CN114383386A - Surface dehumidification structure for absorbing material - Google Patents

Abstract

The invention relates to the technical field of wave-absorbing materials, in particular to a surface dehumidifying structure for a wave-absorbing material. It includes the top body, and the top body includes the roof, and the top groove has been seted up to the roof, and the top inslot is equipped with a plurality of bottoms bodies, and the bottom body includes at least: the contact body comprises a top block, the bottom of the top block is connected with an intermediate plate, the bottom of the intermediate plate is provided with a contact block, two ends of the contact block are symmetrically provided with side shafts, the side shafts are connected with a structure frame, the structure frame comprises a structure plate, the structure plate is provided with a clamping groove penetrating through the surface of the structure plate, and the clamping groove is a square penetrating opening; the dehumidification body, the dehumidification body includes the dehumidification board, and the dehumidification board is equipped with the fixture block, and the dehumidification groove has been seted up to the dehumidification board, is equipped with the electric bar in the dehumidification inslot. The invention mainly provides a surface dehumidifying structure for a wave-absorbing material, which is characterized in that a side spring is adopted to push two structural plates to rotate so as to change the included angle of the two structural plates, and the included angle is matched with the angle of a wedge-shaped wave-absorbing material, so that the surface of the wave-absorbing material is conveniently dehumidified.

Description

Surface dehumidification structure for absorbing material

Technical Field

The invention relates to the technical field of wave-absorbing materials, in particular to a surface dehumidifying structure for a wave-absorbing material.

Background

The wave-absorbing material is a material capable of absorbing or greatly reducing electromagnetic wave energy received by the surface of the wave-absorbing material so as to reduce the interference of the electromagnetic wave, has various shapes such as a wedge shape, a coating shape, a structural shape and the like, and increases the absorption loss of the electromagnetic wave energy so as to reduce the reflection of the electromagnetic wave.

The wave-absorbing material can absorb electromagnetic waves through special materials and special shapes, and when substances such as water drops are attached to the surface of the wave-absorbing material, the absorption effect of the wave-absorbing material on the electromagnetic waves can be influenced, so that the wave-absorbing material needs to be subjected to surface dehumidification.

Disclosure of Invention

The invention aims to provide a surface dehumidification structure for a wave-absorbing material, which aims to solve the problems in the background technology.

In order to achieve the above object, the present invention provides a surface dehumidifying structure for wave-absorbing materials, which includes a top body, wherein the top body includes a top plate, the top plate is provided with a top groove penetrating through upper and lower surfaces of the top plate, the top groove is provided with a plurality of bottom bodies, and the bottom bodies at least include:

the contact body comprises a top block positioned in the top groove, the top block is a cube, the bottom of the top block is connected with an intermediate plate, the bottom of the intermediate plate is provided with a contact block, two ends of the contact block are symmetrically provided with side shafts, the side shafts are connected with a structural frame, the structural frame comprises a pair of structural plates connected with the side shafts, the structural plates are provided with clamping grooves penetrating through the surfaces of the structural plates, and the clamping grooves are square through openings;

the dehumidification body, the dehumidification body is including being located dehumidification board in the draw-in groove, the dehumidification board is the cube, dehumidification board surface both ends symmetry is equipped with the fixture block, the fixture block is "C" type structure arch, the fixture block with the draw-in groove joint cooperation, dehumidification groove has been seted up to dehumidification board side surface both ends symmetry, be equipped with the electric bar in the dehumidification groove.

As a further improvement of the technical scheme, a square groove is formed in the bottom of the middle plate, an inserting body is correspondingly arranged in the middle of the top of the contact block and is a cube, the inserting body is in inserting fit with the bottom of the middle plate, a contact spring is sleeved on the surface of the inserting body, and the contact spring is located between the middle plate and the contact block.

As a further improvement of the technical scheme, one end of the bottom of the structural plate is symmetrically provided with a rotating body, the rotating body is a circular plate provided with a circular penetrating port, the rotating body is rotatably connected with the side shaft, side springs are arranged on two sides of the middle plate, and the side springs are connected with the clamping blocks.

As a further improvement of this technical scheme, the structure board is seted up and is run through its surperficial accent groove, transfer the inslot and be equipped with the regulation body, the regulation body includes a pair of end plate, the end plate with transfer the groove cooperation of pegging graft, the end plate rotates and is connected with the cylinder, the adjustment groove has been seted up on the end plate surface, the adjustment inslot internal rotation is connected with adjusting bolt, adjusting bolt surface threaded connection has the connecting block, the connecting block with structure board surface connection.

As a further improvement of the technical scheme, the inner wall of the top plate is symmetrically provided with sliding grooves, the sliding grooves are internally provided with connecting bodies, each connecting body comprises a transverse rod and a plurality of longitudinal rods, sliding blocks are arranged at two ends of each transverse rod and at two ends of each longitudinal rod, each sliding block is connected with the corresponding sliding groove in a sliding mode, transverse ports and longitudinal ports are correspondingly formed in the surface of the top block, the transverse rods are in plug-in fit with the transverse ports, and the longitudinal rods are in plug-in fit with the longitudinal ports.

As a further improvement of the technical scheme, a plurality of connecting springs are arranged on the surfaces of the transverse rods and the surfaces of the longitudinal rods, and the connecting springs are connected with the jacking blocks.

As a further improvement of the technical scheme, four corners of the bottom of the top block are provided with vertical rods, the vertical rods are of inverted T-shaped structures, four corners of the top of the middle plate correspond to vertical openings, the vertical openings are grooves of inverted T-shaped structures, the vertical rods are matched with the vertical openings in a clamping mode, a top spring is arranged at the bottom of the top block, and the bottom of the top spring is connected with the top of the middle plate.

As a further improvement of the technical scheme, an intermediate groove penetrating through the surface of the dehumidifying plate is formed in the middle of one side of the dehumidifying plate, a coagulation removing body is arranged in the intermediate groove and comprises a coagulation removing plate located in the intermediate groove, a grid plate is arranged on one side of the coagulation removing plate, a wind plate is arranged in the coagulation removing plate, a plurality of wind ports are formed in the wind plate, a blowing body is arranged at the top of the top plate and comprises a blowing plate located at the top of the top plate, a wind cabin is formed in the blowing plate, a gas pump is arranged in the wind cabin, one end of the gas pump is connected with a gas inlet pipe, the other end of the gas pump is connected with a gas outlet pipe, and the gas outlet pipe is communicated with the wind plate.

As a further improvement of the technical scheme, a baffle is arranged in the air plate, the baffle is a square plate, a plurality of through grooves are formed in the surface of the baffle, the through grooves are square through holes, the through grooves are communicated with the air opening, a sliding plate is arranged at the top of the baffle, and the top of the sliding plate penetrates through the top of the air plate.

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

1. in the surface dehumidification structure for the wave-absorbing material, the side springs can push the two structural plates to rotate to change the included angle of the two structural plates by adopting a rotating connection and side spring mode, and the included angle is matched with the angle of the wedge-shaped wave-absorbing material.

2. In this absorbing material is with surface dehumidification structure, through adopting sliding connection and grafting complex mode for slide horizontal pole and vertical pole can drive the kicking block and carry out horizontal and longitudinal movement in the spout, thereby can change the interval of adjacent bottom body, so that match the absorbing material of unidimensional not.

3. In this surface dehumidification structure for absorbing material, through being equipped with the body of blowing, make the air pump breathe in and pump out the gas through the intake pipe, blow to the aerofoil by the outlet duct in, the air current passes the wind gap and blows to the absorbing material surface, will be attached to the vapor on absorbing material surface and blow off, and through being equipped with the baffle, make stir the slide and drive the baffle and remove in the aerofoil and plug up the wind gap, make the unable outflow of gas of aerofoil, thereby avoid influencing absorbing material surface dehumidification effect.

Drawings

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

FIG. 2 is a schematic view of the top body portion of the present invention;

FIG. 3 is a schematic view of the structure of the linker of the invention;

FIG. 4 is a schematic view of the bottom body structure of the present invention;

FIG. 5 is a schematic view of a contact portion of the present invention;

FIG. 6 is a schematic view of the structure frame of the present invention;

FIG. 7 is a schematic view of the structure of the regulating body of the present invention;

FIG. 8 is a schematic cross-sectional view of a dehumidifying plate according to the present invention;

FIG. 9 is a schematic cross-sectional structure of the de-coagulated body of the present invention;

fig. 10 is a schematic cross-sectional structure of the blowout body according to the present invention.

The various reference numbers in the figures mean:

1. a top body;

11. a top plate; 111. a chute; 12. a top groove; 13. a linker; 131. a cross bar; 132. a longitudinal bar; 133. a slider; 134. a connecting spring;

2. a bottom body;

21. a contact body; 22. a dehumidifying body; 23. a top block; 231. transverse opening; 232. longitudinal opening; 233. a vertical rod; 234. a top spring; 24. a middle plate; 241. a side spring; 242. erecting a port; 25. a contact block; 251. a side shaft; 252. inserting body; 253. a contact spring; 26. a structural frame; 261. a structural panel; 262. a swivel; 263. a card slot; 264. adjusting a groove; 27. an adjuster; 271. an end plate; 272. a drum; 273. an adjustment groove; 274. adjusting the bolt; 275. connecting blocks; 28. a dehumidification plate; 281. a clamping block; 282. a dehumidification tank; 283. an electric heating rod; 284. an intermediate tank; 29. removing the condensate; 291. removing the coagulation plate; 292. a grid plate; 293. a wind plate; 294. a tuyere; 295. a baffle plate; 296. a through groove; 297. a slide plate;

3. a blowing body;

31. blowing a plate; 311. a wind bin; 32. an air pump; 321. an air inlet pipe; 322. and an air outlet pipe.

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.

In the description of the present invention, it is to 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", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the equipment or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered as limiting the present invention.

Example 1

Referring to fig. 1-2 and 4-8, the present embodiment provides a surface dehumidifying structure for a wave-absorbing material, including a top body 1, the top body 1 includes a top plate 11, the top plate 11 is a cube, the top plate 11 is provided with a top groove 12 penetrating through upper and lower surfaces of the top plate, the top groove 12 is a square through hole, a plurality of bottom bodies 2 are disposed in the top groove 12, and the bottom bodies 2 at least include:

the contact body 21, the contact body 21 includes the top block 23 located in the top groove 12, the top block 23 is a cube, the bottom of the top block 23 is connected with the intermediate plate 24, the intermediate plate 24 is a rectangular square plate, the bottom of the intermediate plate 24 is provided with the contact block 25, the contact block 25 is a cube with a triangular body at the bottom, two ends of the contact block 25 are symmetrically provided with the side shafts 251, the side shafts 251 are connected with the structural frame 26, the structural frame 26 includes a pair of structural plates 261 connected with the side shafts 251, the structural plate 261 is a square plate, the pair of structural plates 261 is a "V" type structure, the structural plate 261 is provided with a clamping groove 263 penetrating through the surface of the structural plate 261, and the clamping groove 263 is a square through hole;

the dehumidification body 22, the dehumidification body 22 is including being located the dehumidification board 28 of draw-in groove 263, and the dehumidification board 28 is the cube, and dehumidification board 28 surface both ends symmetry is equipped with fixture block 281, and fixture block 281 is "C" type structure arch, and fixture block 281 cooperates with draw-in groove 263 joint, and dehumidification groove 282 has been seted up to dehumidification board 28 side surface both ends symmetry, and dehumidification groove 282 is the square body groove, is equipped with the electric heat stick 283 in the dehumidification groove 282.

In the embodiment, when the microwave absorbing material is used specifically, the microwave absorbing material is placed at the bottom of the dehumidifying structure, the dehumidifying structure is moved downwards, the contact block 25 is close to the microwave absorbing material, the contact block 25 is pushed to move downwards by the contact spring 253 clamped between the intermediate plate 24 and the contact block 25, in addition, under the triangular structure, the contact block 25 is clamped into the valley bottom of the wedge-shaped microwave absorbing material, the side spring 241 pushes the structural plate 261 to rotate by taking the side shaft 251 as the shaft, so that the included angle of the two structural plates 261 is matched with the included angle of the wedge-shaped microwave absorbing material, the adjusting bolt 274 is rotated in the adjusting groove 273, so that the adjusting bolt 274 is in contact with the surface of the microwave absorbing material under the action of the connecting block 275 in threaded connection with the adjusting bolt 274, the roller 272 is in contact with the surface of the microwave absorbing material, so that the structural plate 261 is not in direct contact with the surface of the microwave absorbing material, the electric heating rod 283 heats air, and performs heat radiation on the surface of the microwave absorbing material by taking the air as a medium, so that objects such as water drops and the like on the surface of the wave-absorbing material are heated and evaporated, and the surface dehumidification of the wave-absorbing material is realized.

Further, in order to dehumidify wedge-shaped wave-absorbing material for the convenience, the square body groove has been seted up to intermediate lamella 24 bottom, contact block 25 top middle part correspondence is equipped with inserts body 252, insert body 252 is the cube, insert body 252 and the cooperation of pegging graft in intermediate lamella 24 bottom, insert the body 252 surface and cup jointed contact spring 253, contact spring 253 is located intermediate lamella 24 and contacts between the piece 25, through adopting the cooperation of pegging graft and contact spring 253's mode, make can make contact block 25 move down contact wedge-shaped wave-absorbing material's bottom of valley under contact spring 253's elasticity promotes, thereby be convenient for to wedge-shaped wave-absorbing material's dehumidification.

Further, for the angle of cutting wedge type absorbing material, structural slab 261 bottom one end symmetry is equipped with swivel 262, swivel 262 is for seting up the plectane of circular mouth of wearing, swivel 262 rotates with side shaft 251 and is connected, and intermediate lamella 24 both sides are equipped with side spring 241, and side spring 241 is connected with fixture block 281, through the mode that adopts rotation connection and side spring 241 for side spring 241 can promote two structural slabs 261 to rotate and change its contained angle, cuts with wedge type absorbing material's angle mutually.

Furthermore, considering that the surface of the wave-absorbing material is damaged due to direct contact with the surface of the wave-absorbing material, the structure plate 261 is provided with an adjusting groove 264 penetrating through the surface of the structure plate, the adjusting groove 264 is a square penetration, an adjusting body 27 is arranged in the adjusting groove 264, the adjusting body 27 comprises a pair of end plates 271, the end plates 271 are square bodies, the end plates 271 are in inserted fit with the adjusting groove 264, the end plates 271 are rotatably connected with rollers 272, the surface of the end plates 271 is provided with an adjusting groove 273, the adjusting groove 273 is a T-shaped cylindrical structure groove, an adjusting bolt 274 is rotatably connected in the adjusting groove 273, the surface of the adjusting bolt 274 is in threaded connection with a connecting block 275, the connecting block 275 is an L-shaped structure provided with a threaded penetration, the connecting block 275 is connected with the surface of the structure plate 261, the adjusting body 27 is in contact with the wave-absorbing material, the structure plate 261 can be suspended, so that air is used as a medium, and the electric heating rod 283 heats the air, the surface of the wave-absorbing material is subjected to heat radiation through air, so that the surface of the wave-absorbing material is prevented from being scalded while the surface of the wave-absorbing material is dehumidified.

Example 2

Referring to fig. 3, in order to expand the application range of the dehumidifying structure, considering that the size of the wave-absorbing material is different, the following improvements are made in this embodiment on the basis of embodiment 1:

wherein, in order to match with the absorbing material phase-match of unidimensional not, spout 111 has been seted up to 11 inner wall symmetries of roof, spout 111 is the square groove, be equipped with connector 13 in spout 111, connector 13 includes horizontal pole 131 and a plurality of vertical pole 132, horizontal pole 131 and vertical pole 132 both ends all are equipped with slider 133, slider 133 is the square body, slider 133 and spout 111 sliding connection, ejector pad 23 surface correspondence has been seted up horizontal mouth 231 and vertical mouth 232, horizontal pole 131 is pegged graft the cooperation with horizontal mouth 231, vertical pole 132 is pegged graft the cooperation with vertical mouth 232, through adopting sliding connection and grafting complex mode, make horizontal pole 131 and vertical pole 132 can drive ejector pad 23 and carry out horizontal and longitudinal movement in spout 111, thereby can change the interval of adjacent bottom body 2, so that match the absorbing material of unidimensional not.

Further, in order to facilitate the returning after dehumidification, the surface of the cross rod 131 and the surface of the longitudinal rod 132 are provided with a plurality of connecting springs 134, the connecting springs 134 are connected with the top block 23, and when the dehumidification structure is separated from the surface of the wave-absorbing material, the bottom body 2 can be driven to return to the original position under the elastic force action of the connecting springs 134 by adopting the connection mode of the connecting springs 134.

Further, in order to avoid the deformation that leads to absorbing material excessive oppression, kicking block 23 bottom four corners department is equipped with montant 233, montant 233 is "T" type structure of falling, riser 242 has been seted up to corresponding in intermediate plate 24 top four corners department, riser 242 is "T" type structure recess of falling, montant 233 cooperates with riser 242 joint, kicking block 23 bottom is equipped with top spring 234, top spring 234 bottom is connected with intermediate plate 24 top, through adopting the mode that top spring 234 is connected, make and have certain buffer space between kicking block 23 and the intermediate plate 24, thereby avoid absorbing material to be excessively oppressed, through adopting joint complex mode, can avoid intermediate plate 24 to break away from kicking block 23.

Example 3

Referring to fig. 9 to 10, in order to avoid the influence of the water vapor on the surface dehumidification effect of the wave-absorbing material, the following improvements are made in this embodiment on the basis of embodiment 1:

wherein, considering that the water vapor formed when the water drops on the surface of the wave-absorbing material are heated and evaporated adheres to the surface of the wave-absorbing material to influence the surface dehumidification effect, the middle part of one side of the dehumidification plate 28 is provided with a middle groove 284 penetrating through the surface, the middle groove 284 is a square through opening, the middle groove 284 is internally provided with the condensate removing body 29, the condensate removing body 29 comprises the condensate removing body 29 comprising a condensate removing plate 291 positioned in the middle groove 284, the condensate removing plate 291 is a hollow cube, one side of the condensate removing plate 291 is provided with a grid plate 292, the condensate removing plate 291 is internally provided with a wind plate 293, the wind plate 293 is a hollow cube, the wind plate 293 is provided with a plurality of wind ports 294, the top of the top plate 11 is provided with the wind blowing body 3, the wind blowing body 3 comprises a wind blowing plate 31 positioned at the top of the top plate 11, the wind chamber 31 is internally provided with a wind chamber 311, the wind pump 32 is arranged in the wind chamber 311, one end of the wind pump 32 is connected with a gas inlet pipe 321, the other end of the gas pump 32 is connected with a gas outlet 322, the gas outlet 322 is communicated with the wind plate 293, through the arrangement of the blowing body 3, the air pump 32 sucks air through the air inlet pipe 321 and pumps the air out, the air is blown into the air plate 293 through the air outlet pipe 322, the air flow passes through the air opening 294 and is blown to the surface of the wave-absorbing material, and the water vapor attached to the surface of the wave-absorbing material is blown away, so that the surface dehumidification effect of the wave-absorbing material is ensured.

Further, in order to avoid the influence to absorb wave material surface's heating dehumidification effect, be equipped with baffle 295 in the aerofoil 293, baffle 295 is the square board, a plurality of logical grooves 296 have been seted up on the baffle 295 surface, logical groove 296 is square wearing the mouth, logical groove 296 is linked together with wind gap 294, the baffle 295 top is equipped with slide 297, aerofoil 293 top is passed at slide 297 top, through being equipped with baffle 295, make stir slide 297 and drive baffle 295 and remove in aerofoil 293 and plug up wind gap 294, make the unable outflow of gas of aerofoil 293, thereby avoid influencing absorbing wave material surface dehumidification effect.

The foregoing shows and describes the general principles, essential 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 embodiments described above, and the preferred embodiments of the present invention are described in the above embodiments and the description, and are not intended to limit the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A surface dehumidification structure for absorbing material which characterized in that: including the top body (1), the top body (1) includes roof (11), roof (11) are seted up and are run through top groove (12) of its upper and lower surface, be equipped with a plurality of bottom bodies (2) in top groove (12), the bottom body (2) include at least:

the contact body (21) comprises a top block (23) located in the top groove (12), the top block (23) is cubic, a middle plate (24) is connected to the bottom of the top block (23), a contact block (25) is arranged at the bottom of the middle plate (24), side shafts (251) are symmetrically arranged at two ends of the contact block (25), the side shafts (251) are connected with a structure frame (26), the structure frame (26) comprises a pair of structure plates (261) connected with the side shafts (251), a clamping groove (263) penetrating through the surface of the structure plate (261) is formed in the structure plate (261), and the clamping groove (263) is a square penetrating opening;

the dehumidification body (22), the dehumidification body (22) is including being located dehumidification board (28) in draw-in groove (263), dehumidification board (28) are the cube, dehumidification board (28) surface both ends symmetry is equipped with fixture block (281), fixture block (281) are "C" type structure arch, fixture block (281) with draw-in groove (263) joint cooperation, dehumidification groove (282) have been seted up to dehumidification board (28) a side surface both ends symmetry, be equipped with electric bar (283) in dehumidification groove (282).

2. The surface dehumidifying structure for wave-absorbing material of claim 1, wherein: the improved contact structure is characterized in that a square groove is formed in the bottom of the middle plate (24), an inserting body (252) is correspondingly arranged in the middle of the top of the contact block (25), the inserting body (252) is a cube, the inserting body (252) is in inserting connection with the bottom of the middle plate (24), a contact spring (253) is sleeved on the surface of the inserting body (252), and the contact spring (253) is located between the middle plate (24) and the contact block (25).

3. The surface dehumidifying structure for wave-absorbing material of claim 1, wherein: rotating bodies (262) are symmetrically arranged at one end of the bottom of the structural plate (261), each rotating body (262) is a circular plate with a circular through opening, each rotating body (262) is rotatably connected with the corresponding side shaft (251), side springs (241) are arranged on two sides of the middle plate (24), and the side springs (241) are connected with the corresponding clamping blocks (281).

4. The surface dehumidifying structure for wave-absorbing material of claim 1, wherein: the structure board (261) is seted up and is run through accent groove (264) on its surface, it is equipped with regulation body (27) in groove (264) to transfer, regulation body (27) include a pair of end plate (271), end plate (271) with transfer groove (264) grafting cooperation, end plate (271) rotate and are connected with cylinder (272), adjustment groove (273) has been seted up on end plate (271) surface, adjustment groove (273) internal rotation is connected with adjusting bolt (274), adjusting bolt (274) surface threaded connection has connecting block (275), connecting block (275) with structure board (261) surface connection.

5. The surface dehumidifying structure for wave-absorbing material of claim 1, wherein: spout (111) have been seted up to roof (11) inner wall symmetry, be equipped with connector (13) in spout (111), connector (13) include horizontal pole (131) and a plurality of vertical pole (132), horizontal pole (131) with vertical pole (132) both ends all are equipped with slider (133), slider (133) with spout (111) sliding connection, horizontal mouth (231) and vertical mouth (232) have been seted up to kicking block (23) surface correspondence, horizontal pole (131) with horizontal mouth (231) are pegged graft and are cooperated, vertical pole (132) with vertical mouth (232) are pegged graft and are cooperated.

6. The surface dehumidifying structure for wave-absorbing material of claim 5, wherein: the surface of the cross rod (131) and the surface of the longitudinal rod (132) are provided with a plurality of connecting springs (134), and the connecting springs (134) are connected with the top block (23).

7. The surface dehumidifying structure for wave-absorbing material of claim 1, wherein: top piece (23) bottom four corners department is equipped with montant (233), montant (233) are "T" type structure, riser (242) have been seted up in corresponding of intermediate lamella (24) top four corners department, riser (242) are "T" type structure recess of falling, montant (233) with erect mouthful (242) joint cooperation, top piece (23) bottom is equipped with top spring (234), top spring (234) bottom with intermediate lamella (24) top is connected.

8. The surface dehumidifying structure for wave-absorbing material of claim 1, wherein: the middle part of one side of the dehumidification plate (28) is provided with a middle groove (284) which penetrates through the surface of the dehumidification plate, a decoagulate (29) is arranged in the middle groove (284), the decoagulate (29) comprises a decoagulate plate (291) positioned in the middle groove (284), a grid plate (292) is arranged on one side of the condensation removing plate (291), a wind plate (293) is arranged in the condensation removing plate (291), the air plate (293) is provided with a plurality of air ports (294), the top of the top plate (11) is provided with an air blowing body (3), the blowing body (3) comprises a blowing plate (31) positioned at the top of the top plate (11), an air bin (311) is arranged in the blowing plate (31), an air pump (32) is arranged in the air bin (311), air pump (32) one end is connected with intake pipe (321), air pump (32) other end is connected with outlet duct (322), outlet duct (322) with aerofoil (293) are linked together.

9. The surface dehumidifying structure for wave-absorbing material of claim 8, wherein: be equipped with baffle (295) in aerofoil (293), baffle (295) are the square board, a plurality of logical grooves (296) have been seted up on baffle (295) surface, logical groove (296) are square wearing mouthful, logical groove (296) with wind gap (294) are linked together, baffle (295) top is equipped with slide (297), slide (297) top is passed aerofoil (293) top.

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