CN114226864B - Wedge structure processing equipment for wave-absorbing material production - Google Patents

Abstract

The invention relates to the technical field of wave-absorbing material processing, in particular to wedge structure processing equipment for wave-absorbing material production. The device comprises a bottom body, a processing body is arranged in the bottom body, and the processing body at least comprises: the movable body comprises a sliding body, a supporting body is arranged at the top of the sliding body, a supporting plate is arranged at the top of the supporting body, a rotating groove penetrating through the surface of the supporting plate is formed in the top of the supporting plate, a pair of backboard is arranged in the rotating groove, a board opening is formed in the surface of the backboard, a cutting knife is inserted and matched in the board opening, a rotating shaft is arranged at the bottom of the backboard, and the rotating shaft is positioned in the rotating groove and is in rotating connection with the rotating groove; the fixed body, the fixed body includes the roof, and the roof has been seted up and has been run through its surperficial roof, is equipped with the hanger plate in the roof, and the guide slot has been seted up to hanger plate bottom surface, is equipped with the connector in the guide slot, and the connecting plate top is equipped with slide, slide and guide slot sliding connection, and connecting plate bottom symmetry is equipped with the contact plate. The invention mainly provides wedge structure processing equipment for producing a wave-absorbing material.

Description

Wedge structure processing equipment for wave-absorbing material production

Technical Field

The invention relates to the technical field of wave-absorbing material processing, in particular to wedge structure processing equipment for wave-absorbing material production.

Background

The wave absorbing material is a material capable of absorbing or greatly weakening electromagnetic wave energy received by the surface of the wave absorbing material so as to reduce electromagnetic wave interference, and generally has various shapes such as a wedge shape, a coating shape, a structural shape and the like, wherein an absorber adopted by a microwave darkroom is often made into the wedge shape, and the wedge shape can guide incident electromagnetic waves to be reflected in the wedge for multiple times, so that absorption loss is greatly increased, and reflection of the electromagnetic waves is reduced.

According to different actual demands, the wedge angles of the wave-absorbing materials are different, however, because the existing wedge-shaped wave-absorbing material production equipment can only produce wedge materials with single angles, the actual production demands cannot be met, and the industrial production of the wedge materials is not facilitated, so that the adjustable wave-absorbing material wedge structure processing equipment is required.

Disclosure of Invention

The invention aims to provide wedge structure processing equipment for producing a wave-absorbing material, so as to solve the problems in the background technology.

In order to achieve the above object, the present invention provides a wedge structure processing device for producing a wave absorbing material, comprising a bottom body, wherein the bottom body comprises a bottom plate, the four corners of the bottom plate are provided with struts, a first groove is formed in the middle of one side of the top of the bottom plate, a processing body is arranged in the first groove, and the processing body at least comprises:

the movable body comprises a sliding body positioned in the first groove, the sliding body is in sliding connection with the first groove, a supporting body is arranged at the top of the sliding body, a supporting plate is arranged at the top of the supporting body, a rotating groove penetrating through the surface of the supporting plate is formed in the top of the supporting plate, a pair of backboard is arranged in the rotating groove, a board opening is formed in the surface of the backboard, a cutting knife is inserted and matched in the board opening, a rotating shaft is arranged at the bottom of the backboard, and the rotating shaft is positioned in the rotating groove and is in rotating connection with the rotating groove;

the fixed body, the fixed body include the bottom with roof that the pillar top is connected, the roof has been seted up and has been run through its surperficial roof groove, be equipped with the hanger plate in the roof groove, the guide slot has been seted up to hanger plate bottom surface, be equipped with the connector in the guide slot, the connector is including being located the connecting plate in the guide slot, the connecting plate top is equipped with the slide, the slide with guide slot sliding connection, connecting plate bottom symmetry is equipped with the contact plate.

As a further improvement of the technical scheme, a second groove is formed in the first groove, a first screw rod is rotationally connected in the second groove, a second opening penetrating through the surface of the sliding body is formed in the sliding body, the second opening is a circular penetrating opening with internal threads, and the first screw rod penetrates through the second opening and is in threaded connection with the second opening.

As a further improvement of the technical scheme, a fourth groove is formed in the top of the sliding body, the bottom of the supporting body is rotationally connected with the fourth groove, and a lock rod is arranged on one side of the supporting body.

As a further improvement of the technical scheme, a first plate is arranged on the surface of the first screw, a third groove is symmetrically arranged at two ends of the top surface of the bottom plate, a second plate is slidably connected in the third groove, the second plate is of a 'soil' structure with a circular penetrating opening formed in the top, and the lock rod penetrates through the first plate to be in plug-in fit with the first plate, or penetrates through the second plate to be in plug-in fit with the second plate.

As a further improvement of the technical scheme, lock grooves are symmetrically formed in the two ends of the bottom plate, pull rods are arranged in the lock grooves, springs are sleeved on the surfaces of the pull rods, the springs are connected with the lock grooves, three ports are correspondingly formed in the two sides of the sliding body, and one ends of the pull rods are in plug-in fit with the three ports.

As a further improvement of the technical scheme, semi-rings are arranged at the two ends of the supporting plate close to the top ends, a plurality of ring openings are formed in the surfaces of the semi-rings, a slot is formed in one side of the rotating shaft, a plugboard is inserted and matched in the slot, a plugboard is arranged on one side of the plugboard, and the plugboard is inserted and matched with the ring openings.

As a further improvement of the technical scheme, sliding grooves are formed in two sides of the top groove, sliding strips are correspondingly arranged on two sides of the hanging plate, the sliding strips are in sliding connection with the sliding grooves, a servo motor is arranged on one side of the top plate top, a driving shaft is connected with one side of the servo motor in a transmission mode, a screw opening is correspondingly formed in the top of the hanging plate, and the driving shaft penetrates through the screw opening and is in threaded connection with the screw opening.

As a further improvement of the technical scheme, connecting rods are arranged at four corners of the bottom of the top plate and are in plug-in fit with the struts, through holes are formed in the top plate, the through holes are communicated with the top grooves, hanging rods are arranged on one side of the hanging plate and are in plug-in fit with cutting sleeves, the cutting sleeves are located in the through holes, a middle plate is arranged at the top of one side of the bottom plate, a plurality of first holes are formed in the surface of the middle plate, and the cutting sleeves penetrate through the first holes and are in plug-in fit with the first holes.

As a further improvement of the technical scheme, connecting grooves are symmetrically formed in the connecting plate, a second screw rod is rotationally connected in the connecting grooves, a sliding block is arranged on the surface of the second screw rod and is in threaded connection with the second screw rod, the sliding block is located in the connecting grooves and is in sliding connection with the connecting grooves, and the bottom of the sliding block is connected with the contact plate.

As a further improvement of the technical scheme, a block opening is formed in the bottom of the sliding block, the top of the contact plate is rotationally connected with the block opening, a third plate is arranged on one side of the contact plate, a fourth opening is formed in the other side of the contact plate, a third screw rod is rotationally connected with the fourth opening in a rotating mode, the third screw rod is connected with the fourth plate, a fifth plate is arranged on one side of the fourth plate, and the third screw rod is in threaded connection with the fifth plate

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

1. in the wedge structure processing equipment for producing the wave-absorbing material, the support body can be driven to rotate in the fourth groove through the lock rod by means of rotating connection and the lock rod, so that wedge processing of the wave-absorbing material is facilitated.

2. In this wedge structure processing equipment for wave-absorbing material production, can improve the height of roof according to the size of wave-absorbing material, make simultaneously when the supporter removes drive the cutting ferrule in inserting a number mouth to the stability of roof when guaranteeing to process.

3. In this wedge structure processing equipment for wave-absorbing material production, can drive the slider through rotating No. two screw rods and be close to wave-absorbing material, make No. four boards remove and carry out the centre gripping fixedly with No. three board cooperation to wave-absorbing material through rotatory No. three screw rods.

Drawings

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

FIG. 2 is a schematic view of the cross-sectional structure of the bottom body of the present invention;

FIG. 3 is a schematic view of a structure of a processing body according to the present invention;

FIG. 4 is a schematic view of a sliding body structure according to the present invention;

FIG. 5 is a schematic view of a support structure according to the present invention;

FIG. 6 is a schematic view of a back plate structure according to the present invention;

FIG. 7 is a schematic cross-sectional view of a top plate according to the present invention;

FIG. 8 is a schematic view of a portion of a stationary body according to the present invention;

FIG. 9 is a schematic cross-sectional view of a connector portion of the present invention;

FIG. 10 is a schematic diagram of two structures of a connector portion according to the present invention.

The meaning of each reference sign in the figure is:

1. a bottom body;

11. a bottom plate; 111. a support post; 112. a first groove; 113. a second groove; 114. a first screw; 115. a first plate; 116. a middle plate; 117. a first port; 118. a third groove; 119. a second plate; 12. a pull rod; 121. a spring;

2. processing a body;

21. a moving body; 22. a fixed body; 23. a sliding body; 231. a second port; 232. a fourth groove; 233. a third port; 24. a support body; 241. a supporting plate; 242. a rotary groove; 243. a half ring; 244. a ring opening; 245. a lock lever; 25. a back plate; 251. a plate opening; 252. a cutting knife; 253. a rotating shaft; 254. a slot; 255. inserting plate; 256. a rod; 26. a top plate; 261. a top groove; 262. a chute; 263. a connecting rod; 264. a through port; 27. a hanger plate; 271. a guide groove; 272. a slide bar; 273. a screw; 274. a boom; 28. a servo motor; 281. a drive shaft; 29. a cutting sleeve;

3. a connecting body;

31. a connecting plate; 311. a slide plate; 312. a connecting groove; 313. a second screw; 314. a slide block; 315. a block opening; 32. a contact plate; 321. a third plate; 322. a fourth plate; 323. a fourth port; 324. a third screw; 325. and a fifth plate.

Description of the embodiments

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Examples

Referring to fig. 1-8, an objective of the present embodiment is to provide a wedge structure processing device for producing a wave absorbing material, including a bottom body 1, the bottom body 1 includes a bottom plate 11, the bottom plate 11 is a square plate, four corners of the bottom plate 11 are provided with supporting columns 111, the supporting columns 111 are cubes, a first groove 112 is provided in a middle portion of one side of a top of the bottom plate 11, the first groove 112 is an inverted "T" structure groove, a processing body 2 is provided in the first groove 112, and the processing body 2 at least includes:

the movable body 21, the movable body 21 includes the sliding body 23 located in the first trough 112, the sliding body 23 is of the inverted T-shaped structure, the sliding body 23 is slidably connected with the first trough 112, the top of the sliding body 23 is provided with the supporting body 24, the top of the supporting body 24 is provided with the supporting plate 241, the supporting plate 241 is a square plate, the top of the supporting plate 241 is provided with the rotating groove 242 penetrating through the surface of the supporting plate, the rotating groove 242 is a round through hole, a pair of backboard 25 is arranged in the rotating groove 242, the backboard 25 is a square plate, the surface of the backboard 25 is provided with the board opening 251, the board opening 251 is a round through hole, the cutting knife 252 is inserted and matched in the board opening 251, the bottom of the backboard 25 is provided with the rotating shaft 253, and the rotating shaft 253 is located in the rotating groove 242 and is rotationally connected with the rotating groove 242;

the fixed body 22, the fixed body 22 includes the roof 26 that the bottom is connected with pillar 111 top, roof 26 has seted up the roof 261 that runs through its surface, roof 261 is square wearing mouth, be equipped with hanger plate 27 in the roof 261, hanger plate 27 bottom surface has seted up the guide slot 271, the guide slot 271 is "T" structural groove, be equipped with connector 3 in the guide slot 271, connector 3 is including the connecting plate 31 that is located the guide slot 271, connecting plate 31 top is equipped with slide 311, slide 311 is "T" structural plate, slide 311 and guide slot 271 sliding connection, connecting plate 31 bottom symmetry is equipped with contact plate 32.

In the embodiment, when the wave-absorbing material is specifically used, after the wave-absorbing material is clamped and fixed by the contact plate 32, the backboard 25 is rotated in the rotating groove 242 by taking the rotating shaft 253 as an axis according to the wedge angle required to be formed, so that the backboard 25 drives the cutting knives 252 to deflect, the two cutting knives 252 form a V shape, the plugboard 255 is inserted into the rotating shaft 253 and the plugboard 256 is aligned with the annular opening 244 to complete the angle fixation of the cutting knives 252, the first screw 114 is rotated, so that the first screw 114 drives the sliding body 23 to move along the pull rod 12 until the cutting knives 252 are close to the wave-absorbing material and cut off the redundant part, the first screw 114 is rotated reversely, so that the cutting knives 252 are far away from the wave-absorbing material, the connecting plate 31 is slid along the guide groove 271, the first screw 114 is rotated to enable the sliding body 23 to move to the cut off position, the pull rod 12 is inserted into the third opening 233 under the action of the spring 121, the lock rod 245 is held to enable the supporting body 24 to rotate in the fourth groove 232, the lock rod 245 is inserted into the second plate 119, the fixing of the supporting body 24 is completed, the wedge 271 is rotated, the redundant wave-absorbing material is cut off again, and the redundant wave-absorbing material is cut off by the first screw 114.

Further, in order to facilitate the control of the movement of the sliding body 23, the first groove 112 is provided with the second groove 113, the second groove 113 is a groove with a 'T' -shaped cylinder structure, the second groove 113 is rotationally connected with the first screw 114, the sliding body 23 is provided with the second opening 231 penetrating through the surface of the second groove, the second opening 231 is a circular penetrating opening with internal threads, the first screw 114 penetrates through the second opening 231 and is in threaded connection with the second opening 231, and the first screw 114 can drive the second opening 231 to move in the first groove 112 in a manner of threaded connection in the second groove 113, so that the movement of the sliding body 23 is conveniently controlled.

Further, in order to improve the machining efficiency to the wave-absorbing material, no. four grooves 232 have been seted up at slider 23 top, no. four grooves 232 are the cylinder structure recess of falling "T", and support 24 bottom corresponds to be equipped with the cylinder of falling "T" and is protruding, and support 24 bottom and No. four grooves 232 rotate to be connected, and support 24 one side is equipped with locking lever 245, through being equipped with the mode of rotating connection and locking lever 245 for can drive support 24 through locking lever 245 and rotate in No. four grooves 232, thereby be convenient for the wedge processing to the wave-absorbing material.

Still further, in order to avoid the rotation of support 24 during processing, a first screw 114 is provided with a first plate 115 on the surface, the first plate 115 is a square plate with round openings at the upper and lower ends, a lock rod 245 penetrates through the first plate 115 to be in plug-in fit with the first plate 115, the two ends of the top surface of bottom plate 11 are symmetrically provided with a third groove 118, the third groove 118 is an inverted T-shaped structure groove, a second plate 119 is slidably connected in the third groove 118, the second plate 119 is a 'soil' structure with round openings at the top, the lock rod 245 penetrates through the second plate 119 to be in plug-in fit with the second plate 119, and the lock rod 245 is fixed in a plug-in fit mode, so that the fixation of the support 24 during processing is ensured.

Furthermore, considering that the stability of the sliding body 23 needs to be ensured during processing, the locking grooves are symmetrically formed in the two ends of the bottom plate 11, the locking grooves are cylindrical structure grooves, the pull rods 12 are arranged in the locking grooves, the pull rods 12 are dry-type cylinders, the surfaces of the pull rods 12 are sleeved with the springs 121, the springs 121 are connected with the locking grooves, the three openings 233 are correspondingly formed in the two sides of the sliding body 23, the three openings 233 are cylindrical structure grooves, one end of each pull rod 12 is in plug-in fit with the three openings 233, and the sliding body 23 can be fixed in a plug-in fit mode, so that the stability of the sliding body 23 during processing is ensured.

In addition, in order to avoid unexpected rotation of backplate 25 during processing, the both ends of fagging 241 are equipped with semi-ring 243 near the top, and semi-ring 243 surface has seted up a plurality of ring mouths 244, and ring mouths 244 are cylindrical structure recess, and slot 254 has been seted up to pivot 253 one side, and slot 254 is the square groove, and insert the cooperation in slot 254 has picture peg 255, and picture peg 255 is the square board, and picture peg 255 one side is equipped with inserted bar 256, and inserted bar 256 and ring mouths 244 are pegged graft the cooperation, through adopting the mode of pegging graft cooperation for the deflection angle of backplate 25 is fixed, thereby makes and can carry out wedge processing to the wave absorbing material.

Examples

Referring to fig. 7-8, in order to facilitate processing of different sizes of wave-absorbing materials, the following modifications are made in this embodiment based on embodiment 1:

wherein, in order to be convenient for the removal of wave-absorbing material during processing, the spout 262 has been seted up to both sides in the roof groove 261, the spout 262 is semi-cylindrical structure recess, hanger plate 27 both sides correspond and are equipped with the draw runner 272, draw runner 272 is semi-cylindrical structure arch, draw runner 272 and spout 262 sliding connection, roof 26 top one side is equipped with servo motor 28, servo motor 28 one side transmission is connected with drives the axle 281, hanger plate 27 top corresponds and has seted up screw 273, screw 273 is the circular wearing mouth of internal screw thread, drive axle 281 passes screw 273 and screw 273 threaded connection, through adopting sliding connection and threaded connection's mode for supporter 24 can be along roof groove 261 removal, thereby the removal of wave-absorbing material is convenient for.

Further, in order to be convenient for process the wave absorbing material of equidimension, roof 26 bottom four corners department is equipped with connecting rod 263, connecting rod 263 and pillar 111 grafting cooperation, the opening 264 has been seted up in the roof 26, opening 264 is circular wearing mouth, opening 264 is linked together with roof groove 261, hanger plate 27 one side is equipped with jib 274, the jib 274 grafting cooperation has cutting ferrule 29, cutting ferrule 29 is located opening 264, bottom plate 11 one side top is equipped with medium plate 116, a plurality of openings 117 have been seted up on the medium plate 116 surface, opening 117 is circular wearing mouth, cutting ferrule 29 passes opening 117 and opening 117 grafting cooperation, through adopting grafting cooperation mode, in order to improve the height of roof 26 according to the size of wave absorbing material, simultaneously make support 24 move in the synchronous drive cutting ferrule 29 inserts opening 117, stability of roof 26 during processing.

Examples

Referring to fig. 9-10, in order to ensure stable connection of the wave-absorbing material during processing, so as to avoid influence on the processing effect due to loosening of the wave-absorbing material, the following improvement is made on the basis of embodiment 1:

in order to ensure the fixing effect on the wave-absorbing material, the connecting plate 31 is internally and symmetrically provided with a connecting groove 312, the connecting groove 312 is a square groove, a second screw 313 is rotationally connected in the connecting groove 312, a sliding block 314 is arranged on the surface of the second screw 313, the sliding block 314 is in threaded connection with the second screw 313, the sliding block 314 is located in the connecting groove 312 and is in sliding connection with the connecting groove 312, the bottom of the sliding block 314 is connected with a contact plate 32, and the sliding block 314 can be driven by rotating the second screw 313, namely the contact plate 32, to be close to the wave-absorbing material by adopting a sliding connection and threaded connection mode, so that the clamping and fixing on the wave-absorbing material are facilitated.

Further, considering that the wave absorbing material has different shapes, in order to be convenient for fix the wave absorbing material, the block opening 315 is provided at the bottom of the slider 314, the block opening 315 is a groove with a 'T' -shaped cylindrical structure, the top of the contact plate 32 is correspondingly provided with a 'T' -shaped cylindrical protrusion, the top of the contact plate 32 is rotationally connected with the block opening 315, the contact plate 32 is a hollow cube, one side of the contact plate 32 is provided with a third plate 321, the third plate 321 is a square plate, the other side of the contact plate 32 is provided with a fourth opening 323, the fourth opening 323 is a circular penetrating opening, the fourth opening 323 is rotationally connected with a third screw 324, the third screw 324 is connected with a fourth plate 322, the fourth plate 322 is a square plate, one side of the fourth plate 322 is provided with a fifth plate 325, the fifth plate 325 is a square plate provided with a threaded circular penetrating opening, the third screw 324 is in threaded connection with the fifth plate 325, the contact plate 32 can rotate in the block opening 315 in a rotationally connected and the third screw 324 is rotationally matched with the third plate 321 to clamp the wave absorbing material.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above-described embodiments, and that the above-described embodiments and descriptions are only preferred embodiments of the present invention, and are not intended to limit the invention, and that various changes and modifications may be made therein without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. Wedge structure processing equipment is used in production of wave-absorbing material, its characterized in that: including bottom body (1), bottom body (1) includes bottom plate (11), bottom plate (11) four corners department is equipped with pillar (111), a groove (112) has been seted up at bottom plate (11) top one side middle part, be equipped with in a groove (112) and process body (2), process body (2) include at least:

the movable body (21), the movable body (21) comprises a sliding body (23) positioned in the first groove (112), the sliding body (23) is in sliding connection with the first groove (112), a supporting body (24) is arranged at the top of the sliding body (23), a supporting plate (241) is arranged at the top of the supporting body (24), a rotating groove (242) penetrating through the surface of the supporting plate (241) is formed in the top of the supporting plate, a pair of backboard (25) is arranged in the rotating groove (242), a board opening (251) is formed in the surface of the backboard (25), a cutting knife (252) is inserted and matched in the board opening (251), a rotating shaft (253) is arranged at the bottom of the backboard (25), and the rotating shaft (253) is positioned in the rotating groove (242) and is in rotating connection with the rotating groove (242).

The fixed body (22), fixed body (22) include the bottom with roof (26) that pillar (111) top is connected, roof (26) have been seted up and have been run through roof groove (261) on its surface, be equipped with hanger plate (27) in roof groove (261), guide slot (271) have been seted up on hanger plate (27) bottom surface, be equipped with connector (3) in guide slot (271), connector (3) are including being located connecting plate (31) in guide slot (271), connecting plate (31) top is equipped with slide (311), slide (311) with guide slot (271) sliding connection, connecting plate (31) bottom symmetry is equipped with contact plate (32).

2. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 1, wherein: the novel sliding type automobile seat is characterized in that a second groove (113) is formed in the first groove (112), a first screw (114) is rotationally connected to the second groove (113), a second opening (231) penetrating through the surface of the sliding body (23) is formed in the sliding body, the second opening (231) is a circular penetrating opening with internal threads, and the first screw (114) penetrates through the second opening (231) and is in threaded connection with the second opening (231).

3. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 2, wherein: the sliding device is characterized in that a fourth groove (232) is formed in the top of the sliding body (23), the bottom of the supporting body (24) is rotationally connected with the fourth groove (232), and a lock rod (245) is arranged on one side of the supporting body (24).

4. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 3, wherein: the novel screw is characterized in that a first plate (115) is arranged on the surface of the first screw (114), a third groove (118) is symmetrically arranged at two ends of the top surface of the bottom plate (11), a second plate (119) is connected in the third groove (118) in a sliding mode, the second plate (119) is of a 'soil' structure with a circular penetrating opening formed in the top, and a lock rod (245) penetrates through the first plate (115) to be in plug-in fit with the first plate (115) or penetrates through the second plate (119) to be in plug-in fit with the second plate (119).

5. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 1, wherein: the novel sliding type automobile seat is characterized in that locking grooves are symmetrically formed in two ends of the bottom plate (11), a pull rod (12) is arranged in each locking groove, a spring (121) is sleeved on the surface of each pull rod (12), the springs (121) are connected with the inside of each locking groove, three ports (233) are correspondingly formed in two sides of the sliding body (23), and one end of each pull rod (12) is in plug-in connection with each three port (233).

6. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 1, wherein: semi-rings (243) are arranged at two ends of the supporting plate (241) near the top ends, a plurality of ring openings (244) are formed in the surfaces of the semi-rings (243), slots (254) are formed in one side of the rotating shaft (253), inserting plates (255) are inserted and matched in the slots (254), inserting rods (256) are arranged on one side of each inserting plate (255), and the inserting rods (256) are inserted and matched with the ring openings (244).

7. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 1, wherein: spout (262) have been seted up to both sides in roof groove (261), hanger plate (27) both sides correspond and are equipped with draw runner (272), draw runner (272) with spout (262) sliding connection, roof (26) top one side is equipped with servo motor (28), servo motor (28) one side transmission is connected with drives axle (281), hanger plate (27) top corresponds and has seted up screw (273), drive axle (281) pass screw (273) with screw (273) threaded connection.

8. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 1, wherein: connecting rods (263) are arranged at four corners of the bottom of the top plate (26), the connecting rods (263) are matched with the struts (111) in a plugging mode, through holes (264) are formed in the top plate (26), the through holes (264) are communicated with the top grooves (261), hanging rods (274) are arranged on one side of the hanging plate (27), cutting sleeves (29) are matched with the hanging rods (274) in a plugging mode, the cutting sleeves (29) are located in the through holes (264), a middle plate (116) is arranged at the top of one side of the bottom plate (11), a plurality of first openings (117) are formed in the surface of the middle plate (116), and the cutting sleeves (29) penetrate through the first openings (117) and are matched with the first openings (117) in a plugging mode.

9. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 1, wherein: connecting plate (31) in symmetry be equipped with spread groove (312), spread groove (312) internal rotation is connected with No. two screw rods (313), no. two screw rod (313) surface is equipped with slider (314), slider (314) with No. two screw rods (313) threaded connection, slider (314) are located spread groove (312) in with spread groove (312) sliding connection, slider (314) bottom is connected with contact plate (32).

10. The wedge structure processing apparatus for producing a wave-absorbing material according to claim 9, wherein: the utility model discloses a slider, including slider (314), contact plate (32) top with piece mouth (315) rotate and are connected, contact plate (32) one side is equipped with No. three boards (321), no. four mouthfuls (323) have been seted up to contact plate (32) opposite side, no. four mouthfuls (323) internal rotation is connected with No. three screw rods (324), no. three screw rods (324) are connected with No. four boards (322), no. four boards (322) one side is equipped with No. five boards (325), no. three screw rods (324) with No. five boards (325) threaded connection.

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