastic structures include piston-type guide post sleeves, the ends of the extending ends of the guide posts are connected with the second connecting block, springs are sleeved outside the guide posts of the guide post sleeves, the two ends of the springs are respectively press-fitted on the end of the post of the guide post sleeve and the upper surface of the second connecting block, the top post passes through the th connecting block and is in clearance fit connection with the th connecting block, a limiting block is sleeved on the top post above the th connecting block, the end of the lower end of the top post abuts against the bottom post, and the bottom post is fixedly installed in the second connecting block in a penetrating manner.

4. The perforating device of claim 3, wherein a pull mechanism is further disposed at a connection point of the detecting bracket and the detecting box, the pull mechanism includes a slide rail fixedly disposed on an inner wall of the detecting box, and both sides of the detecting bracket are slidably mounted in the slide rail.

5. The punching device for the automobile battery supports as claimed in any of claims 1 to 4, wherein a sliding-connected side shift plate is arranged at the lower end of the lifting seat, the side shift plate slides outwards from the upper part of the rack to the side surface of the rack through a side shift sliding mechanism, the -th synchronous belt gear is fixedly arranged on the lower surface of the lifting seat, a gear is sleeved at the upper end of the rotating shaft, the gear is meshed and connected with an outer gear of the -th synchronous belt gear, the lower end of the rotating shaft is sleeved in the second synchronous belt gear, and the second synchronous belt gear and a linked drilling mechanism are arranged on the side shift plate.

6. The perforating device of claim 5, wherein the side-shifting slide mechanism includes a middle connection plate slidably connected to a lower surface of the lift seat and an upper surface of the side-shifting plate, the lower surface of the lift seat and the upper surface of the side-shifting plate are respectively provided with a th slide rail and a second slide rail, the upper surface and the lower surface of the middle connection plate are respectively provided with an upper slide block and a lower slide block which are vertically staggered, and the middle connection plate is provided with an outward groove.

7. The perforating device for kinds of automobile battery supports according to claim 6, wherein the lower surface of the lifting seat is further provided with a blocking member and a positioning member, the blocking member comprises an upper blocking column and a lower blocking column, and is respectively abutted against the end of the upper sliding block of the middle connecting plate and the end of the side shift plate, the positioning member comprises a positioning cylinder, the output end of the positioning cylinder is connected with a downward positioning column, and the end of the side shift plate is provided with a positioning hole through which the positioning column passes.

8. The punching device for the automobile battery support according to claim 5, wherein the punching mechanism comprises a gear box arranged at the lower end of the side shift plate, a punching bit set is arranged inside the gear box, the punching bit set comprises two punching bit rows meshed through a transition gear, the punching bit rows comprise a th main shaft gear, two ends of a th main shaft gear are meshed through a th transition gear and connected with a driven shaft gear, and the lower ends of the th main shaft gear and the driven shaft gear are respectively provided with a rotatable punching bit.

9. The perforating device for the car battery supports as claimed in claim 5, wherein the transporting mechanism includes a base, a supporting plate for placing the battery supports is provided above the base, positioning stoppers are provided on two edges of corners of the base, respectively, adjusting cylinders are provided on two edges of diagonal corners of the base, respectively, and a clamping member for clamping and fixing the corners of the battery supports is further provided on the base.