CN113510576A - Ceramic antenna manufacturing and processing machine and manufacturing and processing method - Google Patents

Abstract

The invention relates to a ceramic antenna manufacturing and processing machine and a manufacturing and processing method, wherein the ceramic antenna manufacturing and processing machine comprises an installation base, a fixing component and a grinding component, the fixing component is fixedly installed on the upper end surface of the installation base, the grinding component is arranged above the fixing component, and the grinding component is installed on the installation base, so that the problems existing in the process of grinding and polishing a ceramic antenna shell can be solved: a: when the existing ceramic shell is fixed, in order to avoid shaking of the ceramic shell, the ceramic shell is often placed in a groove for fixing, and after the surface of the subsequent ceramic shell is polished, the surface of the ceramic shell is smooth, so that manual workpiece taking is difficult; b: when the existing ceramic shell is polished, a large amount of dust often appears, the dust is easily inhaled into a respiratory tract by a human body, and the damage to the human body is very easy to generate.

Description

Ceramic antenna manufacturing and processing machine and manufacturing and processing method

Technical Field

The invention relates to the technical field of ceramic antenna preparation, in particular to a ceramic antenna manufacturing and processing machine and a manufacturing and processing method.

Background

The ceramic antenna generally reads the distance and can reach 2 meters, because it reads the nearer event of distance and is called closely antenna again, ceramic antenna gain is 2dbi, ceramic antenna is an indoor use industrial grade product, because of it has adopted ceramic shell, so ceramic antenna has anti-interference, anti thunder, waterproof dustproof ability, current ceramic antenna often is ceramic shell and circuit board combination and forms, wherein in order to improve the aesthetic property and the smoothness nature on product surface, before ceramic antenna equipment, often need to polish the polishing to ceramic shell, but current ceramic antenna shell still has certain not enough when polishing the polishing and handling.

The prior ceramic antenna shell has the following problems in the grinding and polishing treatment: a: when the existing ceramic shell is fixed, in order to avoid shaking of the ceramic shell, the ceramic shell is often placed in a groove for fixing, and after the surface of the subsequent ceramic shell is polished, the surface of the ceramic shell is smooth, so that manual workpiece taking is difficult; b: when the existing ceramic shell is polished, a large amount of dust often appears, the dust is easily inhaled into a respiratory tract by a human body, and the damage to the human body is very easy to generate.

Disclosure of Invention

In order to solve the technical problems, the invention provides a ceramic antenna manufacturing and processing machine and a manufacturing and processing method.

The utility model provides a ceramic antenna preparation processing machinery, includes installation base, fixed subassembly and the subassembly of polishing, fixed mounting has fixed subassembly on the installation base up end, and the fixed subassembly top is provided with the subassembly of polishing, and the subassembly of polishing is installed on the installation base, wherein:

fixed subassembly is including placing the board, the cooperation slider, slide damper and push spring, place the board and pass through bolt fixed mounting on the installation base up end, bilateral symmetry has seted up spout A on the terminal surface before placing the board, the cooperation slider is installed through gliding mode from top to bottom to spout A inside, the cooperation slider is L type structure, fixed mounting has slide damper on the cooperation slider up end, slide damper and place between the board be connected through pushing spring, in operation, the manual work is placed the ceramic package that will polish the processing and is placed on the board, later the manual work promotes slide damper upward movement, give the preceding terminal surface of ceramic package and block, thereby accomplish the fixed operation of ceramic package.

The polishing assembly comprises a connecting side plate, an upper cover plate, guide plates, lower sliding blocks, connecting springs, connecting plates, adjusting rotating rods, polishing frames and driving cylinders, the connecting side plate is fixedly arranged on the rear side of the upper end face of the mounting base, the upper cover plate is fixedly arranged on the upper end face of the connecting side plate, the guide plates are symmetrically arranged at the left end and the right end of the upper cover plate, sliding chutes B are formed in the guide plates, the lower sliding blocks are arranged in the sliding chutes B in a vertical sliding mode, the lower sliding blocks are connected with the guide plates through the connecting springs, the connecting plates are fixedly arranged on the adjacent end faces of the two lower sliding blocks, the adjusting rotating rods are abutted against the upper end faces of the connecting plates, the adjusting rotating rods are arranged on the upper cover plate in a threaded connection mode, the polishing frames are arranged on the upper cover plate in a sliding connection mode, the polishing frames are connected with output shafts of the driving cylinders, and the driving cylinders are fixedly arranged on the upper end faces of the connecting plates, during operation, after the ceramic shell fixing operation is completed, the rotating rod is adjusted through manual driving to rotate, the extrusion connecting plate moves downwards along the guide plate, the polishing frame touches the surface of the ceramic shell, then the driving cylinder works to drive the polishing frame to perform reciprocating motion, and therefore polishing treatment on the surface of the ceramic shell is achieved.

As a further scheme of the invention, placing sinking grooves C are uniformly formed in the upper end surface of the placing plate from left to right, a lifting block is arranged at the bottom of each placing sinking groove C, contact ejector rods are uniformly arranged on the lower end surface of each lifting block from front to back, the contact ejector rods are arranged on the placing plate in a sliding connection mode, rotating ball blocks are arranged on the lower end surface of each contact ejector rod in a rotating connection mode, a pushing plate abuts against the lower end surface of each contact ejector rod, the pushing plate is arranged in the placing plate in a sliding connection mode, and a traction rod is fixedly arranged on the front end surface of the pushing plate.

As a further scheme of the invention, the upper end surface of the pushing plate is uniformly provided with the ejection lugs from left to right.

As a further scheme of the invention, connecting blocks are uniformly arranged on the upper end surface of the sliding baffle from left to right, an inner pushing block is arranged on the rear end surface of the connecting block in a sliding connection mode, a pushing rod abuts against the front end surface of the inner pushing block, the pushing rod is arranged on the connecting block in a threaded connection mode, a connecting gear is fixedly arranged on the pushing rod, matching racks which are matched with each other for use are arranged below the connecting gear, the matching racks are arranged on the outer side of the smoothing rod in a sliding connection mode, and the smoothing rod is arranged on the front end surface of the sliding baffle in a rotating connection mode.

As a further scheme of the invention, the connecting plate is provided with a chute D, the end surface of the connecting plate far away from the chute D is uniformly provided with water through holes E, the upper end surface of the connecting plate is fixedly provided with a shunting block, the upper end surface of the shunting block is connected with a water pipe, and the upper end surface of the shunting block is abutted against the adjusting rotating rod.

As a further scheme of the invention, a dispersing waterway is arranged in the shunting block, and the water outlet position of the dispersing waterway corresponds to the water through hole E.

As a further scheme of the invention, the polishing frame is of a Chinese character feng-shaped structure, a connecting sliding rod matched with the sliding groove D for use is fixedly arranged on the upper end surface of the polishing frame, the connecting sliding rod is connected with an output shaft of the driving cylinder, a polishing plate is fixedly arranged on the lower end surface of the polishing frame through bolts, the front end and the rear end of the polishing plate are symmetrically provided with erasing blocks, and the erasing blocks are fixedly arranged on the lower end surface of the polishing frame through bolts.

In addition, the invention also provides a manufacturing and processing method of the ceramic antenna, which comprises the following steps:

s1, before a ceramic antenna manufacturing and processing machine is started to manufacture a ceramic antenna, detecting and adjusting the operation of the machine;

s2, manually spreading the ceramic shell on a placing plate, then manually pushing the sliding baffle to block the front end face of the sliding baffle and abut against the front of the ceramic shell, so that the purpose of fixing the ceramic shell is achieved;

s3, after the ceramic shell fixing operation is completed, manually rotating the adjusting rotating rod to rotate, extruding the connecting plate, enabling the connecting plate to move downwards, enabling the polishing frame to be in contact with the surface of the ceramic shell, and then driving the polishing frame to reciprocate under the action of the driving cylinder, so that polishing treatment of the ceramic shell is completed;

and S4, after the surface of the ceramic shell is polished, manually taking down the ceramic shell, and assembling the ceramic shell and the circuit board to form the ceramic antenna, so that the production and preparation operation of the ceramic antenna are completed.

Compared with the prior art, the invention has the following advantages:

1. according to the ceramic shell placing device, the placing plate is designed, a plurality of ceramic shells are manually placed inside the placing sunken grooves C on the placing plate, the ceramic shells are fixed through the sliding baffle, then the surface of the ceramic shells is polished, the sliding baffle is manually loosened to extrude the ceramic shells, the pushing plate is made to push the lifting block upwards through the pushing traction rod, the ceramic shells inside the placing sunken grooves C are made to be completely ejected out through the lifting block, operators can conveniently take the ceramic shells, and therefore the workpiece taking efficiency is improved.

2. According to the invention, the connecting plate is designed, when the polishing component polishes the ceramic shell, the water pipe and the water delivery pipe are manually connected, water flow enters the flow dividing block and drops onto the lower end ceramic shell and the polishing frame through the water through hole E, so that the polishing frame can be cooled, dust generated by polishing can be wetted, the dust is prevented from being sucked into the lung of a human body, the human body is prevented from being damaged, and the safety of operators during working is improved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

Fig. 2 is a front view of the present invention.

Fig. 3 is an enlarged schematic view of region a of fig. 1 of the present invention.

Fig. 4 is a schematic view of the coupling structure of the mating rack and the smoothing rod of the present invention.

Fig. 5 is a schematic cross-sectional view of the placement board of the present invention.

Fig. 6 is a schematic cross-sectional view of a propellant plate of the present invention.

Fig. 7 is a schematic structural view of the connection plate of the present invention.

Figure 8 is a schematic diagram of the construction of the sanding block of the present invention.

In the figure: 1. installing a base; 2. a fixing assembly; 3. polishing the assembly; 21. placing the plate; 22. matching with the sliding block; 23. a sliding baffle; 24. pushing the spring; 25. a chute A; 31. connecting the side plates; 32. an upper cover plate; 33. a guide plate; 34. a lower slide block; 35. a connecting spring; 36. a connecting plate; 37. adjusting the rotating rod; 38. a polishing frame; 39. a driving cylinder; 30. a chute B; 211. placing the sink tank C; 212. lifting the block; 213. contacting the ejector rod; 214. rotating the ball block; 215. pushing the plate; 216. a draw bar; 2151. ejecting the material bump; 231. connecting blocks; 232. an inner push block; 233. a pushing rod; 234. a connecting gear; 235. matching the rack; 236. a flat sliding bar; 361. a chute D; 362. water passing holes E; 363. a shunting block; 364. a water delivery pipe; 3631. a dispersion waterway; 381. connecting a sliding rod; 382. grinding the plate; 383. the block is erased.

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.

Referring to fig. 1-8, a ceramic antenna preparation processing machinery, including installation base 1, fixed subassembly 2 and the subassembly 3 of polishing, fixed mounting has fixed subassembly 2 on the 1 up end of installation base, and fixed subassembly 2 top is provided with the subassembly 3 of polishing, and the subassembly 3 of polishing is installed on installation base 1, wherein:

referring to fig. 1 and 2, the fixing assembly 2 includes a placing plate 21, a matching slide block 22, a sliding baffle 23 and a pushing spring 24, the placing plate 21 is fixedly installed on the upper end face of the installing base 1 through bolts, sliding grooves a25 are symmetrically formed in the left and right of the front end face of the placing plate 21, the matching slide block 22 is installed inside the sliding groove a25 in an up-and-down sliding mode, the matching slide block 22 is of an L-shaped structure, the sliding baffle 23 is fixedly installed on the upper end face of the matching slide block 22, the sliding baffle 23 is connected with the placing plate 21 through the pushing spring 24, during specific work, a ceramic shell needing to be polished is placed on the placing plate 21 manually, the sliding baffle 23 is pushed manually to move upwards, the front end face of the ceramic shell is blocked, and accordingly the fixing operation of the ceramic shell is completed.

Referring to fig. 1, 5 and 6, a placing sink groove C211 is uniformly formed on the upper end surface of the placing plate 21 from left to right, a lifting block 212 is arranged at the bottom of the placing sink groove C211, a contact push rod 213 is uniformly arranged on the lower end surface of the lifting block 212 from front to back, the contact push rod 213 is mounted on the placing plate 21 in a sliding connection manner, a rotating ball block 214 is mounted on the lower end surface of the contact push rod 213 in a rotating connection manner, a pushing plate 215 abuts against the lower end surface of the contact push rod 213, the pushing plate 215 is mounted inside the placing plate 21 in a sliding connection manner, a pull rod 216 is fixedly mounted on the front end surface of the pushing plate 215, during specific work, a ceramic shell to be polished is placed in the placing sink groove C211 in order by a manual, then the sliding baffle 23 is pushed upwards by the manual, the front end surface of the ceramic shell is blocked by the action of the sliding baffle 23, then, under the work of the polishing assembly 3, the polishing treatment on the surface of the ceramic shell is completed, after the polishing treatment is completed, the sliding baffle 23 is loosened manually, then the traction rod 216 is pushed manually, the pushing plate 215 moves towards the right side, the ejecting lug 2151 is uniformly installed on the upper end face of the pushing plate 215 from left to right, the contact ejector rod 213 is extruded through the ejecting lug 2151, the lifting block 212 inside the sinking groove C211 is placed to move upwards simultaneously, meanwhile, the friction resistance between the contact ejector rod 213 and the ejecting lug 2151 can be reduced through the rotating ball block 214 on the lower end face of the contact ejector rod 213, then the lifting block 212 moves upwards, the ceramic shell inside the sinking groove C211 can be placed to be ejected completely at one time, the operator can take the ceramic shell conveniently, and the workpiece taking efficiency is improved.

Referring to fig. 1 to 4, the upper end surface of the sliding baffle 23 is uniformly provided with connecting blocks 231 from left to right, the rear end surface of the connecting blocks 231 is provided with inner push blocks 232 in a sliding connection manner, the front end surface of the inner push blocks 232 abuts against push rods 233, the push rods 233 are arranged on the connecting blocks 231 in a threaded connection manner, the push rods 233 are fixedly provided with connecting gears 234, the lower parts of the connecting gears 234 are provided with matching racks 235 matched with each other for use, the matching racks 235 are arranged on the outer sides of the flat slide rods 236 in a sliding connection manner, the smooth rods 236 are arranged on the front end surface of the sliding baffle 23 in a rotating connection manner, during specific work, a ceramic shell needing polishing treatment is manually placed inside the placing sunken grooves C211, then the sliding baffle 23 is manually pushed to move upwards, so that the connecting blocks 231 are placed at the front ends of the sunken grooves C211, and then the push rods 233 are manually screwed, make push rod 233 extrude interior ejector pad 232 and move backward and support ceramic case tightly, and block slide damper 23, avoid slide damper 23 gliding condition to take place, after later accomplishing ceramic case and polishing the operation, flat slide bar 236 is rotated to the manual work, make cooperation rack 235 and connecting gear 234 mesh mutually, later manual work twitch cooperation rack 235, drive connecting gear 234 and rotate, through pull cooperation rack 235 many times, make push rod 233 all move to the front end, thereby can loosen ceramic case, and then avoided the manual work in proper order the reverse rotation to push rod 233 the condition emergence, and then improved ceramic case's the efficiency of tearing open.

Referring to fig. 1 and 2, the polishing assembly 3 includes a connecting side plate 31, an upper cover plate 32, a guide plate 33, a lower slider 34, a connecting spring 35, a connecting plate 36, an adjusting rotating rod 37, a polishing frame 38 and a driving cylinder 39, the connecting side plate 31 is fixedly mounted on the rear side of the upper end surface of the mounting base 1, the upper cover plate 32 is fixedly mounted on the upper end surface of the connecting side plate 31, the guide plates 33 are symmetrically mounted on the left and right ends of the upper cover plate 32, a sliding slot B30 is formed in the guide plate 33, the lower slider 34 is mounted in the sliding slot B30 in a vertically sliding manner, the lower slider 34 is connected with the guide plates 33 through the connecting spring 35, the connecting plates 36 are fixedly mounted on the adjacent end surfaces of the two lower sliders 34, the adjusting rotating rod 37 is abutted against the upper end surface of the connecting plate 36, the adjusting rotating rod 37 is mounted on the upper cover plate 32 in a threaded connection manner, the polishing frame 38 is mounted on the upper cover plate 32 in a sliding connection manner, grinding frame 38 is connected with the output shaft that drives actuating cylinder 39, it is on the up end of connecting plate 36 to drive actuating cylinder 39 fixed mounting, during specific work, after accomplishing ceramic shell fixing operation, manual drive adjusts bull stick 37 and rotates extrusion connecting plate 36, make connecting plate 36 follow lower slider 34 along spout B30 downstream on the guide plate 33, and then drive grinding frame 38 and touch ceramic shell surface, later drive actuating cylinder 39 work, drive grinding frame 38 and carry out reciprocating motion, thereby realize the processing of polishing to ceramic shell surface.

Referring to fig. 7, a chute D361 is formed on the connecting plate 36, water through holes E362 are uniformly formed on the end surface of the connecting plate 36 away from the chute D361, a shunt block 363 is fixedly mounted on the upper end surface of the connecting plate 36, a water pipe 364 is connected to the upper end surface of the shunt block 363, the upper end surface of the shunt block 363 is abutted against the adjusting rotating rod 37, when the polishing machine works specifically, the connecting plate 36 moves downward under the extrusion of the adjusting rotating rod 37, and after the polishing frame 38 contacts the upper surface of the ceramic shell, the driving cylinder 39 drives the polishing frame 38 to reciprocate while connecting the water pipe and the water pipe 364 manually, then the water pipe injects water into the water pipe 364, the water enters the shunt block 363, and the water enters the shunt block 363 because the shunt block 363 is internally provided with a dispersion water path 3631, and the water outlet of the dispersion water path 3631 corresponds to the water through holes E362, so that the water entering the shunt block 363 drops to the lower ceramic shell and the polishing frame 38 through the water through holes E362, and then can carry out cooling treatment to the frame 38 of polishing to can moisten the dust that produces of polishing, avoid the dust to inhale human lung, make the impaired condition of human body take place.

Referring to fig. 8, the polishing frame 38 is a structure shaped like a Chinese character feng, a connecting slide rod 381 which is matched with a slide groove D361 for use is fixedly installed on the upper end face of the polishing frame 38, the connecting slide rod 381 is connected with an output shaft of a driving cylinder 39, a polishing plate 382 is installed on the lower end face of the polishing frame 38 through a bolt, erasing blocks 383 are symmetrically arranged at the front end and the rear end of the polishing plate 382, the erasing blocks 383 are fixedly installed on the lower end face of the polishing frame 38 through bolts, in the specific working process, when the driving cylinder 39 drives the connecting slide rod 381 to slide along the slide groove D361, the polishing frame 38 is driven to move on the surface of a ceramic shell, the polishing plate 382 on the polishing frame 38 polishes the surface of the ceramic shell, after the polishing process, the erasing blocks 383 at the front end and the rear end of the polishing plate 382 primarily clean the surface of the ceramic shell, so that the polishing operation of polishing the polishing plate is completed.

In addition, the invention also provides a manufacturing and processing method of the ceramic antenna, which comprises the following steps:

s1, before a ceramic antenna manufacturing and processing machine is started to manufacture a ceramic antenna, detecting and adjusting the operation of the machine;

s2, manually placing the ceramic shell to be polished into the placing sinking groove C211, then manually pushing the sliding baffle 23 to move upwards to enable the connecting block 231 to block the front end of the placing sinking groove C211, and then manually screwing the pushing rod 233 to enable the pushing rod 233 to extrude the inner pushing block 232 to move backwards to tightly abut against the ceramic shell and clamp the sliding baffle 23 to prevent the sliding baffle 23 from sliding downwards, so that the purpose of fixing the ceramic shell is achieved;

s3, after the ceramic shell fixing operation is completed, manually driving the adjusting rotating rod 37 to rotate and extrude the connecting plate 36, so that the connecting plate 36 moves downwards along the sliding groove B30 on the guide plate 33 along with the lower sliding block 34, further driving the polishing frame 38 to touch the surface of the ceramic shell, then driving the air cylinder 39 to work, driving the polishing frame 38 to reciprocate, and further polishing the surface of the ceramic shell;

and S4, after the surface of the ceramic shell is polished, manually taking down the ceramic shell, and assembling the ceramic shell and the circuit board to form the ceramic antenna, so that the production and preparation operation of the ceramic antenna are completed.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a ceramic antenna preparation processing machinery, includes installation base (1), fixed subassembly (2) and polishing subassembly (3), its characterized in that: fixed mounting has fixed subassembly (2) on installation base (1) up end, and fixed subassembly (2) top is provided with polishing subassembly (3), and polishing subassembly (3) are installed on installation base (1), wherein:

the fixing assembly (2) comprises a placing plate (21), a matching sliding block (22), a sliding baffle (23) and a pushing spring (24), the placing plate (21) is fixedly installed on the upper end face of the installing base (1) through bolts, sliding chutes A (25) are symmetrically formed in the left and right of the front end face of the placing plate (21), the matching sliding block (22) is installed inside the sliding chutes A (25) in a vertical sliding mode, the matching sliding block (22) is of an L-shaped structure, the sliding baffle (23) is fixedly installed on the upper end face of the matching sliding block (22), and the sliding baffle (23) is connected with the placing plate (21) through the pushing spring (24);

the polishing assembly (3) comprises a connecting side plate (31), an upper cover plate (32), guide plates (33), lower sliders (34), connecting springs (35), connecting plates (36), adjusting rotating rods (37), a polishing frame (38) and a driving cylinder (39), wherein the connecting side plate (31) is fixedly arranged on the rear side of the upper end face of the mounting base (1), the upper cover plate (32) is fixedly arranged on the upper end face of the connecting side plate (31), the guide plates (33) are symmetrically arranged at the left end and the right end of the upper cover plate (32), sliding chutes B (30) are formed in the guide plates (33), the lower sliders (34) are arranged in the sliding chutes B (30) in a vertical sliding mode, the lower sliders (34) are connected with the guide plates (33) through the connecting springs (35), the connecting plates (36) are fixedly arranged on the close end faces of the two lower sliders (34), the adjusting rotating rods (37) are abutted against the upper end faces of the connecting plates (36), the adjusting rotating rod (37) is installed on the upper cover plate (32) in a threaded connection mode, the upper cover plate (32) is provided with a polishing frame (38) in a sliding connection mode, the polishing frame (38) is connected with an output shaft of a driving air cylinder (39), and the driving air cylinder (39) is fixedly installed on the upper end face of the connecting plate (36).

2. The ceramic antenna manufacturing and processing machine according to claim 1, characterized in that: place and evenly seted up on the board (21) up the up end from left to right and place heavy groove C (211), it is provided with lifting piece (212) to place heavy groove C (211) bottom, evenly be provided with contact ejector pin (213) from the front to the back on lifting piece (212) lower terminal surface, contact ejector pin (213) are installed on placing board (21) through sliding connection's mode, install rotation ball piece (214) through the mode of rotating the connection under contact ejector pin (213) on the terminal surface, contact ejector pin (213) are supported on the terminal surface and are leaned on and push away crowded board (215), push away crowded board (215) and install inside placing board (21) through sliding connection's mode, push away and to have traction bar (216) on crowded board (215) the preceding terminal surface fixed mounting.

3. The ceramic antenna manufacturing and processing machine according to claim 2, characterized in that: and the upper end surface of the pushing plate (215) is uniformly provided with a material ejecting lug (2151) from left to right.

4. The ceramic antenna manufacturing and processing machine according to claim 1, characterized in that: connecting block (231) are evenly installed from left to right on slide damper (23) up end, push block (232) in installing through sliding connection's mode on connecting block (231) rear end face, support on the preceding terminal surface of interior push block (232) and push away pole (233), push away pole (233) and install on connecting block (231) through threaded connection's mode, push away fixed mounting on pole (233) and have connecting gear (234), connecting gear (234) below is provided with cooperation rack (235) that mutually supports and use, cooperation rack (235) are installed in flat slide bar (236) outside through sliding connection's mode, flat slide bar (236) are installed on slide damper (23) preceding terminal surface through the mode of rotating the connection.

5. The ceramic antenna manufacturing and processing machine according to claim 1, characterized in that: the water distribution device is characterized in that a sliding groove D (361) is formed in the connecting plate (36), a water passing hole E (362) is uniformly formed in the end face of the connecting plate (36) far away from the sliding groove D (361), a shunting block (363) is fixedly mounted on the upper end face of the connecting plate (36), a water pipe (364) is connected to the upper end face of the shunting block (363), and the upper end face of the shunting block (363) abuts against the adjusting rotating rod (37).

6. The ceramic antenna manufacturing and processing machine of claim 5, wherein: a dispersion water channel (3631) is formed in the flow dividing block (363), and the water outlet of the dispersion water channel (3631) corresponds to the water through hole E (362).

7. The ceramic antenna manufacturing and processing machine of claim 5, wherein: the polishing frame (38) is of a Chinese character feng-shaped structure, a connecting slide rod (381) which is matched with the slide groove D (361) for use is fixedly installed on the upper end face of the polishing frame (38), the connecting slide rod (381) is connected with an output shaft of the driving cylinder (39), a polishing plate (382) is fixedly installed on the lower end face of the polishing frame (38) through bolts, erasing blocks (383) are symmetrically arranged at the front end and the rear end of the polishing plate (382), and the erasing blocks (383) are fixedly installed on the lower end face of the polishing frame (38) through bolts.

8. The ceramic antenna manufacturing and processing machine according to claim 1, characterized in that: the method for manufacturing the ceramic antenna by the ceramic antenna manufacturing and processing machine comprises the following steps:

s1, before a ceramic antenna manufacturing and processing machine is started to manufacture a ceramic antenna, detecting and adjusting the operation of the machine;

s2, manually spreading the ceramic shell on a placing plate (21), then manually pushing a sliding baffle (23) to block the front end face of the sliding baffle (23) and pushing the front of the ceramic shell against the ceramic shell, so that the purpose of fixing the ceramic shell is achieved;

s3, after the ceramic shell fixing operation is completed, manually rotating an adjusting rotating rod (37) to rotate, extruding a connecting plate (36), enabling the connecting plate (36) to move downwards, enabling a polishing frame (38) to be in contact with the surface of the ceramic shell, and then driving the polishing frame (38) to reciprocate under the operation of a driving cylinder (39), so that polishing treatment of the ceramic shell is completed;

and S4, after the surface of the ceramic shell is polished, manually taking down the ceramic shell, and assembling the ceramic shell and the circuit board to form the ceramic antenna, so that the production and preparation operation of the ceramic antenna are completed.

Images