CN-122007731-A - Rim welding processing equipment and processing method of anti-disc brake hub

Abstract

The invention provides rim welding processing equipment and a processing method of a disc-brake wheel hub, which belong to the technical field of rim welding processing equipment and comprise a left side table plate, a middle section table plate, a right side table plate and a rotating wheel, wherein one side of the left side table plate is fixedly connected with the middle section table plate, one side of the middle section table plate is fixedly connected with the right side table plate, the top of the middle section table plate is sequentially provided with a square groove and a round hole from front to back, the inside of the square groove is provided with a rotating wheel hole, and the rotating wheel is arranged in the rotating wheel hole. According to the invention, through the arranged size replacement module, the device can replace the mounting table matched with the diameter of the rim by utilizing the module according to the rims with different diameters, so that the device can process the rims with different diameters without purchasing the mounting table suitable for the rims with different diameters, the fund expenditure for purchasing the different mounting tables can be reduced to a certain extent, and the market competitiveness of the device can be increased.

Inventors

• Ge Jinyou
• ZHAO MAOSEN
• ZHAO XINBO
• WU MIAN
• YU LONG

Assignees

• 浙江恒质新材料有限公司

Dates

Publication Date

20260512

Application Date

20251229

Claims (10)

1. 1. The rim welding processing equipment of the anti-disc brake hub is characterized by comprising a left table plate (1), one side fixedly connected with middle table plate (2) of left table plate (1), one side fixedly connected with right table plate (3) of middle table plate (2), square groove and circular hole have been seted up in proper order in the top of middle table plate (2) from front to back, the runner hole has been seted up to the inside in square groove, the internally mounted in runner hole has runner (4), the bottom of middle table plate (2) is equipped with size replacement module (5), the top of left table plate (1) is equipped with finished product and takes out count module (6), the equal fixedly connected with table leg (7) in bottom of left table plate (1) and right table plate (3), the top of right table plate (3) is equipped with first rotatory servo motor (8), first rotatory servo motor screw thread connection has right table plate (3) through first rotatory servo motor screw bolt, the top of first rotatory servo motor (8) is equipped with runner (9), first top (10) are equipped with circular stand (10) of first stand, first stand (10) are connected.
2. 2. The rim welding processing device of the anti-disc brake hub according to claim 1, characterized in that a first small circular hole is formed in the top of the first elliptical plate (11), a first air cylinder (12) is arranged at the top of the first elliptical plate (11), the first air cylinder (12) is connected with the first elliptical plate (11) through a first air cylinder bolt, a first air cylinder rod (13) is arranged at the bottom of the first air cylinder (12), the first air cylinder rod (13) and the first small circular hole are mutually matched, a first circular connecting plate (14) is connected with the surface of the first air cylinder rod (13) through threads, a second rotary servo motor (15) is arranged at the bottom of the first circular connecting plate (15) through a second rotary servo motor bolt, a second electric welder (16) is arranged at the bottom of the second rotary servo motor (15), an electric welder (17) is arranged at the bottom of the second electric welder (16), a first welding head (17) is arranged at the bottom of the second rotary servo motor (15) through a second electric welder bolt (16), and a front welding head (18) is arranged at the bottom of the first rotary servo motor.
3. 3. The rim welding processing device of the anti-disc brake hub according to claim 1, wherein the size replacement module (5) comprises a hanging plate (501), a rotating shaft hole is formed in the front face of the hanging plate (501), a rotating shaft (502) is arranged in the rotating shaft hole, a square rotating rod block (503) is arranged in the rotating shaft (502), a rotating rod servo motor (504) is arranged at one end of the square rotating rod block (503), second air cylinders (505) are arranged at the top, the bottom and the side face of the square rotating rod block (503), the second air cylinders (505) are connected with the square rotating rod block (503) through second air cylinders (505) in a threaded mode, a first round base table (506) is arranged on the square rotating rod block (503), and a second round base table (507) is arranged on the square rotating rod block (503) through the second air cylinders (505).
4. 4. A rim welding processing device for a disc brake hub according to claim 3, wherein the square block (503) with a rotating rod is provided with a third circular base table (508) through a second cylinder (505), the square block (503) with a rotating rod is provided with a fourth circular base table (509) through the second cylinder (505), and one end of the first circular base table (506), the second circular base table (507), the third circular base table (508) and the fourth circular base table (509) is fixedly connected with a first spring (510).
5. 5. The rim welding processing device of a disc brake hub according to claim 4, wherein the first circular base table (506) is fixedly connected with a first circular electromagnetic plate (511) through a first spring (510), the second circular base table (507) is fixedly connected with a second circular electromagnetic plate (512) through the first spring (510), the third circular base table (508) is fixedly connected with a third circular electromagnetic plate (513) through the first spring (510), and the fourth circular base table (509) is fixedly connected with a fourth circular electromagnetic plate (514) through the first spring (510).
6. 6. The rim welding processing device of the anti-disc brake hub according to claim 5, wherein one ends of the first circular electromagnetic plate (511), the second circular electromagnetic plate (512), the third circular electromagnetic plate (513) and the fourth circular electromagnetic plate (514) are fixedly connected with trigger short columns (515), and surfaces of the first circular electromagnetic plate (511), the second circular electromagnetic plate (512), the third circular electromagnetic plate (513) and the fourth circular electromagnetic plate (514) are provided with first connecting wires (516).
7. 7. The rim welding processing device of the anti-disc brake hub according to claim 6, wherein one end of the first connecting wire (516) is provided with a controller (517), a trigger button (518) is arranged at the top of the controller (517), one side of the controller (517) is provided with a second connecting wire (519), and one end of the second connecting wire (519) is provided with a first storage battery (520).
8. 8. The rim welding processing device of the anti-disc brake hub according to claim 1, wherein the finished product taking-out counting module (6) comprises a third rotary servo motor (601), the third rotary servo motor (601) is connected with a left table plate (1) through a third rotary servo motor bolt, a third rotary table (602) is arranged at the top of the third rotary servo motor (601), a second round upright post (603) is fixedly connected to the top of the third rotary table (602), a second oval plate (604) is fixedly connected to the top of the second round upright post (603), a second small round hole is formed in the top of the second oval plate (604), a third cylinder (605) is arranged at the top of the second oval plate (604), a second oval plate (604) is connected to the third cylinder (605) through a third cylinder bolt, and a second cylinder rod (606) is arranged at the bottom of the third cylinder (605).
9. 9. The rim welding processing device of the anti-disc brake hub according to claim 8, wherein the second cylinder rod (606) and the second small circular hole are mutually matched, a second circular connecting plate (607) is connected to the surface of the second cylinder rod (606) in a threaded manner, a second spring (608) and a counter (609) are sequentially arranged at the bottom of the second circular connecting plate (607) from left to right, a circular bottom plate (610) is fixedly connected to the bottom of the second spring (608), a trigger upright post (611) is fixedly connected to the top of the fifth circular electromagnetic plate (610), a third connecting wire (612) is arranged on the surface of the fifth circular electromagnetic plate (610), a second storage battery (613) is arranged at one end of the third connecting wire (612), and the second storage battery (613) is connected with a second elliptical plate (604) in a threaded manner through a storage battery bolt.
10. 10. Method for machining a rim welding machining device for a disc brake hub according to any one of claims 1-9, characterized in that it comprises the following steps: Step one, when the rim is conveyed onto the middle-section table plate (2), the rim falls onto the middle-section table plate (2) due to residual inertia, and under the rotary bearing of the rotating wheel (4), the rim can slide until falling into a circular hole, before the rim is borne, a mounting table suitable for the size of the rim to be processed needs to be selected through a size replacing module (5), after the rim falls onto the size replacing module (5), a first rotary servo motor (8) is started at the moment, so that the first rotating disc (9) rotates, then a first elliptic plate (11) rotates along, so that other structural components such as a first cylinder rod (13) are positioned right above the size replacing module (5), then a first cylinder (12) is started, the first cylinder rod (13) is driven to move downwards until an electric welding head (18) reaches the rim to be welded, and an electric welding machine (17) and a second rotary servo motor (15) need to be synchronously started at the moment, so that an electric welding head (18) can rotationally weld the rim; Step two, when the rim needs to be welded, a proper circular electromagnetic plate is needed to be selected for bearing according to the diameter size of the rim to be machined, a worker starts a rotary rod servo motor (504), a rotary rod square block (503) rotates, then a second cylinder (505) rotates, and accordingly the first circular electromagnetic plate (511), the second circular electromagnetic plate (512), a third circular electromagnetic plate (513) and a fourth circular electromagnetic plate (514) are driven to rotate until the circular electromagnetic plate with the corresponding size is right below a circular hole of a middle-section table plate (2), at the moment, the rotary rod servo motor (504) is suspended, the circular electromagnetic plate is not rotated any more, then a second cylinder (505) corresponding to the circular electromagnetic plate is started, a circular base table and the circular electromagnetic plate are lifted up until the circular electromagnetic plate is lifted to a position of half of the height in the circular hole, the second cylinder (505) is suspended, the rim falls into the circular hole, and the circular electromagnetic plate is triggered to be pressed down in an instant, so that the magnetic energy is transmitted to the circular electric energy is not transmitted to a fixed connection pad (516) through a control button (517) when the circular accumulator (516) is firmly welded; Step three, after the rim welding processing is finished, the worker starts the third rotary servo motor (601) to enable the third rotary table (602) to rotate, then the second elliptical plate (604) is enabled to rotate with the third air cylinder (605), when the second air cylinder rod (606) is right above the rim, the third air cylinder (605) is started at the moment, the second air cylinder rod (606) descends until the fifth circular electromagnetic plate (610) reaches the top of the rim, because the fifth circular electromagnetic plate (610) reaches the top of the rim and has a certain downward pressure, the fifth circular electromagnetic plate (610) triggers the upright post (611) to strike the counter (609), so that the counter (609) counts, when the worker sees the fifth circular electromagnetic plate (610) to reach the top of the rim, the second storage battery (613) is started, the electric storage battery in the fifth circular electromagnetic plate (610) enters the fifth circular electromagnetic plate (610) through the third connecting wire (612), at the moment, the fifth circular electromagnetic plate (610) obtains electric energy, and the fifth circular electromagnetic plate (610) converts the electric energy into the electric energy, so that the electric energy is absorbed to be well processed to the rim, and the rim is placed at other positions.

Description

Rim welding processing equipment and processing method of anti-disc brake hub Technical Field The invention relates to the technical field of rim welding processing equipment, in particular to rim welding processing equipment and a processing method of a disc-brake hub. Background The rim provides the installation and fixed position for the tire, ensures that the tire can combine with the wheel steadily, and the core components that anti-dish was stopped like dish is stopped to dish, need be fixed through structures such as mount pad, the spiro union seat on the rim, consequently rim welding process equipment mainly welds the rim on the mount pad. In the rim processing device and manufacturing equipment of the anti-disc brake hub disclosed in the chinese patent application publication No. CN117564529a, although the above device can carry and position the rim or semi-finished hub body to be processed, can place the mounting post for mounting the anti-disc brake disc on the rim so as to weld the mounting seat on the rim, the above device ignores that the existing rim is not the same in size, but the rim diameter of the rim in order to adapt to different sizes needs to purchase a plurality of adapting mounting tables, which increases the capital expenditure for purchase, and also makes the device lack market competitiveness and the above device neglect that the existing finished product is usually manually checked after being manufactured and then taken out, which is easy to cause the checking quantity error caused by lack of concentration or long-time absentmince in manual checking. Disclosure of Invention (One) solving the technical problems Aiming at the defects of the prior art, the invention provides rim welding processing equipment and a processing method of a disc-brake hub, which solve the problems that the existing device cannot be matched with rims with different sizes and the existing device cannot automatically count the number of processed articles. (II) technical scheme In order to solve the technical problems, the invention provides the following technical scheme: The rim welding processing equipment of the anti-disc brake hub and the processing method thereof comprise a left side table plate, one side of the left side table plate is fixedly connected with a middle section table plate, one side of the middle section table plate is fixedly connected with a right side table plate, the top of the middle section table plate is sequentially provided with a square groove and a round hole from front to back, the inside of the square groove is provided with a rotating wheel hole, the inside of the rotating wheel hole is provided with a rotating wheel, the bottom of the middle section table plate is provided with a size replacement module, the top of the left side table plate is provided with a finished product taking-out counting module, the bottoms of the left side table plate and the right side table plate are fixedly connected with table legs, the top of the right side table plate is provided with a first rotary servo motor, the top of the first rotary servo motor is provided with a first rotary table through a first rotary servo motor bolt, the top of the first rotary table is provided with a first round upright column, and the top of the first round upright column is fixedly connected with a first elliptical plate. Preferably, the top of first oval shaped plate has seted up first little circular hole, the top of first oval shaped plate is equipped with first cylinder, first cylinder has first oval shaped plate through first cylinder bolt threaded connection, the bottom of first cylinder is equipped with first cylinder pole, the mutual adaptation between first cylinder pole and the first little circular hole, the surface threaded connection of first cylinder pole has first circular connecting plate, the bottom of first circular connecting plate is equipped with the rotatory servo motor of second, the rotatory servo motor of second is equipped with first circular connecting plate through rotatory servo motor bolt threaded connection of second, the bottom of rotatory servo motor of second is equipped with the second carousel, the bottom of second carousel is equipped with the electric welding machine, the electric welding machine has the second carousel through electric welding machine bolt threaded connection, the front of electric welding machine is equipped with the electric welding head. Preferably, the size replacement module comprises a hanging plate, a rotating shaft hole is formed in the front face of the hanging plate, a rotating shaft is arranged in the rotating shaft hole, a square rotating rod block is arranged in the rotating shaft, a rotating rod servo motor is arranged at one end of the square rotating rod block, a second cylinder is arranged at the top, the bottom and the side face of the square rotating rod block, the second cylinder is in threaded connection with the square rotating