CN214348490U - Ka frequency channel waveguide slot antenna burr processing apparatus - Google Patents

Abstract

A Ka frequency channel waveguide slot antenna burr processing apparatus includes: the placing frame comprises supporting components, wherein placing components are arranged between the supporting components in a circumferential array, the supporting components are provided with driving components, the placing components are used for placing the Ka-frequency-band waveguide slot antenna, and the driving components are used for driving the placing components to rotate; transfer frame, including holding the subassembly, it is equipped with lifting unit two pairs to hold the subassembly, is equipped with the transfer subassembly between the lifting unit, and the transfer subassembly is equipped with the clamping head. The utility model discloses carry out the centre gripping location to it when carrying out Ka frequency channel waveguide slot antenna and wasing, can drive Ka frequency channel waveguide slot antenna and rotate in the cleaning process, apparent improvement Ka frequency channel waveguide slot antenna's cleaning efficiency and cleaning performance, transfer after convenient the washing to the improvement of showing Ka frequency channel waveguide slot antenna's production efficiency has stronger practicality.

Description

Ka frequency channel waveguide slot antenna burr processing apparatus

Technical Field

The utility model relates to a relevant technical field of Ka frequency channel waveguide slot antenna production facility especially relates to a Ka frequency channel waveguide slot antenna burr processing apparatus.

Background

An antenna formed by slitting a conductor surface is also called a slot antenna. A typical slot shape is a long strip, approximately half a wavelength in length. The slot may be fed by a transmission line across its narrow side, or by a waveguide or resonant cavity. At this time, a radio frequency electromagnetic field is excited on the gap, and electromagnetic waves are radiated to the space.

After the waveguide slot antenna is produced, a large amount of burrs exist at the slot position of the waveguide slot antenna, meanwhile, a large amount of oil stains are also remained on the surface of the waveguide slot antenna, the appearance quality of the waveguide slot antenna is influenced by the oil stains, the use of the waveguide slot antenna is adversely affected by the burrs, therefore, after the slot antenna of the waveguide slot antenna is processed, the oil stains on the surface of the slot antenna are cleaned, the burrs are removed from the slot antenna by cleaning with corrosive cleaning liquid, and for the cleaning of the Ka-band waveguide slot antenna, the defects of inconvenient clamping and fixing, poor cleaning effect, low cleaning efficiency and inconvenient transfer after cleaning exist. Therefore, the living efficiency of the Ka-band waveguide slot antenna is seriously influenced.

Disclosure of Invention

The utility model provides a Ka frequency channel waveguide slot antenna burr processing apparatus to solve the not enough of above-mentioned prior art, carry out the centre gripping location to it when carrying out Ka frequency channel waveguide slot antenna washing, can drive Ka frequency channel waveguide slot antenna and rotate in the cleaning process, apparent improvement Ka frequency channel waveguide slot antenna's cleaning efficiency and cleaning performance, transfer after convenient the washing, thereby apparent improvement Ka frequency channel waveguide slot antenna's production efficiency, stronger practicality has.

In order to realize the purpose of the utility model, the following technologies are adopted:

a Ka frequency channel waveguide slot antenna burr processing apparatus includes:

the placing frame comprises supporting components, wherein placing components are arranged between the supporting components in a circumferential array, the supporting components are provided with driving components, the placing components are used for placing the Ka frequency band waveguide slot antenna, and the driving components are used for driving the placing components to rotate;

transfer frame, including holding the subassembly, it is equipped with lifting unit two pairs to hold the subassembly, is equipped with the transfer subassembly between the lifting unit, and the transfer subassembly is equipped with the holding head, and the holding head is used for supporting component's upper end centre gripping, and the transfer subassembly is used for supporting component's transfer, and lifting unit is used for the lift of transfer subassembly, holds storing that the subassembly is used for corrosive liquid and supporting component's placing.

Further, the supporting component comprises a lower disc and an upper disc, wherein the lower disc is provided with outer convex plates in a circumferential array, the upper disc is provided with outer convex plates in a circumferential array, the outer convex plates are provided with supporting rods which extend upwards, the upper ends of the supporting rods are provided with the outer convex plates, the lower disc is provided with lower supporting rods in a circumferential array which extend downwards, and the lower disc is provided with strip holes in an equally-spaced array.

Further, it includes that the rolling disc is a pair of to place the subassembly, the rolling disc that is located the lower extreme is equipped with the rotation seat, the rolling disc that is located the upper end is equipped with the dwang, it installs in the lower wall to rotate the seat, the hanging wall is located to the dwang, the mated support bar that is equipped with between the rolling disc, the support bar both sides all are equidistant array be equipped with a plurality of pairs of V-arrangement holder, the equal inwardly extending of corner lower extreme of V-arrangement holder is equipped with down the fagging, the equal outwardly extending's in V-arrangement holder both ends fly leaf that is equipped with, the pole that stretches out outward has all been worn to the fly leaf, the support bar is all located to the medial extremity of the pole that stretches out, the outside end of the pole that stretches out all overlaps and is equipped with the spring, the spring outside end all is equipped with the end cap, the end cap is all installed in the pole that stretches out outward.

Further, drive assembly is including installing in the rotation motor of hanging wall, the output shaft that rotates the motor has drive gear, drive gear meshing has outer ring gear, outer ring gear meshing has driven gear a plurality of, driven gear all locates the upper end of dwang, outer ring gear inner wall is equipped with the guide ring, the guide ring inner wall is tangent to have the leading wheel a plurality of, the leading wheel all is equipped with the axis of rotation, the axis of rotation upper end all is equipped with the rotation bearing frame, all be equipped with between the rotation bearing frame and connect the arc board, connect the all inwards extension of arc board and be equipped with the in-connection firmware, the in-connection firmware is all installed in the hanging wall.

Further, hold the subassembly and include that the chassis is a pair of, be equipped with the connecting plate between the chassis, the chassis is all in pairs outwards extended has outer support plate, and outer support plate outside end all is equipped with down the mounting panel, and one of them chassis is being equipped with of circumference array and supports a section of thick bamboo, supports a section of thick bamboo upper end and is equipped with the processing barrel, and the support subassembly is located in the processing barrel, and the bracing piece all wears in a support section of thick bamboo.

Furthermore, the lifting assembly comprises a pair of guide members arranged on the lower mounting plate, and the guide members are provided with lifting members;

the guide component comprises a concave guide piece arranged on the lower mounting plate, the outer side of the concave guide piece is provided with an opening, a rack is arranged in the concave guide piece, the inner wall of the concave guide piece is provided with a guide mounting plate, and guide strips are arranged on two sides of the guide mounting plate;

the lifting component comprises a penetrating plate located between the concave guiding parts, two pairs of guiding idler wheels are arranged on two sides of the penetrating plate, arc walls of the guiding idler wheels are tangent to the guiding strips, outer plates are arranged at two ends of the penetrating plate, lifting bearing seats are arranged at two ends of the outer plates, gears are arranged between every pair of lifting bearing seats on the same side, the gears are meshed with racks, lifting motors are connected to the gears, and the lifting motors are installed on the outer plates.

Further, the transfer subassembly is including installing in the interior solid board that is located inboard planking, every all be equipped with the interconnection diaphragm between to the interior solid board, be equipped with well bridge plate between the interconnection diaphragm, well bridge plate is pairwise to run through there is the key shape hole, well bridge plate both ends all are equipped with the transfer bearing frame, it is four to be equipped with the guide bar between the transfer bearing frame, one of them transfer bearing frame installs the transfer motor, the output shaft that shifts the motor has the screw rod, the screw rod has soon moved the seat, it wears in the guide bar to remove the seat, it is a pair of to remove the pole that is equipped with down of seat downwardly extending, the pole that stretches down all wears in the key shape hole, the pole lower extreme that stretches down is equipped with down the limiting plate.

Further, the clamping head is including installing in the rectangular plate of stretching down the pole lower extreme, and four lateral walls of rectangular plate all outwards extend be equipped with overhanging extension board, and overhanging extension board upper end all is equipped with the hydro-cylinder that extrapolates, and the expansion end of extrapolating the hydro-cylinder all is equipped with down the extension board, and the extension board lower extreme all is equipped with the adapter sleeve, and the adapter sleeve all overlaps and locates overhanging board outside end for the transfer of rack.

The technical scheme has the advantages that:

the utility model discloses carry out the centre gripping location to it when carrying out Ka frequency channel waveguide slot antenna and wasing, can drive Ka frequency channel waveguide slot antenna and rotate in the cleaning process, apparent improvement Ka frequency channel waveguide slot antenna's cleaning efficiency and cleaning performance, transfer after convenient the washing to the improvement of showing Ka frequency channel waveguide slot antenna's production efficiency has stronger practicality.

Drawings

Fig. 1 shows a perspective view of a first embodiment.

Fig. 2 shows a perspective view of the second embodiment.

Fig. 3 shows a three-dimensional structure of one embodiment.

Fig. 4 shows a perspective structural view of one embodiment.

Fig. 5 shows a perspective view of one embodiment.

Fig. 6 shows a partial enlarged view at a.

Fig. 7 shows a partial enlarged view at B.

Fig. 8 shows a partial enlarged view at C.

Fig. 9 shows a partial enlarged view at D.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. indicate the position or positional relationship based on the position or positional relationship shown in the drawings, or the position or positional relationship which is usually placed when the products of the present invention are used, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

The terms "first," "second," and the like are used solely to distinguish one from another and are not to be construed as indicating or implying relative importance.

The terms "parallel", "perpendicular", etc. do not require that the components be absolutely parallel or perpendicular, but may be slightly inclined. For example, "parallel" merely means that the directions are more parallel relative to "perpendicular," and does not mean that the structures are necessarily perfectly parallel, but may be slightly tilted.

Furthermore, the terms "substantially", and the like are intended to indicate that the relative terms are not necessarily strictly required, but may have some deviation. For example: "substantially equal" does not mean absolute equality, but because absolute equality is difficult to achieve in actual production and operation, certain deviations generally exist. Thus, in addition to absolute equality, "substantially equal" also includes the above-described case where there is some deviation. In this case, unless otherwise specified, terms such as "substantially", and the like are used in a similar manner to those described above.

In the description of the present invention, it should also be noted that, unless otherwise explicitly specified or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 9, a Ka band waveguide slot antenna burr processing apparatus includes: a placing frame 1 and a transferring frame 2.

Rack 1, including supporting component 10, be being equipped with of circumference array between the supporting component 10 and place subassembly 11, supporting component 10 is equipped with drive assembly 12, places that subassembly 11 is used for placing of Ka frequency channel waveguide slot antenna, and drive assembly 12 is used for the drive to place subassembly 11 and rotates. Transfer frame 2, including holding subassembly 20, holding subassembly 20 is equipped with lift module 21 two pairs, is equipped with transfer unit 22 between the lift module 21, and transfer unit 22 is equipped with clamping head 23, and clamping head 23 is used for the upper end centre gripping of supporting component 10, and transfer unit 22 is used for the transfer of supporting component 10, and lift module 21 is used for the lift of transfer unit 22, holds storage that subassembly 20 is used for the corrosive liquid and the placing of supporting component 10.

The supporting component 10 comprises a lower disc 100 and an upper disc 105, wherein the lower disc 100 is provided with outer convex plates 101 in a circumferential array, the upper disc 105 is provided with outer convex plates 104 in a circumferential array, the outer convex plates 101 are provided with supporting rods 103 which extend upwards, the upper ends of the supporting rods 103 are arranged on the outer convex plates 104, the lower disc 100 is provided with lower supporting rods 1002 which extend downwards in a circumferential array, and the lower disc 100 is provided with strip holes 1000 in an equally spaced array.

The placing component 11 comprises a pair of rotating discs 111, the rotating discs 111 at the lower end are provided with rotating seats 110, the rotating discs 111 at the upper end are provided with rotating rods 119, the rotating seats 110 are installed on the lower disc 100, the rotating rods 119 are arranged on the upper disc 105, supporting bars 112 are pairwise arranged between the rotating discs 111, two sides of each supporting bar 112 are provided with a plurality of pairs of V-shaped clamping pieces 117 in an equally-spaced array, lower supporting plates 118 are arranged at the lower ends of corners of the V-shaped clamping pieces 117 and extend inwards, movable plates 114 are arranged at two ends of each V-shaped clamping piece 117 and extend outwards, the movable plates 114 are provided with outward extending rods 113 respectively, the inner side ends of the outward extending rods 113 are arranged on the supporting bars 112, springs 116 are sleeved at the outer side ends of the outward extending rods 113, end caps 115 are arranged at the outer side ends of the springs 116, and the end caps 115 are all installed on the outward extending rods 113.

Drive assembly 12 is including installing in the rotation motor 122 of hanging wall 105, the output shaft of rotation motor 122 has drive gear 123, drive gear 123 meshes has outer ring gear 124, outer ring gear 124 meshes has driven gear 125 a plurality ofly, driven gear 125 all locates the upper end of dwang 119, outer ring gear 124 inner wall is equipped with guide ring 1240, guide ring 1240 inner wall is tangent to have guide wheel 126 a plurality ofly, guide wheel 126 all is equipped with axis of rotation 127, axis of rotation 127 upper end all is equipped with rotation bearing frame 128, all be equipped with between the rotation bearing frame 128 and connect arc 1280, it is equipped with interior fastener 1281 all to connect what arc 1280 all inwards extended, interior fastener 1281 all installs in hanging wall 105.

The accommodating component 20 comprises a pair of chassis 200, a connecting plate 201 is arranged between the chassis 200, the chassis 200 is provided with outer supporting plates 202 which extend outwards in pairs, the outer side ends of the outer supporting plates 202 are provided with lower mounting plates 203, one of the chassis 200 is provided with supporting cylinders in a circumferential array, the upper ends of the supporting cylinders are provided with treatment barrels 204, the supporting components 10 are arranged in the treatment barrels 204, and the supporting rods 103 penetrate through the supporting cylinders.

The lifting unit 21 includes a pair of guide members 210 attached to the lower mounting plate 203, and the guide members 210 are provided with lifting members 211. The guide member 210 includes a concave guide 2100 installed on the lower mounting plate 203, an outer side of the concave guide 2100 is opened, a rack is provided in the concave guide 2100, a guide mounting plate 2101 is provided on an inner wall of the concave guide 2100, and guide bars 2102 are provided on both sides of the guide mounting plate 2101. The lifting member 211 comprises a through plate 2112 located between the concave guide pieces 2100, two pairs of guide rollers 2110 are arranged on two sides of the through plate 2112, arc walls of the guide rollers 2110 are tangent to the guide strips 2102, outer plates 2113 are arranged at two ends of the through plate 2112, lifting bearing seats 2114 are arranged at two ends of each outer plate 2113, gears 2115 are arranged between each pair of lifting bearing seats 2114 located on the same side, the gears 2115 are meshed with racks, the gears 2115 are connected with lifting motors 2116, and the lifting motors 2116 are mounted on the outer plates 2113.

The transfer assembly 22 includes inner fixing plates 220 mounted on the inner outer plate 2113, inner transverse plates 221 are disposed between each pair of inner fixing plates 220, a middle bridge plate 222 is disposed between the inner transverse plates 221, pairs of the middle bridge plates 222 are provided with key holes 2220, transfer bearing seats 223 are disposed at two ends of the middle bridge plate 222, four guide rods 228 are disposed between the transfer bearing seats 223, one of the transfer bearing seats 223 is provided with a transfer motor 224, an output shaft of the transfer motor 224 is connected with a screw 229, the screw 229 is screwed with a moving seat 225, the moving seat 225 is inserted into the guide rod 228, a pair of lower extension rods 226 are disposed on the moving seat 225 in a downward extending manner, the lower extension rods 226 are all inserted into the key holes 2220, and a lower limiting plate 227 is disposed at the lower end of the lower extension rods 226.

The clamping head 23 comprises a rectangular plate 230 arranged at the lower end of the lower extension rod 226, four side walls of the rectangular plate 230 extend outwards to form an outer extension plate 231, an outer pushing cylinder 232 is arranged at the upper end of the outer extension plate 231, a lower extension plate 233 is arranged at the movable end of the outer pushing cylinder 232, a connecting sleeve 234 is arranged at the lower end of the lower extension plate 233, and the connecting sleeve 234 is sleeved at the outer end of the outer extension plate 104 and used for transferring the placing frame 1.

The device is according to the problem that exists among the prior art, carry out the clearance of burr and greasy dirt through rack 1 and transfer frame 2 to Ka frequency channel waveguide slot antenna, wherein the subassembly 11 of placing in rack 1 can carry out the stable of a plurality of Ka frequency channel waveguide slot antennas and place, and drive assembly 12 can drive Ka frequency channel waveguide slot antenna and rotate, can throw away burr etc. from Ka frequency channel waveguide slot antenna in the processing procedure, thereby the treatment effect and the treatment effeciency of Ka frequency channel waveguide slot antenna have been improved. The transfer frame 2 is mainly used for transferring the placing frame 1, so that the automation degree of processing burrs and oil stains of the Ka-band waveguide slot antenna is realized. Wherein, the holding head 23 can be fixed the upper end of rack 1, and transfer assembly 22 can drive holding head 23 and remove, and lifting unit 21 can drive transfer assembly 22 and carry out elevating movement, and hold subassembly 20 and provide accommodation space for the washing 6 of Ka frequency channel waveguide slot antenna. When wasing, generally fix a plurality of Ka frequency channel waveguide crack antenna centre gripping on placing subassembly 11, then, place subassembly 11 through drive assembly 12 drive and rotate, wherein take place vibrations in order to prevent whole rack 1, consequently there is lower vaulting pole 1002 at lower wall 100 to be the downwardly extending of circumference array, will insert simultaneously and establish in a prop section of thick bamboo, then carry out the processing of Ka frequency channel waveguide crack antenna burr in handling bucket 204, after the completion, carry out the centre gripping location through holding head 23 to the upper end of rack 1, then shift out rack 1 from handling bucket 204 through lifting unit 21, then shift rack 1 to another chassis 200 through transferring subassembly 22 on, take out Ka frequency channel waveguide crack antenna from rack 1 at last.

When the Ka-band waveguide slot antenna is placed, the Ka-band waveguide slot antenna is placed between the pair of V-shaped clamping pieces 117, the lower supporting plate 118 supports the Ka-band waveguide slot antenna, and the V-shaped clamping pieces 117 complete the fixation of the Ka-band waveguide slot antenna under the action of the springs 116.

When the driving assembly 12 is in operation, the rotating motor 122 is started, the driving gear 123 is driven by the rotating motor 122 to rotate, the rotation of the driving gear 123 drives the rotation of the outer gear ring 124, the rotation of the outer gear ring 124 drives the rotation of the driven gear 125, the rotation of the driven gear 125 drives the rotation of the rotating shaft 127, and thus the rotation of the placing assembly 11 is realized, wherein the guide ring 1240 and the guide wheel 126 play a guiding and limiting role in the rotation of the outer gear ring 124.

When the lifting assembly 21 operates, the lifting motor 2116 is started, each gear 2115 rotates under the driving of the lifting motor 2116, and the gears 2115 interact with the racks in the rotating process to finally drive the lifting movement of the transfer assembly 22, wherein the arrangement of the guide rollers 2110 and the guide strips 2102 can improve the movement stability and the movement flexibility of the lifting assembly 21.

When the transfer assembly 22 is in operation, the transfer motor 224 is activated, and the activation of the transfer motor 224 will drive the rotation of the screw 229, and the rotation of the screw 229 will drive the moving seat 225 to move along the guiding rod 228, and the movement of the moving seat 225 will drive the horizontal movement of the holding head 23, thereby completing the horizontal transfer of the rack 1.

When the holding frame 1 is fixed, the outward pushing cylinder 232 drives the connecting sleeve 234 to move until the connecting sleeve 234 moves to the outer end of the outward extending plate 104 and then moves inward, and then the connecting sleeve 234 penetrates through the outer end of the outward extending plate 104, so that the holding frame 1 is fixed.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and it is obvious that those skilled in the art can make various changes and modifications to the present invention without departing from the spirit and scope of the present invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (8)

1. The utility model provides a Ka frequency channel waveguide slot antenna burr processing apparatus which characterized in that includes:

the placing frame (1) comprises supporting components (10), placing components (11) are arranged between the supporting components (10) in a circumferential array, driving components (12) are arranged on the supporting components (10), the placing components (11) are used for placing the Ka-band waveguide slot antenna, and the driving components (12) are used for driving the placing components (11) to rotate;

transfer frame (2), including holding subassembly (20), it is equipped with lifting unit (21) two pairs to hold subassembly (20), be equipped with between lifting unit (21) and shift subassembly (22), it is equipped with clamping head (23) to shift subassembly (22), clamping head (23) are used for the upper end centre gripping of supporting component (10), it is used for the transfer of supporting component (10) to shift subassembly (22), lifting unit (21) are used for shifting the lift of subassembly (22), it is used for storing of corrosive liquid and the placing of supporting component (10) to hold subassembly (20).

2. The Ka-band waveguide slot antenna burr processing device according to claim 1, wherein the supporting assembly (10) comprises a lower disc (100) and an upper disc (105), the lower disc (100) is provided with outward protruding plates (101) in a circumferential array, the upper disc (105) is provided with outward protruding plates (104) in a circumferential array, the outward protruding plates (101) are provided with supporting rods (103) extending upwards, the upper ends of the supporting rods (103) are provided with the outward protruding plates (104), the lower disc (100) is provided with downward supporting rods (1002) in a circumferential array, and the lower disc (100) is provided with elongated holes (1000) in an equally spaced array.

3. The Ka-band waveguide slot antenna burr treatment device according to claim 2, wherein the placement assembly (11) comprises a pair of rotating discs (111), the rotating disc (111) at the lower end is provided with a rotating base (110), the rotating disc (111) at the upper end is provided with a rotating rod (119), the rotating base (110) is installed on the lower disc (100), the rotating rod (119) is arranged on the upper disc (105), support bars (112) are pairwise arranged between the rotating discs (111), two sides of each support bar (112) are provided with a plurality of pairs of V-shaped clamping members (117) in an equally spaced array, lower support plates (118) are arranged at the lower ends of corners of the V-shaped clamping members (117) and extend inwards, movable plates (114) are arranged at two ends of each V-shaped clamping member (117) and extend outwards, outward extending rods (113) penetrate through the movable plates (114), and inner side ends of the outward extending rods (113) are arranged on the support bars (112), the outer ends of the outer extending rods (113) are all sleeved with springs (116), the outer ends of the springs (116) are all provided with end caps (115), and the end caps (115) are all installed on the outer extending rods (113).

4. The Ka-band waveguide slot antenna burr treatment device according to claim 3, wherein the driving assembly (12) comprises a rotating motor (122) installed on the upper disc (105), an output shaft of the rotating motor (122) is connected with a driving gear (123), the driving gear (123) is meshed with an outer gear ring (124), a plurality of driven gears (125) are meshed with the outer gear ring (124), the driven gears (125) are all arranged at the upper end of the rotating rod (119), a guide ring (1240) is arranged on the inner wall of the outer gear ring (124), a plurality of guide wheels (126) are tangent to the inner wall of the guide ring (1240), each guide wheel (126) is provided with a rotating shaft (127), rotating bearing seats (128) are arranged at the upper ends of the rotating shafts (127), connecting arc plates (1280) are arranged between the rotating bearing seats (128), inner connecting fasteners (1281) are arranged on the connecting arc plates (1280) and extend inwards, and the inner fasteners (1281) are all installed on the upper disc (105).

5. The Ka-band waveguide slot antenna burr treatment device according to claim 4, wherein the accommodating assembly (20) comprises a pair of chassis (200), a connecting plate (201) is arranged between the chassis (200), the chassis (200) are respectively provided with an outer support plate (202) in pair in an outward extending mode, the outer side ends of the outer support plates (202) are respectively provided with a lower mounting plate (203), one of the chassis (200) is provided with a support cylinder in a circumferential array, a treatment barrel (204) is arranged at the upper end of the support cylinder, the support assembly (10) is arranged in the treatment barrel (204), and the support rods (103) are respectively penetrated through the support cylinders.

6. The device for processing the burr of the Ka-band waveguide slot antenna according to claim 5, wherein the lifting assembly (21) comprises a pair of guide members (210) mounted on the lower mounting plate (203), and the guide members (210) are provided with lifting members (211);

the guide member (210) comprises a concave guide piece (2100) arranged on the lower mounting plate (203), the outer side of the concave guide piece (2100) is opened, a rack is arranged in the concave guide piece (2100), a guide mounting plate (2101) is arranged on the inner wall of the concave guide piece (2100), and guide strips (2102) are arranged on two sides of the guide mounting plate (2101);

lifting member (211) are including wearing board (2112) that is located between concave guide (2100), the both sides of wearing board (2112) all are equipped with guide roller (2110) two pairs, the arc wall of guide roller (2110) all is tangent in gib block (2102), the both ends of wearing board (2112) all are equipped with planking (2113), the both ends of planking (2113) all are equipped with lift bearing frame (2114), be located and all be equipped with gear (2115) between every pair lift bearing frame (2114) of homonymy, gear (2115) all mesh in the rack, gear (2115) all are connected with elevator motor (2116), elevator motor (2116) are all installed in planking (2113).

7. The Ka-band waveguide slot antenna burr processing device according to claim 6, wherein the transfer assembly (22) comprises inner fixing plates (220) mounted on an inner outer plate (2113), an inner transverse plate (221) is arranged between each pair of inner fixing plates (220), a middle bridge plate (222) is arranged between the inner transverse plates (221), the middle bridge plates (222) are provided with key-shaped holes (2220) in pairs, transfer bearing seats (223) are arranged at both ends of the middle bridge plate (222), four guide rods (228) are arranged between the transfer bearing seats (223), one of the transfer bearing seats (223) is provided with a transfer motor (224), an output shaft of the transfer motor (224) is connected with a screw rod (229), a moving seat (225) is screwed on the screw rod (229), the moving seat (225) penetrates through the guide rod (228), a pair of lower extension rods (226) is arranged in a manner that the moving seat (225) extends downwards, and the lower extension rods (226) penetrate through the key-shaped holes (2220), the lower end of the lower extension rod (226) is provided with a lower limiting plate (227).

8. The Ka-band waveguide slot antenna burr treatment device according to claim 7, wherein the clamping head (23) comprises a rectangular plate (230) installed at the lower end of the lower extension rod (226), four side walls of the rectangular plate (230) are provided with outward extending support plates (231) which extend outwards, the upper ends of the outward extending support plates (231) are provided with outward pushing oil cylinders (232), the movable ends of the outward pushing oil cylinders (232) are provided with downward extending plates (233), the lower ends of the downward extending plates (233) are provided with connecting sleeves (234), and the connecting sleeves (234) are sleeved at the outer ends of the outward extending plates (104) and used for transferring the placement frame (1).

Images