CN113102798A

CN113102798A - Machining device for automobile products

Info

Publication number: CN113102798A
Application number: CN202110417324.5A
Authority: CN
Inventors: 张贵辉; 陈闯; 石磊; 李建; 张忠仁; 马俊明
Original assignee: Jilin Dahua Machine Manufacturing Co ltd
Current assignee: Jilin Dahua Machine Manufacturing Co ltd
Priority date: 2021-04-19
Filing date: 2021-04-19
Publication date: 2021-07-13
Anticipated expiration: 2041-04-19
Also published as: CN113102798B

Abstract

The invention discloses a processing device for automobile products, which comprises a feeding mechanism, a conveying mechanism, a blanking mechanism, a dust collection mechanism and a drilling mechanism, wherein the conveying mechanism comprises two smooth surface supporting strip plates which are arranged in parallel and a flywheel driving mechanism arranged at the outer sides of the two smooth surface supporting strip plates, a abdicating groove is arranged between the two smooth surface supporting strip plates, the bottom surface of a flywheel is lapped between the two smooth surface supporting strip plates, and the two ends of a gear ring of the flywheel are mutually meshed with the tooth surfaces of annular rack belts of the corresponding flywheel driving mechanisms; the dust collection mechanism comprises a lifting support frame arranged above the conveying mechanism, a plurality of dust collection bins are arranged below the support frame, a dust collection cylinder is arranged below the dust collection bins and can downwards penetrate through a center wheel hole of the flywheel, a pressure plate buffer assembly is sleeved on the dust collection cylinder, and a disc top dust collection port and a disc bottom dust collection port are respectively arranged on the side walls of two sections of dust collection cylinders positioned above and below the pressure plate buffer assembly; the invention improves the cleaning and drilling efficiency of the flywheel.

Description

Machining device for automobile products

Technical Field

The invention relates to the technical field of flywheel processing, in particular to a processing device for automobile products.

Background

The automobile flywheel is usually fixedly arranged on a worktable surface by using a clamping device in the processing process, and the position of the flywheel needs to be continuously adjusted in the drilling process. The existing device for processing the flywheel is directly placed on a processing table top and clamped by a clamping device, then the flywheel is drilled from the upper side, part of chippings enter between the flywheel and the table top in the process of shaking and fluctuating of the flywheel in the drilling process and are difficult to clean, and the chippings in the drilling process are difficult to clean due to the insertion of an electric drill near the drilling hole;

meanwhile, the existing multi-station drilling device is generally required to be provided with a conveying mechanism to convey the flywheel, and then the position of the flywheel on the device is adjusted by a separate rotating mechanism, so that the drilling efficiency of the flywheel is limited.

Disclosure of Invention

Therefore, the invention provides a processing device for automobile products, which solves the defects in the prior art.

A processing device for automobile products comprises a feeding mechanism, a conveying mechanism, a discharging mechanism, a dust collection mechanism and a drilling mechanism, wherein the conveying mechanism comprises two polished surface supporting strips which are arranged in parallel and a flywheel driving mechanism arranged on the outer sides of the two polished surface supporting strips, a abdicating groove is formed between the two polished surface supporting strips, the flywheel driving mechanism comprises annular rack belts which are driven to rotate by respective power mechanisms, the bottom surfaces of flywheels are lapped between the two polished surface supporting strips, and the two ends of gear rings of the flywheels are meshed with the tooth surfaces of the annular rack belts on the corresponding sides;

the dust collection mechanism comprises a lifting support frame arranged above the conveying mechanism, a plurality of dust collection bins are arranged below the support frame, dust collection cylinders are arranged below the dust collection bins and can downwards penetrate through center wheel holes of the flywheel, pressure plate buffer assemblies are sleeved on the dust collection cylinders and can tightly press the flywheel on the surface of the smooth surface support batten, and a disc top dust collection port and a disc bottom dust collection port are respectively arranged on the side walls of two sections of the dust collection cylinders above and below the pressure plate buffer assemblies;

the drilling mechanism comprises a plurality of drills arranged below the conveying mechanism.

Preferably, the dust collection cylinder is fixedly sleeved with a dust collection disc which is hollow inside and communicated with the inside of the dust collection cylinder, and the disc top dust collection ports are distributed on the lower surface of the dust collection disc.

Preferably, pressure disk buffering subassembly is installed including rotating dust absorption dish below and encircle dust absorption section of thick bamboo outlying spacing collar ring, the inside vertical slidable mounting of spacing collar ring has the direction go-between, the top surface of direction go-between with connect through compression spring between the top surface of spacing collar ring, the below of direction go-between is provided with the pressure disk that acts on near flywheel centre wheel hole upper surface.

Preferably, the bottom surface of the pressure plate is provided with a non-slip mat.

Preferably, the inner side wall of the limiting cylinder ring is provided with a vertical guide groove, and the outer side wall of the guide connecting ring is provided with a vertical guide edge matched with the vertical guide groove.

Preferably, feed mechanism includes fixed mounting and is in the plain noodles supports slat below and aims at the first guide post at the groove middle part of stepping down, slidable mounting has the material loading supporting disk on the first guide post, the below of material loading supporting disk is provided with first jacking cylinder, and is a plurality of the flywheel piles up on the material loading supporting disk to the centre wheel hole of a plurality of flywheels is all the suit and is in on the first guide post, the upper surface of first guide post with the upper surface of plain noodles supports the slat flushes, two the relative inboard of plain noodles support the slat is provided with can be vertical to pass through the feeding of flywheel lets the position mouth.

Preferably, two the relative inboard of plain noodles support slat still is provided with and can vertically passes through the unloading of flywheel lets the position mouth, unloading mechanism includes fixed mounting and is in plain noodles support slat below and aim at let the second guide post in groove middle part, slidable mounting has the unloading supporting disk on the second guide post, the below of unloading supporting disk is provided with second jacking cylinder, the upper surface of second guide post with the upper surface of plain noodles support slat flushes.

Preferably, each power mechanism comprises two driving wheels, the annular rack belt is sleeved between the two driving wheels, and one driving wheel is driven to rotate by the motor.

The invention has the following advantages:

according to the invention, a mode of drilling the flywheel from the lower part is adopted, the conveying mechanism, the dust suction mechanism and the drilling mechanism are matched, meanwhile, debris generated in the drilling process of the flywheel is adsorbed on the upper surface and the lower surface of the disc surface of the flywheel, and the pressure plate buffer assembly can enable the debris remaining on the surface of the flywheel and the smooth surface support plate to be completely adsorbed at the fluctuating moment in the fluctuating process of the flywheel, so that the debris formed by the drill in the drilling process also falls to the lower part in the up-down shaking process and is easily adsorbed by the lower disc bottom dust suction port, and the cleanness degree of the flywheel after drilling is ensured; meanwhile, the conveying mechanism, the feeding mechanism and the discharging mechanism are matched with each other, the problem of conveying of the flywheel and the problem of adjusting a plurality of flywheel drilling stations are solved by using one set of device, and the efficiency of flywheel drilling is improved.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the dust suction mechanism of the present invention;

FIG. 3 is a schematic structural diagram of a conveying mechanism, a feeding mechanism and a discharging mechanism of the present invention;

FIG. 4 is an enlarged view of A in FIG. 2 according to the present invention;

fig. 5 is a schematic side view of fig. 3 according to the present invention.

In the figure:

1-a feeding mechanism; 2-a conveying mechanism; 3-a blanking mechanism; 4-a dust suction mechanism; 5-a drilling mechanism; 10-a flywheel; 20-a gear ring; 30-a center wheel hole; 40-drilling;

101-a first guide post; 102-a load supporting disc; 103-a first jacking cylinder;

201-smooth surface supporting strip plate; 202-flywheel drive mechanism; 203-a yielding slot; 204-endless rack belt; 205-feed let-down port; 206-blanking yielding port; 207-driving wheel; 208-a motor;

301-a second guide post; 302-a blanking support disc; 303-a second jacking cylinder;

401-a support frame; 402-a dust collection bin; 403-a dust suction cylinder; 404-platen buffer assembly; 405-a disc top dust suction port; 406-a pan bottom suction port; 407-dust collecting tray; 408-a non-slip mat; 409-a limiting cylinder ring; 410-guide connection ring; 411-a compression spring; 412-a platen; 413-vertical guide groove; 414-vertical guide ribs;

501-drilling machine.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 5, the present invention provides a machining apparatus for an automotive product, which can improve drilling efficiency of a flywheel and facilitate complete cleaning of debris generated during drilling. Specifically, the method comprises the following steps:

the processing device comprises a feeding mechanism 1, a conveying mechanism 2, a discharging mechanism 3, a dust suction mechanism 4 and a drilling mechanism 5.

The conveying mechanism 2 comprises two smooth surface support strips 201 arranged in parallel and a flywheel driving mechanism 202 arranged outside the two smooth surface support strips 201, a yielding groove 203 is arranged between the two smooth surface support strips 201, the flywheel driving mechanism 202 comprises annular rack belts 204 driven by respective power mechanisms to rotate, the bottom surface of the flywheel 10 is lapped between the two smooth surface support strips 201, and the two ends of a gear ring 20 of the flywheel 10 are meshed with the tooth surfaces of the annular rack belts 204 on the corresponding sides; specifically, the method comprises the following steps:

the power mechanisms respectively comprise two driving wheels 207, the annular rack belt 204 is sleeved between the two driving wheels 207, and one driving wheel 207 is driven to rotate by a motor 208.

The dust collection mechanism 4 comprises a support frame 401 which is arranged above the conveying mechanism 2 and can be lifted, a plurality of dust collection bins 402 are arranged below the support frame 401, a dust collection cylinder 403 is arranged below the dust collection bins 402, the dust collection cylinder 403 can penetrate through a center wheel hole 30 of the flywheel 10 downwards, a pressure plate buffer assembly 404 is sleeved on the dust collection cylinder 403, the flywheel 10 can be pressed on the surface of the smooth surface support strip plate 201 by the pressure plate buffer assembly 404, and a disc top dust collection port 405 and a disc bottom dust collection port 406 are respectively arranged on the side walls of two sections of the dust collection cylinder 403 which are positioned above and below the pressure plate buffer assembly 404; specifically, the method comprises the following steps:

a hollow dust collection disc 407 communicated with the inside of the dust collection tube 403 is fixedly sleeved on the dust collection tube 403, and the disc top dust collection openings 405 are distributed on the lower surface of the dust collection disc 407. Because the way of drilling holes from the lower part of the flywheel 10 is adopted, the scraps accumulated above the drilling holes 40 are easy to adhere to the upper surface of the flywheel 10, and the way of vertically sucking the bottom of the disc top dust sucking port 405 can increase the sucking force to the scraps on the disc surface; and the debris falling from the lower part of the drill hole 40 during the drilling process is easily sucked from the inclined side by the bottom suction opening 406 arranged on the side wall of the dust suction cylinder 403 under the action of gravity.

Pressure disk buffer assembly 404 is including rotating the installation dust absorption dish 407 below and encircle dust absorption section of thick bamboo 403 outlying spacing cylinder ring 409, the inside vertical slidable mounting of spacing cylinder ring 409 has direction go-between 410, the top surface of direction go-between 410 with connect through compression spring 411 between the top surface of spacing cylinder ring 409, the below of direction go-between 410 is provided with the pressure disk 412 that acts on near flywheel 10 centre wheel hole 30 upper surface.

Further, the inner side wall of the limiting cylinder ring 409 is provided with a vertical guide groove 413, and the outer side wall of the guide connecting ring 410 is provided with a vertical guide rib 414 which is matched with the vertical guide groove 413. The guide connecting ring 410 is ensured to vertically lift in the limiting cylinder ring 409 relatively, the upper compression spring 411 is prevented from being twisted due to the twisting of the limiting cylinder ring 409, and the service life is shortened. The anti-slip pad 408 is disposed on the bottom surface of the pressure plate 412, so as to ensure that the pressure plate buffer assembly 404 pressed thereon can rotate synchronously during the rotation of the flywheel 10.

Wherein the drilling mechanism 5 comprises several drills 501 arranged below the conveying mechanism 2. The flywheel 10 is drilled from below.

Wherein, feed mechanism 1 includes fixed mounting and is in plain noodles supports slat 201 below and aims at the first guide post 101 at groove 203 middle part of stepping down, slidable mounting has material loading supporting disk 102 on first guide post 101, the below of material loading supporting disk 102 is provided with first jacking cylinder 103, and is a plurality of flywheel 10 piles up on the material loading supporting disk 102 to the centre wheel hole 30 of a plurality of flywheel 10 all suits on first guide post 101, the upper surface of first guide post 101 with the upper surface of plain noodles supports slat 201 flushes, two the relative inboard of plain noodles supports slat 201 is provided with can be vertical to pass through the feeding of flywheel 10 lets a mouthful 205.

Wherein, similarly, two the relative inboard of plain noodles support slat 201 still is provided with can be vertical to pass through the unloading of flywheel 10 lets a mouthful 206, unloading mechanism 3 includes fixed mounting and is in plain noodles support slat 201 below and aim at let a second guide post 301 in groove 203 middle part, slidable mounting has unloading supporting disk 302 on second guide post 301, the below of unloading supporting disk 302 is provided with second jacking cylinder 303, the upper surface of second guide post 301 with the upper surface of plain noodles support slat 201 flushes.

The working principle of the device is as follows:

first step, initial state adjustment: in an initial state, a plurality of flywheels 10 are neatly stacked above a feeding support plate 102 of the feeding mechanism 1, and a center wheel hole 30 of the flywheels 10 passes through a first guide column 101, so that the upper surface of the uppermost flywheel 10 is flush with the upper surface of a smooth surface support strip plate 201;

step two, feeding and conveying: during feeding, the first jacking cylinder 103 is driven to jack the feeding supporting disc 102 until the lower surface of the uppermost flywheel 10 is flush with the upper surface of the smooth surface supporting strip plate 201, and at the moment, the two ends of the gear ring 20 of the flywheel 1 are meshed with the tooth surfaces of the annular rack belts 204 on the corresponding sides.

Starting the motors 208 of the two flywheel driving mechanisms 202 to rotate in the same direction, so that the annular rack belts 204 sleeved between the driving wheels 207 rotate synchronously, the flywheels 10 between the annular rack belts 204 are limited, and the flywheels are conveyed for a certain distance along the surface of the smooth surface support strip plate 201;

step three, multi-station rotary drilling: when a plurality of flywheels 10 are fed to the square corresponding to the drill 501, the support frame 401 is started to descend, the lower end of the dust suction cylinder 403 arranged below the dust suction bin 402 below the support frame 401 penetrates through the center wheel hole 30 of the flywheels 10, and the pressing plate 412 of the pressing plate buffering assembly 404 is pressed on the upper surface of the flywheel 10 near the center wheel hole 30. Then, the drills 501 are started to drill holes at positions where the drills of several drills 501 are aligned with the flywheel 10.

During the drilling process, the drill 501 presses the flywheel 10 upwards, the upper surface of the flywheel 10 presses the pressure plate 412, the guide connecting ring 410 connected with the pressure plate 412 moves above the limiting cylinder ring 409 under the elastic action of the compression spring 411, and the lower surface of the flywheel 10 is separated from the surface of the smooth surface support strip plate 201 in a clearance mode. Debris formed on the upper surface of the flywheel 10 during drilling is drawn away by the top plate suction opening 405 above the suction plate 407 and debris generated below the flywheel 10 is drawn away from the bottom plate suction opening 406. The pressure plate buffer assembly 404 on one hand reduces displacement vibration of the drilling table during drilling of the drill 501; on the other hand, the up-and-down vibration of the flywheel 10 during the drilling process can promote the falling of the debris in the drill hole 40, and avoid the debris from being accumulated in the drill hole 40 and difficult to clean;

after drilling of one of the drill holes 40 in the flywheel 10 is completed, the two motors 208 are driven to rotate in opposite directions, so that the flywheel 10 meshed with the ring-shaped rack belt 204 rotates in situ by a certain angle around the center wheel hole 30 as an axis, and subsequent drilling is performed. At this time, the flywheel 10 rotates, and the pressure plate buffer assembly 404 above the flywheel 10 also rotates along the lower surface of the dust suction plate 407. And the dust suction cylinder 403 always plays a role of a central limit to the flywheel 10 during the rotation.

Step four, conveying and blanking: after the synchronous drilling of the plurality of flywheels 10 is finished, the two motors 208 are driven to rotate in the same direction again, so that the flywheels 10 with drilled holes in the middle limiting part of the annular rack belt 204 are discharged to the discharging mechanism 3, and the discharging step of the discharging mechanism 3 is opposite to that of the feeding mechanism 1.

According to the invention, a flywheel drilling mode is adopted from the lower part, the matching of the conveying mechanism, the dust suction mechanism and the drilling mechanism is utilized, meanwhile, the upper surface and the lower surface of the disc surface of the flywheel adsorb the debris generated in the flywheel drilling process, and the pressure plate buffer assembly can ensure that the debris remained on the surface of the flywheel and the smooth surface support strip plate 201 can be completely adsorbed at the fluctuating moment in the fluctuating process of the flywheel, and the debris formed by the driller 501 in the drilling hole 40 also falls to the lower part in the up-down shaking process and is easily adsorbed by the disc bottom dust suction port 406 at the lower part, so that the cleaning degree of the flywheel after drilling is ensured; meanwhile, the conveying mechanism, the feeding mechanism and the discharging mechanism are matched with each other, the problem of conveying of the flywheel and the problem of adjusting a plurality of flywheel drilling stations are solved by using one set of device, and the efficiency of flywheel drilling is improved.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. A processingequipment for car product which characterized in that: the device comprises a feeding mechanism (1), a conveying mechanism (2), a discharging mechanism (3), a dust collection mechanism (4) and a drilling mechanism (5), wherein the conveying mechanism (2) comprises two smooth surface supporting strips (201) which are arranged in parallel and a flywheel driving mechanism (202) which is arranged at the outer sides of the two smooth surface supporting strips (201), a yielding groove (203) is formed between the two smooth surface supporting strips (201), the flywheel driving mechanism (202) comprises an annular rack belt (204) which is driven to rotate by respective power mechanisms, the bottom surface of a flywheel (10) is lapped between the two smooth surface supporting strips (201), and the two ends of a gear ring (20) of the flywheel (10) are meshed with the tooth surfaces of the annular rack belts (204) at the corresponding sides;

the dust collection mechanism (4) comprises a support frame (401) which is arranged above the conveying mechanism (2) and can be lifted, a plurality of dust collection bins (402) are arranged below the support frame (401), a dust collection barrel (403) is arranged below the dust collection bins (402), the dust collection barrel (403) can penetrate through a center wheel hole (30) of the flywheel (10) downwards, a pressure plate buffer component (404) is sleeved on the dust collection barrel (403), the flywheel (10) can be pressed on the surface of the smooth surface support lath (201) by the pressure plate buffer component (404), and a disc top dust collection port (405) and a disc bottom dust collection port (406) are respectively arranged on the side walls of two sections of the dust collection barrel (403) which are positioned above and below the pressure plate buffer component (404);

the drilling mechanism (5) comprises a plurality of drills (501) arranged below the conveying mechanism (2).

2. A processing device for automotive products, according to claim 1, characterized in that: the dust collection cylinder (403) is fixedly sleeved with a dust collection disc (407) which is hollow inside and is communicated with the inside of the dust collection cylinder (403), and the disc top dust collection ports (405) are distributed on the lower surface of the dust collection disc (407).

3. A processing device for automotive products according to claim 2, characterized in that: pressure disk buffer unit (404) is installed including rotating dust absorption dish (407) below and encircle dust absorption section of thick bamboo (403) outlying spacing barrel ring (409), the inside vertical slidable mounting of spacing barrel ring (409) has direction go-between ring (410), the top surface of direction go-between ring (410) with connect through compression spring (411) between the top surface of spacing barrel ring (409), the below of direction go-between ring (410) is provided with pressure disk (412) that are used in near flywheel (10) centre wheel hole (30) upper surface.

4. A processing device for automotive products according to claim 3, characterized in that: the bottom surface of the pressure plate (412) is provided with an anti-skid pad (408).

5. A processing device for automotive products according to claim 3, characterized in that: the inner side wall of the limiting cylinder ring (409) is provided with a vertical guide groove (413), and the outer side wall of the guide connecting ring (410) is provided with a vertical guide edge (414) matched with the vertical guide groove (413).

6. A processing device for automotive products, according to claim 1, characterized in that: feeding mechanism (1) is including fixed mounting at plain noodles support slat (201) below and aim at first guide post (101) at abdicating groove (203) middle part, slidable mounting has material loading supporting disk (102) on first guide post (101), the below of material loading supporting disk (102) is provided with first jacking cylinder (103), and is a plurality of flywheel (10) are piled up on material loading supporting disk (102) to centre wheel hole (30) of a plurality of flywheel (10) all suit are in on first guide post (101), the upper surface of first guide post (101) with the upper surface of plain noodles support slat (201), two the relative inboard of plain noodles support slat (201) is provided with can vertically pass through the feeding of flywheel (10) lets position mouth (205).

7. A processing device for automotive products, according to claim 1, characterized in that: two the relative inboard of plain noodles support slat (201) still is provided with can be vertical to pass through the unloading of flywheel (10) lets a mouth (206), unloading mechanism (3) are including fixed mounting the plain noodles supports slat (201) below and aims at second guide post (301) at the middle part of groove (203) of stepping down, slidable mounting has unloading supporting disk (302) on second guide post (301), the below of unloading supporting disk (302) is provided with second jacking cylinder (303), the upper surface of second guide post (301) with the upper surface that the plain noodles supported slat (201) flushes.

8. A processing device for automotive products, according to claim 1, characterized in that: the power mechanisms respectively comprise two driving wheels (207), the annular rack belt (204) is sleeved between the two driving wheels (207), and one driving wheel (207) is driven to rotate through a motor (208).