CN114523293A - Intelligent integrated processing equipment for clamp body support - Google Patents

Abstract

The invention discloses intelligent integrated processing equipment for a clamp body support, which comprises a first mounting frame, an L-shaped supporting column, a U-shaped fixing plate, a clamp, an L-shaped sliding rod, a sliding push rod, a fixing column, a third spring, a second limiting rod and the like; two L shape support columns of fixedly connected with of the front side bottom bilateral symmetry of first mounting bracket, U-shaped fixed plate of rear side middle part below position fixedly connected with of first mounting bracket, U-shaped fixed plate top is fixed with an anchor clamps, and the rear side sliding connection of anchor clamps has an L shape slide bar, and the left side sliding connection of anchor clamps has a slide push rod, and slide push rod's left end and L shape slide bar are connected, and the roof middle part of L shape slide bar is fixed with a fixed column. The first air cylinder drives the first boring cutter and the second boring cutter to move backwards through the first sliding rod and the second mounting frame, and the second motor and the third motor respectively drive the first boring cutter and the second boring cutter to rotate so as to punch holes on the clamp body support.

Description

Intelligent integrated processing equipment for clamp body support

Technical Field

The invention relates to the field of clamp body supports, in particular to intelligent integrated machining equipment for a clamp body support.

Background

The automobile brake caliper support is an important component of an automobile braking system, a brake disc rotates along with a wheel in the driving process of an automobile, the brake caliper support is fixed, and when the automobile brakes, a brake pad arranged on the brake caliper support clamps the brake disc to complete the braking effect, so that the performance of the brake caliper support has great influence on the automobile braking system.

At present, the support of automobile brake caliper is in the course of working, need mill the specific part of semi-manufactured goods work piece, the operation such as punch a hole, tapping, and these operation processes need use different equipment to accomplish, and mutually independent between the different equipment, consequently just need transmit the work piece between each equipment by the workman, the transmission course can waste a large amount of time, and at the in-process of transmission, the condition of processing is leaked just easily to appear at the too fast speed of carrying, and then produce substandard product and waste product, the speed of carrying is slowed down and again influences machining efficiency.

Disclosure of Invention

The invention aims to provide intelligent integrated machining equipment for a clamp body support, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: an intelligent integrated processing device for a pincer body support comprises a first mounting frame, L-shaped supporting columns, a U-shaped fixing plate, a clamp, an L-shaped sliding rod, a sliding push rod, a fixing column, a third spring, a second limiting rod, a fourth spring, a boring hole mechanism and an interval widening mechanism, wherein the bottom of the front side of the first mounting frame is bilaterally and symmetrically fixedly connected with two L-shaped supporting columns, the lower middle part of the rear side of the first mounting frame is fixedly connected with the U-shaped fixing plate, the top of the U-shaped fixing plate is fixedly provided with the clamp, the rear side of the clamp is movably connected with the L-shaped sliding rod, the left side of the clamp is slidably connected with the sliding push rod, the left end of the sliding push rod is connected with the L-shaped sliding rod, the middle part of the top wall of the L-shaped sliding rod is fixedly provided with the fixing column, the third spring is connected between the fixing column and the clamp, and the right side of the rear wall of the clamp is slidably connected with the second limiting rod, two fourth springs are connected between the second limiting rod and the clamp, a boring mechanism is installed at the tops of the two L-shaped supporting columns and used for boring the support, an interval widening mechanism is installed at the top of the U-shaped fixing plate and used for adjusting the structure of the clamp body support.

Optionally, the boring mechanism comprises a first air cylinder, a first sliding rod, a second mounting frame, a second motor, a first boring cutter, a third motor, a first belt pulley, a first transmission belt, a second belt pulley and a second boring cutter, the top of each L-shaped support column is provided with the first air cylinder, the top of the first mounting frame is in bilateral symmetry and is connected with the two first sliding rods in a rotating and sliding manner, an output shaft of the first air cylinder is connected to the front side of the corresponding first sliding rod, the front end of each first sliding rod is fixedly connected with the second mounting frame, the bottom of the inner side of each second mounting frame is provided with the second motor, an output shaft of the second motor is provided with the first boring cutter, the top of the outer side of each second mounting frame is provided with the third motor, an output shaft of the third motor is connected with the first belt pulley, the top of the inner side of each second mounting frame is rotatably connected with the second belt pulley, the rear side of the second belt pulley is connected with a second boring cutter, and a first transmission belt is wound between the first belt pulley and the second belt pulley.

Optionally, the interval is widened the mechanism and is included the cutter, No. two cylinders, the guide post, the second carriage, No. four motors, dust cover and link, a cylinder No. two is installed to U-shaped fixed plate roof right side rear side, U-shaped fixed plate roof right side rear side still is fixed with a guide post, the guide post is located the left side of No. two cylinders, sliding connection has a second carriage on the guide post, the output shaft of No. two cylinders is on the second carriage, a motor No. four is installed on second carriage roof left side, the output shaft of No. four motors is on the cutter, two links of front side fixedly connected with of second carriage, the front side of two links is fixed with a dust cover jointly.

Optionally, the device further comprises a fixed slide rail, an L-shaped rod, a first slide frame, a first spring, a third slide frame, a second slide rod, a fifth spring, a first slide block, a sliding plate, a second slide block, an adjusting screw rod and a sixth spring, wherein the fixed slide rail is fixed in the middle of the front wall of the first mounting frame, the inner side of the bottom of each second mounting frame is slidably connected with the first slide frame, a first spring is connected between each first slide frame and the corresponding second mounting frame, the bottom of the inner wall of each second mounting frame is fixedly connected with the L-shaped rod, the fixed slide rail is slidably connected with the third slide frame, the adjusting screw rod is connected between the third slide frame and the first mounting frame, the second slide rod is slidably connected in the third slide frame, the second slide block is further slidably connected in the third slide frame, and the front end of the second slide rod is fixedly connected to the second slide block, a fifth spring is connected between the second sliding block and the third sliding frame, the two sliding plates are fixedly connected with the outer side of the second sliding block in a bilateral symmetry mode, the two first sliding blocks are connected in the third sliding frame in a bilateral symmetry mode, and the bottom of the inner side of each first sliding block is connected with a sixth spring.

Optionally, the first sliding rod further comprises a first fixing block, a first gear, a first motor and a second gear, the first fixing block is connected to an output shaft of the first air cylinder, the first motor is installed at the top of the first fixing block, the second gear is connected to an output shaft of the first motor, the first gear is sleeved on the outer side of the front end of the first sliding rod, and the first gear is meshed with the second gear.

Optionally, the automatic boring machine further comprises a second transmission belt, a third boring cutter, a third belt pulley and a screw tap, the outer side of the bottom of each second mounting frame is rotatably connected with the third belt pulley, the third boring cutter is mounted on the rear side of the first belt pulley, the second transmission belt is wound between the first belt pulley and the third belt pulley, and the screw tap is mounted on the rear side of the third belt pulley.

Optionally, the guide post further comprises a first limiting rod and a second spring, the left side of the guide post is connected with the first limiting rod in a sliding mode, and the second spring is connected between the first limiting rod and the guide post.

Optionally, the frame is collected including still second fixed block, swivel becket, rubber ring, baffle and piece, four second fixed blocks of bilateral symmetry's fixedly connected with on the first mounting bracket, and the inside front end of every second fixed block all rotates and is connected with a swivel becket, and rubber ring of the equal fixedly connected with in inside rear end of every second fixed block installs a baffle in the first mounting bracket, and the below of U-shaped fixed plate is provided with a piece and collects the frame.

Optionally, the polishing device further comprises third mounting frames, a third air cylinder, a fourth sliding frame, a fifth motor, a connecting shaft and a polishing disc, wherein the two third mounting frames are fixedly connected with the top of the U-shaped fixing plate in a bilateral symmetry manner, the third air cylinder is mounted on each third mounting frame, the fourth sliding frame is slidably connected onto each third mounting frame, an output shaft of the third air cylinder is connected onto the fourth sliding frame, the fifth motor is mounted at the bottom of each fourth sliding frame, the connecting shaft is sleeved outside an output shaft of each fifth motor, and the polishing disc is fixedly connected onto the front side of each connecting shaft.

The invention has the beneficial effects that: 1. the first air cylinder drives the first boring cutter and the second boring cutter to move backwards through the first sliding rod and the second mounting frame, and the second motor and the third motor respectively drive the first boring cutter and the second boring cutter to rotate so as to punch holes on the clamp body support.

2. After the trompil finishes, the second mounting bracket resets, starts a motor this moment, and a motor passes through the second gear and drives first gear revolve, and first gear drives first slide bar and second mounting bracket and rotates, and a motor once only rotates 180 degrees, therefore the second mounting bracket also rotates 180 degrees along with it, and the recess of pincers body support bottom just is aimed at to the third boring cutter this moment, and the screw tap just aims at the through-hole at pincers body support top, and the secondary operation to pincers body support is gone on to the convenience.

3. Can produce a large amount of sweeps man-hour to the pincers body support, the piece on first boring cutter, second boring cutter, third boring cutter and the screw tap can be wiped by the inside rubber strip of rubber ring in the second fixed block, and the piece can be avoided dropping forward to the baffle, and the piece that produces during the bore hole and the piece that is wiped by the rubber strip can be unified to drop to the piece collection frame downwards, makes things convenient for workman cleaning equipment.

4. When punching for the first time, the L-shaped rod on the inner side of the second mounting frame can be matched with the sliding plates, the two sliding plates push the two first sliding blocks outwards, the two first sliding blocks can block the second motor, so that the second motor and the first hole boring cutter can not move backwards continuously, the depth of the hole in the bottom of the clamp body support is controlled, and the depth of the hole in the bottom of the clamp body support can be controlled by adjusting the position of the third sliding frame on the fixed sliding rail.

5. The groove in the middle of the clamp body support is partially cut off by the cutter, so that the groove interval is widened, and the first limiting rod can prevent the cutter from descending too much to cut off the clamp body support.

6. And (4) polishing and flattening burrs at the rear end of the top through hole of the clamp body bracket by using a polishing disc.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the first mounting bracket of the present invention.

Fig. 3 is a schematic perspective view of the boring mechanism of the present invention.

Fig. 4 is a schematic diagram of the structure explosion at the first cylinder of the invention.

Fig. 5 is a schematic perspective view of the pitch widening mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the clamp of the present invention.

Fig. 7 is a schematic perspective view of the clamp of the present invention.

Fig. 8 is a schematic cross-sectional view of a second fixing block according to the present invention.

Fig. 9 is a schematic perspective view of the sliding panel according to the present invention.

Fig. 10 is a schematic perspective view of a sixth spring according to the present invention.

Fig. 11 is a schematic perspective view of a third mounting bracket according to the present invention.

Fig. 12 is a perspective view of the clamp body support before processing according to the present invention.

Reference numbers in the drawings: 1. a first mounting rack, 101, an L-shaped support column, 102, a U-shaped fixing plate, 103, a fixing slide rail, 2, a first air cylinder, 201, a first fixing block, 202, a first gear, 203, a first motor, 204, a second gear, 205, a first slide bar, 206, a second mounting rack, 207, an L-shaped bar, 208, a second motor, 209, a first boring cutter, 210, a first sliding frame, 211, a first spring, 212, a third motor, 213, a first belt pulley, 214, a first transmission belt, 215, a second belt pulley, 216, a second boring cutter, 217, a second transmission belt, 218, a third boring cutter, 219, a third belt pulley, 220, a screw tap, 3, a cutter, 301, a second air cylinder, 302, a guide column, 303, a second sliding frame, 304, a fourth motor, 305, a first limiting rod, 306, a second spring, 307, a dust cover, 308, a connecting rack, 4, a clamp, 401, and an L-shaped slide bar, 402. the device comprises a sliding push rod 403, a fixed column 404, a third spring 405, a second limiting rod 406, a fourth spring 5, a second fixed block 501, a rotating ring 502, a rubber ring 503, a baffle 504, a debris collecting frame 6, a third sliding frame 601, a second sliding rod 602, a fifth spring 603, a first sliding block 604, a sliding plate 605, a second sliding block 606, an adjusting screw rod 607, a sixth spring 7, a third mounting frame 701, a third air cylinder 702, a fourth sliding frame 703, a fifth motor 704, a connecting shaft 705 and a polishing disc.

Detailed Description

The following description is only a preferred embodiment of the present invention, and does not limit the scope of the present invention.

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention. The conditions in the embodiments can be further adjusted according to specific conditions, and simple modifications of the method of the present invention based on the concept of the present invention are within the scope of the claimed invention.

Example 1

An intelligent integrated processing device for a pincer body support is shown in figures 1-12 and comprises a first mounting frame 1, L-shaped supporting columns 101, a U-shaped fixing plate 102, a clamp 4, an L-shaped sliding rod 401, a sliding push rod 402, a fixing column 403, a third spring 404, a second limiting rod 405, a fourth spring 406, a boring mechanism and a spacing widening mechanism, wherein the top of the first mounting frame 1 is provided with two through holes in bilateral symmetry, the bottom of the front side of the first mounting frame 1 is fixedly connected with the two L-shaped supporting columns 101 in bilateral symmetry, the middle part of the rear side of the first mounting frame 1 is fixedly connected with the U-shaped fixing plate 102 at a lower position, the top of the U-shaped fixing plate 102 is fixed with the clamp 4, the pincer body support is placed in the clamp 4, the middle part of the bottom surface of the clamp 4 is provided with a through hole for chips to pass through, the rear side of the clamp 4 is movably connected with the L-shaped sliding rod 401, the L-shaped sliding rod 401 slides left and right along the rear wall of the clamp 4, the left side of the clamp 4 is connected with a sliding push rod 402 in a sliding manner, the right end of the sliding push rod 402 is a fixing plate, the sliding push rod 402 penetrates through the left wall of the clamp 4, the left end of the sliding push rod 402 is connected with the L-shaped sliding rod 401, the middle part of the top wall of the L-shaped sliding rod 401 is fixed with a fixing column 403, the fixing column 403 moves along with the L-shaped sliding rod 401, a third spring 404 is connected between the fixing column 403 and the clamp 4, the third spring 404 is used for enabling the L-shaped sliding rod 401 and the fixing column 403 to slide and reset, the right side of the rear wall of the clamp 4 is connected with a second limiting rod 405 in a sliding manner, the second limiting rod 405 penetrates through the right rear side of the clamp 4, the front end of the second limiting rod 405 is provided with a through hole in the left and right direction, the right end of the L-shaped sliding rod 401 can be inserted into the through hole at the front end of the second limiting rod 405, two fourth springs 406 are connected between the second limiting rod 405 and the clamp 4, the fourth spring 406 is used for pulling the second limiting rod 405 forwards, a boring mechanism is installed at the tops of the two L-shaped supporting columns 101 and used for boring the support, a distance widening mechanism is installed at the top of the U-shaped fixing plate 102 and used for adjusting the structure of the clamp body support.

When the clamp body bracket is machined, a worker firstly puts the clamp body bracket into the clamp 4, the clamp body bracket is pushed into the clamp 4 from the right side, after the clamp body bracket is contacted with the sliding push rod 402, the clamp body bracket pushes the sliding push rod 402 to the left, the sliding push rod 402 drives the L-shaped sliding rod 401 and the fixed column 403 to slide to the left, the third spring 404 is stretched, when the clamp body bracket completely enters the clamp 4, the L-shaped sliding rod 401 just slides out of the second limiting rod 405, the second limiting rod 405 slides forwards under the pulling force of the two third springs 404, the right side of the clamp body bracket is blocked by the second limiting rod 405, the clamp body bracket is clamped in the clamp 4, the boring mechanisms are started at the moment, four holes are formed at the four corners of the clamp body bracket by the two boring mechanisms, after the holes are formed, the two boring mechanisms are reset, then the interval widening mechanism is started, the interval widening mechanism moves downwards, the groove space of the clamp body support is widened, after the widening is completed, the space widening mechanism is reset, then a worker pulls out the second limiting rod 405 backwards, the clamp body support is taken out of the clamp 4, the L-shaped sliding rod 401, the sliding push rod 402 and the fixed column 403 slide rightwards under the action of the third spring 404 to reset, after the third spring 404 restores to the original state, the right end of the L-shaped sliding rod 401 just penetrates through a through hole in the front side of the second limiting rod 405, the second limiting rod 405 cannot reset, and after the next clamp body support is placed into the clamp 4 to enable the L-shaped sliding rod 401 to slide out of the through hole in the front side of the second limiting rod 405, the second limiting rod 405 can slide forwards under the action of the two fourth springs 406, and the function of machining the clamp body support is achieved.

Example 2

On the basis of embodiment 1, as shown in fig. 3 to 4, the boring mechanism includes a first cylinder 2, a first sliding rod 205, a second mounting bracket 206, a second motor 208, a first boring cutter 209, a first sliding bracket 210, a first spring 211, a third motor 212, a first belt pulley 213, a first transmission belt 214, a second belt pulley 215, and a second boring cutter 216, wherein the top of each L-shaped supporting column 101 is provided with the first cylinder 2, an output shaft of the first cylinder 2 faces backward, the top of the first mounting bracket 1 is rotatably and rotatably connected with two first sliding rods 205 in a bilateral symmetry manner, a groove is formed at the front end of each first sliding rod 205, the output shaft of the first cylinder 2 is connected to the front side of the corresponding first sliding rod 205, the output shaft of the first cylinder 2 is rotatably connected with the first sliding rod 205, the front end of each first sliding rod 205 is fixedly connected with the second mounting bracket 206, a first sliding frame 210 is slidably connected to the inner side of the bottom of each second mounting frame 206, the first sliding frame 210 can slide back and forth on a slide way at the bottom of the inner side of the second mounting frame 206, a sliding rod is arranged on the front wall of the first sliding frame 210, the sliding rod on the front wall of the first sliding frame 210 penetrates through the second mounting frame 206, a first spring 211 is connected between each first sliding frame 210 and the corresponding second mounting frame 206, a second motor 208 is arranged at the bottom of each first sliding frame 210, the output shaft of the second motor 208 faces backwards, a first boring cutter 209 is arranged on the output shaft of the second motor 208, the first boring cutter 209 is used for forming a cylindrical groove on the outer side of the bottom of the caliper body support, a third motor 212 is arranged at the top of the outer side of each second mounting frame 206, the output shaft of the third motor 212 faces backwards, a first belt pulley 213 is connected to the output shaft of the third motor 212, the first belt pulley 213 is a double-groove belt pulley, the top of the inner side of each second mounting bracket 206 is rotatably connected with a second belt pulley 215, the rear side of the second belt pulley 215 is connected with a second boring cutter 216, the second boring cutter 216 is used for forming a through hole at the top of the caliper body support, a first transmission belt 214 is wound between the first belt pulley 213 and the second belt pulley 215, and the first transmission belt 214 is located in a groove at the front side of the first belt pulley 213.

After the caliper body support is placed into the clamp 4, the first air cylinder 2 is started, the first air cylinder 2 pushes the first sliding rod 205 backwards, the first sliding rod 205 slides backwards and simultaneously drives the second mounting frame 206 to move backwards, the second mounting frame 206 moves backwards and drives the second motor 208, the first boring cutter 209, the third motor 212, the first belt pulley 213, the first transmission belt 214, the second belt pulley 215 and the second boring cutter 216 to move backwards, when the first boring cutter 209 and the second boring cutter 216 are about to contact with the caliper body support, the second motor 208 and the third motor 212 are started, the second motor 208 drives the first boring cutter 209 to rotate, the third motor 212 drives the first belt pulley 213 to rotate, the first belt pulley 213 drives the second belt pulley 215 to rotate through the first transmission belt 214, the second belt pulley 215 drives the second boring cutter 216 to rotate, when the two first boring cutters 209 and the two second boring cutters 216 are in contact with the caliper body support, two first boring cutters 209 and two second boring cutters 216 punch holes at four corners of the front side between the caliper bodies, after the holes are formed, the second motor 208 and the third motor 212 are firstly closed, the first boring cutter 209, the first belt pulley 213, the first transmission belt 214, the second belt pulley 215 and the second boring cutter 216 stop rotating along with the holes, then the first air cylinder 2 is pulled back to the first sliding rod 205, the first sliding rod 205 drives the second mounting frame 206 to move forward, and simultaneously drives the second motor 208, the first boring cutter 209, the third motor 212, the first belt pulley 213, the first transmission belt 214, the second belt pulley 215 and the second boring cutter 216 to move forward, and after the first sliding rod 205 and the second sliding rod 206 are reset, the first mounting frame air cylinder 2 is closed, so that the function of forming holes in the caliper body support is realized.

As shown in fig. 5, the spacing widening mechanism includes a cutting knife 3, a second cylinder 301, a guiding column 302, a second sliding frame 303, a fourth motor 304, a dust cover 307 and a connecting frame 308, the second cylinder 301 is installed on the right rear side of the top wall of the U-shaped fixing plate 102, the output shaft of the second cylinder 301 is arranged upward, the guiding column 302 is further fixed on the right rear side of the top wall of the U-shaped fixing plate 102, the guiding column 302 is located on the left side of the second cylinder 301, the guiding column 302 is connected with the second sliding frame 303 in a sliding manner, the left end of the second sliding frame 303 is provided with a platform, the output shaft of the second cylinder 301 is connected to the second sliding frame 303, the second cylinder 301 is used for controlling the second sliding frame 303 to slide up and down along the guiding column 302, the left side of the top wall of the second sliding frame 303 is provided with the fourth motor 304, the output shaft of the fourth motor 304 is arranged forward, the output shaft of the fourth motor 304 is connected to the cutting knife 3, the fourth motor 304 is used for driving the cutter 3 to rotate, the two connecting frames 308 are fixedly connected to the front side of the second sliding frame 303, the connecting frames 308 are Z-shaped, a dust cover 307 is jointly fixed to the front sides of the two connecting frames 308, and the dust cover 307 is sleeved on the outer side of the upper end of the cutter.

After boring, starting the second cylinder 301, pulling the second sliding frame 303 downwards by the second cylinder 301, enabling the second sliding frame 303 to slide downwards along the guide post 302, simultaneously driving the fourth motor 304, the connecting frame 308, the dust cover 307 and the cutter 3 to move downwards, starting the second cylinder 301, simultaneously starting the fourth motor 304, enabling the fourth motor 304 to drive the cutter 3 to rotate, enabling the cutter 3 to rotate in the descending process, when the cutter 3 is in contact with the caliper body support, cutting off the redundant part of the middle groove of the caliper body support by the cutter 3, equivalently widening the groove interval of the caliper body support, after cutting, firstly closing the fourth motor 304, stopping the cutter 3 to rotate along with the redundant part, then enabling the second cylinder 301 to push the second sliding frame 303 upwards, enabling the second sliding frame 303 to drive the fourth motor 304, the connecting frame 308, the dust cover 307 and the cutter 3 to move upwards, and after the second sliding frame 303 is reset, closing the second cylinder 301, the function of widening the groove interval of the clamp body bracket is realized.

Example 3

On the basis of the embodiment 2, as shown in fig. 2 to 4 and fig. 9 to 10, the sliding type solar cell further includes a fixed slide rail 103, an L-shaped rod 207, a third sliding frame 6, a second slide rod 601, a fifth spring 602, a first sliding block 603, a sliding plate 604, a second sliding block 605, an adjusting screw 606 and a sixth spring 607, the fixed slide rail 103 is fixed in the middle of the front wall of the first mounting frame 1, the L-shaped rod 207 is fixedly connected to the bottom of the inner wall of each second mounting frame 206, the third sliding frame 6 is slidably connected to the fixed slide rail 103, a slide way is arranged on the top of the third sliding frame 6, the adjusting screw 606 is connected between the third sliding frame 6 and the first mounting frame 1, the adjusting screw 606 is used for controlling the position of the third sliding frame 6 on the fixed slide rail 103, the second slide rod 601 is slidably connected to the third sliding frame 6, the rear wall of the second slide rod 601 passes through the third sliding frame 6, a second sliding block 605 is further connected in the third sliding frame 6 in a sliding manner, the front end of the second sliding rod 601 is fixedly connected to the second sliding block 605, the second sliding rod 601 slides back and forth along with the second sliding block 605, a fifth spring 602 is connected between the second sliding block 605 and the third sliding frame 6, the fifth spring 602 is sleeved on the second sliding rod 602, two sliding plates 604 are fixedly connected on the outer side of the second sliding block 605 in a bilateral symmetry manner, the rear sides of the two sliding plates 604 are both outward inclined planes, two first sliding blocks 603 are connected in the third sliding frame 6 in a bilateral symmetry manner, the first sliding blocks 603 slide left and right in the third sliding frame 6, a sixth spring 607 is connected to the bottom of the inner sides of the two first sliding blocks 603, and the sixth spring 607 is used for pulling the two first sliding blocks 603 inwards.

When boring, the hole at the bottom of the caliper body bracket is slightly shallower than the hole at the top, when the second mounting bracket 206 moves forward, the L-shaped rod 207 inside the second mounting bracket 206 contacts the sliding plate 604, the L-shaped rod 207 pushes the sliding plate 604 to slide backward, the two sliding plates 604 drive the second sliding block 605 and the second sliding rod 601 to slide backward along the slide way at the top of the third sliding frame 6, and compress the fifth spring 602, the rear sides of the two sliding plates 604 are an outward slope, when the two sliding plates 604 slide backward, the two first sliding blocks 603 will expand outward along the corresponding slope of the sliding plate 604, and simultaneously stretch the sixth spring 607, when the second motor 208 contacts the first sliding block 603, the second motor 208 will not move backward with the second mounting bracket 206, the first boring cutter 209 will stop moving backward, and at this time, the first sliding frame 210 and the second motor 208 will slide forward relative to the second mounting bracket 206, meanwhile, the first spring 211 is compressed, when the boring is completed, the first cylinder 2 pulls the first sliding rod 205 forward, the second mounting frame 206 moves forward, the first sliding frame 210 and the second motor 208 slide backward relative to the second mounting frame 206, so that the first spring 211 is gradually reset, when the first spring 211 is reset, the first sliding frame 210, the second motor 208 and the first spring 211 move forward along the second mounting frame 206 to reset, when the second mounting frame 206 moves forward, the two L-shaped rods 207 also move forward, when the L-shaped rods 207 move forward, the two sliding plates 604, the second sliding block 605 and the second sliding rod 601 gradually move forward to reset under the action of the fifth spring 602, when the inclined surfaces of the two sliding plates 604 contact with the two first sliding blocks 603, the two first sliding blocks 603 slide inward along the inclined surfaces of the sliding plates 604 under the action of the sixth spring 607, when the sliding plate 604 and the second sliding block 605 are reset, the two first sliding blocks 603 are reset, the fifth spring 602 and the sixth spring 607 are reset, and when the depth of the wide hole at the bottom of the caliper body bracket needs to be adjusted, the position of the third sliding frame 6 on the fixed sliding rail 103 can be adjusted by adjusting the distance between the adjusting screw 606 and the first mounting frame 1, so that the moving distance between the second motor 208 and the first hole boring cutter 209 is adjusted, and the function of forming holes with different depths at the bottom of the caliper body bracket is realized.

As shown in fig. 3-4, the air cylinder further comprises a first fixed block 201, a first gear 202, a first motor 203 and a second gear 204, the first fixed block 201 is connected to the output shaft of the first air cylinder 2, the first fixed block 201 is sleeved on the output shaft of the first air cylinder 2, the top of the first fixed block 201 is a plane, the first motor 203 is installed at the top of the first fixed block 201, the output shaft of the first motor 203 is arranged towards the rear, the output shaft of the first motor 203 is connected with the second gear 204, the first motor 203 is used for driving the second gear 204 to rotate, the first gear 202 is sleeved on the outer side of the front end of the first sliding rod 205, the first gear 202 is meshed with the second gear 204, and the second gear 204 drives the first sliding rod 205 to rotate through the first gear 202.

After boring, the two first motors 203 are started, the two first motors 203 drive the corresponding second gears 204 to rotate, the second gears 204 drive the corresponding first gears 202 to rotate, the first gears 202 rotate to enable the corresponding first sliding rods 205 to rotate, the first sliding rods 205 rotate to drive the corresponding second mounting frames 206 to rotate, the second mounting frames 206 rotate to enable the second motors 208, the first boring cutters 209, the third motors 212, the first belt pulley 213, the first transmission belt 214, the second belt pulley 215 and the second boring cutters 216 to rotate, the two first motors 203 only rotate 180 degrees at each time, and the function of driving the second mounting frames 206 to rotate 180 degrees is achieved.

As shown in fig. 3, the boring machine further comprises a second transmission belt 217, a third boring cutter 218, a third belt pulley 219 and a screw tap 220, wherein a third belt pulley 219 is rotatably connected to the outer side of the bottom of each second mounting bracket 206, a third boring cutter 218 is mounted on the rear side of the first belt pulley 213, the first belt pulley 213 drives the third boring cutter 218 to rotate, the third boring cutter 218 has a smaller diameter than that of the first boring cutter 209, a second transmission belt 217 is wound between the first belt pulley 213 and the third belt pulley 219, the second transmission belt 217 is located in a groove on the rear side of the first belt pulley 213, the first belt pulley 213 drives the third belt pulley 219 to rotate through the second transmission belt 217, a screw tap 220 is mounted on the rear side of the third belt pulley 219, and the third belt pulley 219 drives the screw tap 220 to rotate.

When the second mounting bracket 206 rotates, the second transmission belt 217, the third boring cutter 218, the third belt pulley 219 and the screw tap 220 also rotate 180 degrees along with the rotation, the screw tap 220 aligns with a through hole at the top of the caliper bracket, the third boring cutter aligns with a cylindrical groove at the bottom of the caliper bracket, then the first cylinder 2 is started, the first air lever pushes the first sliding rod 205 backwards, the first sliding rod 205 drives the second mounting bracket 206 to move backwards, the second mounting bracket 206 drives the second transmission belt 217, the third boring cutter 218, the third belt pulley 219 and the screw tap 220 to move backwards, in the process of moving backwards, the third motor 212 is started, the third motor 212 drives the first belt pulley 213 to rotate, the first belt pulley 213 drives the third boring cutter 218 to rotate, the first belt pulley 213 drives the third belt pulley 219 to rotate through the second transmission belt 217, the third belt pulley 219 drives the screw tap 220 to rotate, after the two screw taps 220 and the two third boring cutters 218 contact with the caliper bracket, two screw taps 220 open threads in two through holes at the top of the caliper body support, a third boring cutter 218 opens a small groove in two cylindrical grooves at the bottom of the caliper body support, two stepped grooves are opened at the bottom of the caliper body support, after the grooving is finished, the third motor 212 is turned off, the first belt pulley 213, the second transmission belt 217, the third boring cutter 218, the third belt pulley 219 and the screw taps 220 stop rotating along with the first boring cutter, then the first sliding rod 205 is pulled forward by the first air cylinder 2, the first sliding rod 205 drives the second mounting frame 206 to move forward, the second mounting frame 206 drives the second transmission belt 217, the third boring cutter 218, the third belt pulley 219 and the screw taps 220 to move forward, and after the second mounting frame 206 is reset, the first air cylinder 2 is turned off, so that the function of opening threads in the caliper body support is realized.

As shown in fig. 5, the guide post assembly further includes a first limiting rod 305 and a second spring 306, the left side of the guide post 302 is slidably connected with the first limiting rod 305, the first limiting rod 305 can slide up and down along the guide post 302, the second spring 306 is connected between the first limiting rod 305 and the guide post 302, and the second spring 306 is used for enabling the first limiting rod 305 to slide upwards for resetting.

When widening the groove interval of pincers body support, second carriage 303 can contact with first gag lever post 305 during lapse, first gag lever post 305 slides downwards thereupon, compress second spring 306 simultaneously, first gag lever post 305 plays the effect of buffering this moment, after first gag lever post 305 contacts with U-shaped fixed plate 102, second carriage 303 just can not descend again, cutter 3 has widened the groove interval of pincers body support this moment and has ended, first gag lever post 305 can avoid cutter 3 to remove downwards again and cut off the pincers body support, when second carriage 303 rises, first gag lever post 305 can slide upwards under the effect of second spring 306 and reset, realize buffering spacing effect.

As shown in fig. 6 and 8, the tool further comprises a second fixing block 5, a rotating ring 501, a rubber ring 502, a baffle 503 and a scrap collecting frame 504, wherein four second fixing blocks 5 are fixedly connected to the first mounting frame 1 in a bilateral symmetry manner, a through hole is formed in the middle of each second fixing block 5 in the front-back direction, the front end of the inside of each second fixing block 5 is rotatably connected with one rotating ring 501, the rotating ring 501 can rotate along with the first boring cutter 209, the second boring cutter 216, the third boring cutter 218 and the screw tap 220, the rear end of the inside of each second fixing block 5 is fixedly connected with one rubber ring 502, a plurality of rubber strips are arranged on the inner side of the rubber ring 502, the rubber strips are used for removing scraps on the first boring cutter 209, the second boring cutter 216, the third boring cutter 218 and the screw tap 220, the baffle 503 is installed in the first mounting frame 1, and the baffle 503 is used for preventing the scraps from falling on the front side of the first mounting frame 1, a debris collecting frame 504 is provided below the U-shaped fixing plate 102, and the debris collecting frame 504 is used for receiving debris falling from above.

Before the first boring cutter 209, the second boring cutter 216, the third boring cutter 218 and the screw tap 220 contact with the caliper body support, the first boring cutter passes through a through hole in the middle of the second fixed block 5, the rotating ring 501 on the front side in the second fixed block 5 rotates along with the first boring cutter 209, the second boring cutter 216, the third boring cutter 218 and the screw tap 220, a plurality of rubber strips are uniformly arranged on the inner wall of the rubber ring 502 on the rear side in the second fixed block 5, when the first boring cutter 209, the second boring cutter 216, the third boring cutter 218 and the screw tap 220 move forwards and reset from the second fixed block 5, the rubber strips in the rubber ring 502 remove chips in the first boring cutter 209, the second boring cutter 216, the third boring cutter 218 and the screw tap 220, the chips are blocked by the baffle 503 and cannot fall forwards, the chips uniformly fall into the chip collecting frame 504, and the chips generated during the process of slotting also fall into the chip collecting frame 504, the functions of removing and collecting the chips of the first boring cutter 209, the second boring cutter 216, the third boring cutter 218 and the tap 220 are realized.

As shown in fig. 11, the polishing device further comprises a third mounting frame 7, a third air cylinder 701, a fourth sliding frame 702, a fifth electric motor 703, a connecting shaft 704 and a polishing disc 705, wherein two third mounting frames 7 are fixedly connected to the top of the U-shaped fixing plate 102 in a bilateral symmetry manner, a slide way is arranged on the inner side of each third mounting frame 7, a third air cylinder 701 is mounted on each third mounting frame 7, the output shafts of the two third air cylinders 701 are arranged on the inner side, a fourth sliding frame 702 is slidably connected to each third mounting frame 7, the output shaft of each third air cylinder 701 is connected to the fourth sliding frame 702, the fourth sliding frame 702 slides left and right under the action of the third air cylinder 701, a fifth electric motor 703 is mounted at the bottom of each fourth sliding frame 702, the output shaft of the fifth electric motor 703 is arranged forward, a connecting shaft 704 is sleeved outside the output shaft of each fifth electric motor 703, a polishing disc 705 is fixedly connected to the front side of each connecting shaft 704, the fifth motor 703 can rotate the polishing disk 705 via the connecting shaft 704.

After boring the top of the caliper body support, burrs can appear on the rear side of a through hole in the top of the caliper body support, two third air cylinders 701 are started, the two third air cylinders 701 push a fourth sliding frame 702 inwards, the two fourth sliding frames 702 drive a fifth motor 703, a connecting shaft 704 and a polishing disc 705 move inwards, the two fifth motors 703 are started simultaneously, the two fifth motors 703 drive two polishing discs 705 to rotate through the two connecting shafts 704, the two polishing discs 705 can polish the burrs on the top of the caliper body support, after polishing is finished, the two third air cylinders 701 drive the two fourth sliding frames 702 to open outwards, the two fourth sliding frames 702 slide outwards to drive the fifth motors 703, the connecting shaft 704 and the polishing disc 705 to move outwards, and after the two fourth sliding frames 702 reset, the two third air cylinders 701 are closed, so that the function of polishing the burrs on the top of the caliper body support is realized.

The above-mentioned embodiments are merely preferred embodiments of the present invention, which are not intended to limit the scope of the present invention, and therefore, all equivalent changes made by the contents of the claims of the present invention should be included in the claims of the present invention.

Claims (9)

1. The utility model provides a pincers body support intelligence integration processing equipment, is including first mounting bracket (1), L shape support column (101) and U-shaped fixed plate (102), two L shape support columns (101) of fixedly connected with of front side bottom bilateral symmetry of first mounting bracket (1), U-shaped fixed plate (102) of fixedly connected with of position under the rear side middle part of first mounting bracket (1), its characterized in that: the clamp comprises a clamp (4), an L-shaped sliding rod (401), a sliding push rod (402), a fixed column (403), a third spring (404), a second limiting rod (405), a fourth spring (406), a boring mechanism and a spacing widening mechanism, wherein the clamp (4) is fixed at the top of a U-shaped fixing plate (102), the L-shaped sliding rod (401) is connected to the rear side of the clamp (4) in a sliding manner, the sliding push rod (402) is connected to the left side of the clamp (4) in a sliding manner, the left end of the sliding push rod (402) is connected with the L-shaped sliding rod (401), the fixed column (403) is fixed in the middle of the top wall of the L-shaped sliding rod (401), the third spring (404) is connected between the fixed column (403) and the clamp (4), the second limiting rod (405) is connected to the right side of the rear wall of the clamp (4) in a sliding manner, and the two fourth springs (406) are connected between the second limiting rod (405) and the clamp (4), the top of two L shape support columns (101) all installs a boring mechanism, and boring mechanism is used for the support trompil, and the interval widens the top that the mechanism was installed at U-shaped fixed plate (102), and the interval widens the structure that the mechanism is used for adjusting the pincers body support.

2. The intelligent integrated processing equipment for the clamp body bracket as claimed in claim 1, wherein: the boring mechanism comprises a first air cylinder (2), a first sliding rod (205), a second mounting frame (206), a second motor (208), a first boring cutter (209), a third motor (212), a first belt pulley (213), a first transmission belt (214), a second belt pulley (215) and a second boring cutter (216), wherein the top of each L-shaped supporting column (101) is provided with the first air cylinder (2), the top of each first mounting frame (1) is in bilateral symmetry and rotatably and slidably connected with the two first sliding rods (205), an output shaft of each first air cylinder (2) is connected to the front side of the corresponding first sliding rod (205), the front end of each first sliding rod (205) is fixedly connected with the second mounting frame (206), the bottom of the inner side of each second mounting frame (206) is provided with the second motor (208), and the output shaft of the second motor (208) is provided with the first boring cutter (209), a third motor (212) is installed at the top of the outer side of each second installation frame (206), a first belt pulley (213) is connected to an output shaft of the third motor (212), a second belt pulley (215) is rotatably connected to the top of the inner side of each second installation frame (206), a second boring cutter (216) is connected to the rear side of the second belt pulley (215), and a first transmission belt (214) is wound between the first belt pulley (213) and the second belt pulley (215).

3. The intelligent integrated processing equipment for the clamp body bracket as claimed in claim 2, wherein: the spacing widening mechanism comprises a cutter (3), a second cylinder (301), a guide post (302), a second sliding frame (303), a fourth motor (304), a dust cover (307) and a connecting frame (308), no. two cylinders (301) are installed to U-shaped fixed plate (102) roof right rear side, U-shaped fixed plate (102) roof right rear side still is fixed with a guide post (302), guide post (302) are located the left side of No. two cylinders (301), sliding connection has a second carriage (303) on guide post (302), the output shaft of No. two cylinders (301) is on second carriage (303), No. four motor (304) are installed on second carriage (303) roof left side, the output shaft of No. four motor (304) is on cutter (3), two links (308) of front side fixedly connected with of second carriage (303), the front side of two links (308) is fixed with a dust cover (307) jointly.

4. The intelligent integrated processing equipment for the clamp body bracket as claimed in claim 3, wherein: the sliding device is characterized by further comprising a fixed sliding rail (103), L-shaped rods (207), a first sliding frame (210), a first spring (211), a third sliding frame (6), a second sliding rod (601), a fifth spring (602), a first sliding block (603), a sliding plate (604), a second sliding block (605), an adjusting screw (606) and a sixth spring (607), wherein the fixed sliding rail (103) is fixed in the middle of the front wall of the first mounting frame (1), the inner side of the bottom of each second mounting frame (206) is connected with the first sliding frame (210) in a sliding manner, the first spring (211) is connected between each first sliding frame (210) and the corresponding second mounting frame (206), the L-shaped rod (207) is fixedly connected to the bottom of the inner wall of each second mounting frame (206), the third sliding frame (6) is connected to the fixed sliding rail (103) in a sliding manner, and the adjusting screw (606) is connected between the third sliding frame (6) and the first mounting frame (1), a second sliding rod (601) is connected in the third sliding frame (6) in a sliding mode, a second sliding block (605) is connected in the third sliding frame (6) in a sliding mode, the front end of the second sliding rod (601) is fixedly connected to the second sliding block (605), a fifth spring (602) is connected between the second sliding block (605) and the third sliding frame (6), two sliding plates (604) are fixedly connected to the outer side of the second sliding block (605) in a bilateral symmetry mode, two first sliding blocks (603) are connected in the third sliding frame (6) in a bilateral symmetry mode, and a sixth spring (607) is connected to the bottom of the inner side of each first sliding block (603).

5. The intelligent integrated processing equipment for the clamp body bracket as claimed in claim 4, wherein: the gear transmission mechanism is characterized by further comprising a first fixing block (201), a first gear (202), a first motor (203) and a second gear (204), wherein the first fixing block (201) is connected to an output shaft of the first air cylinder (2), the first motor (203) is installed at the top of the first fixing block (201), the second gear (204) is connected to an output shaft of the first motor (203), the first gear (202) is sleeved on the outer side of the front end of the first sliding rod (205), and the first gear (202) is meshed with the second gear (204).

6. The intelligent integrated processing equipment for the clamp body bracket as claimed in claim 5, wherein: the novel boring machine is characterized by further comprising a second transmission belt (217), a third boring cutter (218), a third belt pulley (219) and a screw tap (220), wherein the outer side of the bottom of each second mounting frame (206) is rotatably connected with the third belt pulley (219), the third boring cutter (218) is mounted on the rear side of the first belt pulley (213), the second transmission belt (217) is wound between the first belt pulley (213) and the third belt pulley (219), and the screw tap (220) is mounted on the rear side of the third belt pulley (219).

7. The intelligent integrated processing equipment for the clamp body bracket as claimed in claim 6, wherein: the guide post structure is characterized by further comprising a first limiting rod (305) and a second spring (306), the left side of the guide post (302) is connected with the first limiting rod (305) in a sliding mode, and the second spring (306) is connected between the first limiting rod (305) and the guide post (302).

8. The intelligent integrated processing equipment for the clamp body bracket as claimed in claim 7, wherein: still including second fixed block (5), swivel becket (501), rubber ring (502), baffle (503) and piece collection frame (504), four second fixed blocks of bilateral symmetry's fixedly connected with (5) on first mounting bracket (1), every second fixed block (5) inside front end all rotates and is connected with a swivel becket (501), rubber ring (502) of the equal fixedly connected with in inside rear end of every second fixed block (5), install one baffle (503) in first mounting bracket (1), the below of U-shaped fixed plate (102) is provided with one piece collection frame (504).

9. The intelligent integrated processing equipment for the clamp body bracket as claimed in claim 8, wherein: the grinding machine is characterized by further comprising a third mounting frame (7), three cylinders (701), a fourth sliding frame (702), a fifth motor (703), a connecting shaft (704) and a grinding disc (705), two third mounting frames (7) are fixedly connected with the top of the U-shaped fixing plate (102) in a bilateral symmetry mode, one third cylinder (701) is installed on each third mounting frame (7), one fourth sliding frame (702) is connected on each third mounting frame (7) in a sliding mode, an output shaft of the third cylinder (701) is connected onto the fourth sliding frame (702), one fifth motor (703) is installed at the bottom of each fourth sliding frame (702), one connecting shaft (704) is sleeved outside an output shaft of each fifth motor (703), and one grinding disc (705) is fixedly connected to the front side of each connecting shaft (704).

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