阅读说明：本技术 全自动化5g滤波器腔体生产工艺 (Full-automatic 5G filter cavity production process ) 是由 蔡东廷 肖明海 于 2019-10-25 设计创作，主要内容包括：本发明提供全自动化5G滤波器腔体生产工艺,包括以下步骤：A.通过冲压模具进行腔体冲压成型胚料；B.在通过将金属胚料挤压成内部设有隔离筋的腔体胚料；C.将滤波器腔体切割成所需要高度的滤波器腔体,同时,并且通过隔离筋将滤波器分割呈多个腔体；D.然后通过将滤波器腔体置于打磨装置,通过定位旋转打磨将滤波器腔体的切割点和连接点进行对应打磨；E.通过机械成型谐振杆,然后在滤波器的金属盖板上安装上谐振杆；F.将安装有谐振杆的金属盖板与经过D处理的滤波器腔体进行组装；G.组装好的滤波器回炉进行高温处理。(The invention provides a full-automatic 5G filter cavity production process, which comprises the following steps: A. performing cavity punch forming on the blank through a punching die; B. extruding a metal blank into a cavity blank with an isolation rib arranged inside; C. cutting the filter cavity into filter cavities with required heights, and meanwhile, dividing the filter into a plurality of cavities through the isolation ribs; D. then, the filter cavity is arranged in a polishing device, and cutting points and connecting points of the filter cavity are correspondingly polished through positioning, rotating and polishing; E. mechanically forming a resonance rod, and then installing the resonance rod on a metal cover plate of the filter; F. assembling the metal cover plate provided with the resonance rod with the filter cavity subjected to the D treatment; G. and returning the assembled filter to a furnace for high-temperature treatment.)

1. The full-automatic 5G filter cavity production process comprises the following steps:

performing cavity punch forming on the blank through a punching die;

extruding a metal blank into a cavity blank with an isolation rib arranged inside;

cutting the filter cavity into filter cavities with required heights, and meanwhile, dividing the filter into a plurality of cavities through the isolation ribs;

then, the filter cavity is arranged in a polishing device, and cutting points and connecting points of the filter cavity are correspondingly polished through positioning, rotating and polishing;

mechanically forming a resonance rod, and then installing the resonance rod on a metal cover plate of the filter;

assembling the metal cover plate provided with the resonance rod with the filter cavity subjected to the D treatment;

and returning the assembled filter to a furnace for high-temperature treatment.

2. The utility model provides a full-automatic grinding device that filter cavity was polished which characterized in that: including support frame (1), support frame (1) top is equipped with supporting seat (2), supporting seat (2) top is equipped with first feed structure (3), supporting seat (2) top is equipped with first carriage (4), first carriage (4) inner wall bilateral symmetry is equipped with two flexible location structure (5), just first carriage (4) one side inner wall is equipped with and polishes a head storage chamber (6), just be equipped with the mobile location equipment (7) of polishing on first carriage (4), just first carriage (4) inner wall is equipped with a plurality of location structure (8) of making a video recording.

3. The full-automatic grinding device for grinding the filter cavity according to claim 2, wherein: first feed structure (3) include two electric telescopic handle (31), be equipped with first spout (21) on supporting seat (2), two electric telescopic handle (31) can dismantle connect in first spout (21) are inboard, and two first electric telescopic handle (31) one end can be dismantled and connect first connecting block (32), first connecting block (32) can be dismantled and connect first slide (33), sliding connection filter cavity is corresponded in first slide (33).

4. The full-automatic grinding device for grinding the filter cavity according to claim 3, wherein: a second sliding groove (22) is formed in one side of the first sliding groove (21), and a plurality of water permeable holes (23) are formed in the second sliding groove (22).

5. The full-automatic grinding device for grinding the filter cavity according to claim 2, wherein: the telescopic positioning structure (5) comprises a second sliding plate (51), three first convex blocks (52) are arranged on one side of the second sliding plate (51), three third sliding grooves (41) are correspondingly arranged on the inner side of the first connecting frame (4), a first driving motor (411) is arranged in the third sliding groove (41) in the middle, a driving shaft of the first driving motor (411) is connected with a first screw rod (412), the first screw rod (412) is rotatably connected with the first convex blocks (52), first sliding rods (413) are arranged in the third sliding grooves (41) on two sides, and the two first sliding rods (413) are slidably connected with the other two first convex blocks (52); a first air cylinder (53) is arranged on the second sliding plate (51) and far away from one side of the first bump (52), the first air cylinder (53) is detachably connected with a third sliding plate (54), two fourth sliding grooves (55) are arranged in the middle of the third sliding plate (54), a second lead screw (551) and a second sliding rod (552) are respectively arranged in the two fourth sliding grooves (55), a second driving motor (553) is arranged at one end of the second lead screw (551), the second driving motor (553) is detachably connected with one end of the fourth sliding groove (55), the second lead screw (551) and the second sliding rod (552) are both rotatably connected with the fourth sliding plate (56), two first positioning rods (561) are arranged on the outer side of the third sliding plate (56), infrared positioners (562) are arranged above the two first positioning rods (561), two second telescopic rods (42) are arranged on one side of the first connecting frame (4), one end of each of the two second telescopic rods (42) is provided with a first electromagnet (421), the first electromagnet (421) is magnetically connected with a first magnet (43), the first magnet (43) is arranged on a first clamping plate (44), the outer side of the first clamping plate (44) is correspondingly provided with a first signal receiver (441), the infrared positioner (562) is correspondingly connected with the first signal receiver (441) in an infrared mode, the outer side of the first clamping plate (44) is correspondingly provided with two through holes (442), the two first positioning rods (561) are slidably connected with the two through holes (442), the inner side of the first clamping plate (44) is provided with a third driving motor (443), a rotating driving shaft of the third driving motor (443) is connected with a third screw rod (444), the third screw rod (444) rotates to drive the second clamping plate (445) to move, and two inner sides of the second clamping plate (445) are symmetrically provided with rubber wear-resistant strips (446), and a second magnet (447) is arranged on the inner sides of the two rubber wear-resistant strips (446), and a third sliding rod (448) is arranged on the other side of the second clamping plate.

6. The full-automatic grinding device for grinding the filter cavity according to claim 2, wherein: a plurality of positioning polishing heads (61) are arranged in the polishing head storage cavity (6), the plurality of polishing heads (61) comprise first connecting columns (611), first polishing rods (612) are arranged below the first connecting columns (611), flocking cloth (613) is adhered and connected to the upper outer sides of the first polishing rods (612), four fifth sliding grooves (614) are symmetrically arranged above the first connecting columns (611), a fourth driving motor (615) is arranged above the first connecting columns (611), a driving shaft of the fourth driving motor (615) is connected with a fourth screw rod (616), the movable positioning polishing assembly (7) comprises two first supporting plates (71), the two first supporting plates (71) are detachably connected with the first connecting frame (4), sixth sliding grooves (711) are arranged on two sides of the two first supporting plates (71), and fifth sliding plates (712) are slidably connected in the two sixth sliding grooves (711), the plurality of fifth sliding plates (712) can be detachably connected with a second supporting plate (72), a second convex block (721) is arranged above the second supporting plate (72), an eighth chute (722) is arranged below the first supporting plate (72), a sixth driving motor (723) is arranged in the eighth chute (722), a driving shaft of the sixth driving motor (723) is connected with a sixth screw rod (724), the sixth screw rod (724) is rotatably connected with the second convex block (721), a seventh chute (725) is arranged below the second supporting plate (72), a fifth driving motor (726) is arranged in the seventh chute (725), a driving shaft of the fifth driving motor (726) is connected with a fifth screw rod (727), the fifth screw rod (727) is rotatably connected with a first sliding block (73), a second air cylinder (731) is arranged below the first sliding block (73), and a first connecting joint (732) is arranged below the second air cylinder (731), first connector (732) one end is equipped with threaded groove (733), and first connector (732) outside is equipped with and is equipped with a plurality of fourth slide bars (735) in first recess (734), and is a plurality of fourth slide bar (735) sliding connection first connecting ring (736), again be equipped with third cylinder (737) in first recess (734), first connecting ring (736) can be dismantled in third cylinder (737), be equipped with a plurality of first draw runner (738) on first connecting ring (736), it is a plurality of first draw runner (738) sliding connection first connector (732), and a plurality of first draw runner (738) one end sliding connection fifth spout (614).

7. The full-automatic grinding device for grinding the filter cavity according to claim 6, wherein: the positioning polishing head (61) further comprises a lifting buffer polishing head (63), the lifting buffer polishing head (63) is provided with a cavity structure (631) below the first connecting column (611), a plurality of second polishing rods (632) are arranged around the inner side of the cavity structure (631), the inner bearing of the cavity structure (631) is connected with a first rotating block (632), the inner opening of the first rotating block (632) is provided with a plurality of third protruding blocks (633), the outer side of the second polishing rods (632) is provided with a plurality of ninth sliding chutes (634), the third protruding blocks (633) are respectively in sliding connection with the ninth sliding chutes (634), a third telescopic rod (635) is connected with the upper bearing of the second polishing rod (632), the third telescopic rod (635) is detachably connected with the cavity structure (631), and a seventh driving motor (636) is arranged in the cavity structure (631), one end of the seventh driving motor (636) is in gear engagement connection with the first rotating block (632).

Technical Field

The invention relates to the technical field of filter cavity processing, and mainly relates to a full-automatic 5G filter cavity production process.

Background

The power filter is a filter circuit consisting of a capacitor, an inductor and a resistor. The filter can effectively filter the frequency point of the specific frequency in the power line or the frequencies except the frequency point to obtain a power signal of the specific frequency or eliminate the power signal of the specific frequency.

Current 5G wave filter cavity is being processed the in-process, is arranging in through the cavity and polishes in the polishing chamber, polishes when the limit that corresponds and accomplishes the back, and the upset that corresponds is being carried out through the manual work, and then polishing is being carried out clamping, and then has caused the inconvenience of polishing.

Disclosure of Invention

The invention provides a full-automatic 5G filter cavity production process which is used for solving the technical problem in the background art that polishing is inconvenient because manual overturning is needed for polishing.

In order to achieve the purpose, the invention adopts the following technical scheme: the full-automatic 5G filter cavity production process comprises the following steps:

A. performing cavity punch forming on the blank through a punching die;

B. extruding a metal blank into a cavity blank with an isolation rib arranged inside;

C. cutting the filter cavity into filter cavities with required heights, and meanwhile, dividing the filter into a plurality of cavities through the isolation ribs;

D. then, the filter cavity is arranged in a polishing device, and cutting points and connecting points of the filter cavity are correspondingly polished through positioning, rotating and polishing;

E. mechanically forming a resonance rod, and then installing the resonance rod on a metal cover plate of the filter;

F. assembling the metal cover plate provided with the resonance rod with the filter cavity subjected to the D treatment;

G. and returning the assembled filter to a furnace for high-temperature treatment.

Further, the portable camera comprises a supporting frame, the supporting frame top is equipped with the supporting seat, the supporting seat top is equipped with first feed structure, the supporting seat top is equipped with first connection frame, first connection frame inner wall bilateral symmetry is equipped with two flexible location structures, just first connection frame one side inner wall is equipped with the head of polishing storage chamber, just be equipped with the mobile location equipment of polishing on the first connection frame, just first connection frame inner wall is equipped with a plurality of location structure of making a video recording.

Further, first feed structure includes two electric telescopic handle, be equipped with first spout on the supporting seat, two first electric telescopic handle can dismantle connect in first spout is inboard, and two first electric telescopic handle one end can be dismantled and connect first connecting block, first connecting block can be dismantled and connect first slide, first slide corresponds sliding connection filter cavity.

Furthermore, a second sliding groove is formed in one side of the first sliding groove, and a plurality of water permeable holes are formed in the second sliding groove.

Furthermore, the telescopic positioning structure comprises a second sliding plate, three first convex blocks are arranged on one side of the second sliding plate, three third sliding grooves are correspondingly arranged on the inner side of the first connecting frame, a first driving motor is arranged in the third sliding groove in the middle of the first connecting frame, a driving shaft of the first driving motor is connected with a first screw rod, the first screw rod is rotatably connected with the first convex blocks, first sliding rods are arranged in the third sliding grooves on two sides of the first screw rod, and the two first sliding rods are slidably connected with the other two first convex blocks; a first air cylinder is arranged on the second sliding plate at one side far away from the first lug, the first air cylinder is detachably connected with a third sliding plate, two fourth sliding grooves are arranged in the middle of the third sliding plate, a second screw rod and a second sliding rod are respectively arranged in the two fourth sliding grooves, one end of the second screw rod is provided with a second driving motor, the second driving motor is detachably connected with one end of the fourth sliding groove, the second screw rod and the second sliding rod are both rotatably connected with the fourth sliding plate, two first positioning rods are arranged on the outer side of the third sliding plate, an infrared positioner is arranged above the two positioning rods, two second telescopic rods are arranged on one side of the first connecting frame, one end of the two second telescopic rods is provided with a first electromagnet, the first electromagnet is in ferromagnetic connection with a first magnet, the first magnet is arranged on a first clamping plate, and a first signal receiver is correspondingly arranged on the outer side of the first clamping plate, the infrared locator corresponds infrared connection first signal receiver, just the correspondence in the first splint outside is equipped with two through-holes, two first locating lever sliding connection is two the through-hole, just first splint inboard is equipped with third driving motor, third driving motor rotates drive shaft connection third lead screw, the third lead screw rotates and drives the second splint and move, the inboard both sides symmetry of second splint is equipped with the wear-resisting strip of rubber, two the wear-resisting strip inboard of rubber is equipped with second magnet, just second splint opposite side is equipped with third slide bar

Furthermore, a plurality of positioning polishing heads are arranged in the polishing head storage cavity, each polishing head comprises a first connecting column, a first polishing rod is arranged below the first connecting column, flocking cloth is adhered and connected to the outer side of the first polishing rod, four fifth sliding grooves are symmetrically arranged above the first connecting column, a fourth driving motor is arranged above the first connecting column, the driving shaft of the fourth driving motor is connected with a fourth screw rod, the movable positioning polishing assembly comprises two first supporting plates, the two first supporting plates are detachably connected with the first connecting frame, sixth sliding grooves are arranged on two sides of the two first supporting plates, fifth sliding plates are slidably connected in the two sixth sliding grooves, a plurality of fifth sliding plates are detachably connected with the second supporting plates, a seventh sliding groove is arranged below the second supporting plates, and a fifth driving motor is arranged in the seventh sliding groove, fifth driving motor drive shaft connects fifth lead screw, fifth lead screw rotates connects first slider, first slider below is equipped with the second cylinder, second cylinder below is equipped with first connector, first connector one end is equipped with the screw thread recess, just the first connector outside is equipped with and is equipped with a plurality of fourth slide bars in the first recess, and is a plurality of the first connecting ring of fourth slide bar sliding connection, again be equipped with the third cylinder in the first recess, the first connecting ring of connection can be dismantled to the third cylinder, be equipped with a plurality of first draw runner on the first connecting ring, it is a plurality of first draw runner sliding connection first connector, and a plurality of first draw runner one end sliding connection first connector, and a plurality of

Compared with the prior art, the invention has the beneficial effects that:

in the production process of the filter cavity, the polishing device is used for clamping an article and then performing rotary polishing, the polishing device is correspondingly positioned through the telescopic positioning structure, then the polishing device reaches a specified position under the condition of moving through the movable positioning polishing assembly, then the corresponding polishing head is found in the storage cavity of the polishing head, then the polishing head is fixed on the movable positioning polishing assembly through corresponding rotation, then the movable positioning polishing assembly is rotated in the opposite direction of the polishing head to polish, and a groove-shaped structure is arranged in the corresponding storage cavity to clamp the polishing head and enable the polishing head to be positioned in the storage cavity for limiting and convenient replacement.

Meanwhile, the polishing head is better in polishing effect due to multiple settings, and the polishing speed is higher.

Description of the drawings:

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

FIG. 2 is a schematic view of a first feed configuration of the present invention;

FIG. 3 is a schematic view of the telescopic positioning structure of the present invention;

FIG. 4 is a schematic view of a first connection frame according to the present invention;

FIG. 5 is a schematic view of the sanding head of the present invention;

FIG. 6 is a schematic view of a mobile positioning and polishing assembly of the present invention;

FIG. 7 is a schematic view of a first slider configuration of the present invention;

figure 8 is a schematic view of the sanding head storage chamber of the present invention.

In the figure: 1-a support frame, 2-a support seat, 21-a first sliding chute, 3-a first feeding structure, 31-a first electric telescopic rod, 32-a first connecting block, 33-a first sliding plate, 4-a first connecting frame, 41-a third sliding chute, 42-a second telescopic rod, 421-a first electromagnet, 43-a first magnet, 44-a first clamping plate, 441-a first signal receiver, 442-a through hole, 443-a third driving motor, 444-a third screw rod, 445-a second clamping plate, 446-a rubber wear strip, 447-a second magnet, 448-a third sliding rod, 5-a telescopic positioning structure, 51-a second sliding plate, 52-a first bump, 53-a first cylinder, 54-a third sliding plate, 55-a fourth sliding chute, 551-a second screw rod, 552-second sliding rod, 56-fourth sliding plate, 561-first positioning rod, 562-infrared positioner, 6-polishing head storage cavity, 61-polishing head, 611-first connecting column, 612-first polishing rod, 613-flocking cloth, 614-fifth chute, 615-fourth driving motor, 616-fourth screw rod, 63-lifting buffer polishing head, 631-cavity structure, 632-first rotating block, 633-third bump, 634-ninth chute, 635-third telescopic rod, 636-seventh driving motor, 7-mobile positioning polishing assembly, 71-first supporting plate, 711-sixth chute, 712-fifth sliding plate, 72-second supporting plate, 721-second bump, 722-eighth chute, 723-sixth driving motor, 724-a sixth screw rod, 725-a seventh sliding chute, 726-a fifth driving motor, 727-a fifth screw rod, 73-a first sliding block, 731-a second cylinder, 732-a first connecting head, 733-a threaded groove, 734-a first groove, 735-a fourth sliding rod, 736-a first connecting ring, 737-a third cylinder, 738-a first sliding strip and 8-a camera shooting positioning structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.