CN218634530U - Circuit box connection structure for high-frequency component - Google Patents

Abstract

The utility model relates to a circuit box connection structure for high frequency part, it relates to electronic equipment technical field, and it is including inhaling ripples face and apron, be equipped with the dead lever on the apron, be equipped with on the ripples face and be used for supplying dead lever male fixed slot, it is equipped with the guide to slide in the fixed slot, be equipped with in the fixed slot and be used for the restriction the gliding mounting of guide, be equipped with on the guide be used for with the connecting piece of dead lever connection and dismantlement, be equipped with on the guide be used for self with the dismantlement piece of dead lever separation. This application has the effect of improving circuit box in narrow and small space, apron installation difficulty.

Description

Circuit box connection structure for high-frequency component

Technical Field

The present application relates to the field of electronic devices, and in particular, to a circuit box connection structure for a high-frequency component.

Background

High-frequency circuits are nowadays composed essentially of passive components, active components and passive networks. The frequency characteristics of the components used in the high-frequency circuit are different from those of the components used in the low-frequency circuit. Passive linear elements in a high-frequency circuit mainly include a resistor, a capacitor and an inductor, and a high-frequency component including the high-frequency circuit is widely applied to electronic products.

Chinese patent with publication number CN209134700U discloses a high-frequency component circuit box, which comprises a circuit box body, wherein the circuit box body is in a cylindrical shape, a group of opposite edges of the circuit box body in the axial direction are inwards recessed to form a concave groove, the bottom surface of the concave groove respectively forms a lead surface and a wave-absorbing surface, two ends of the concave groove form end walls, the wave-absorbing surface is provided with a plurality of parallel wave-absorbing grooves side by side, the wave-absorbing grooves are filled with wave-absorbing materials, one end close to the wave-absorbing surface is provided with a probe hole, probes are installed in the probe hole, and all the wave-absorbing grooves are parallel to each other; the wire guide has been seted up to the wire face, the wire guide runs through and inhale the ripples groove, and the one end of wire extends to and inhales the ripples groove in, and the other end extends to the wire guide outside. The utility model discloses small, the quality is light, has rationally laid probe, wire and absorbing material in the circuit box body, ensures that the function of high frequency parts can stable performance.

In the above technical solution, the cover plate is fixed on the wave absorbing surface by screws, but when the circuit box is installed in a circuit, other electronic units are present around the circuit box, and the screws need to be installed by using auxiliary tools such as a screwdriver, and when the distance between the wave absorbing surface and surrounding electronic devices is too small, the installation tools such as the screwdriver cannot be used, thereby causing difficulty in installing the cover plate.

SUMMERY OF THE UTILITY MODEL

In order to improve the circuit box in narrow and small space, the problem of apron installation difficulty, this application provides a circuit box connection structure for high frequency parts.

The application provides a circuit box connection structure for high frequency part adopts following technical scheme:

the utility model provides a circuit box connection structure for high frequency parts, includes wave absorbing surface and apron, be equipped with the dead lever on the apron, be equipped with on the wave absorbing surface and be used for supplying dead lever male fixed slot, it is equipped with the guide to slide in the fixed slot, be equipped with in the fixed slot and be used for the restriction the gliding mounting of guide, be equipped with on the guide be used for with the connecting piece that the dead lever is connected and is dismantled, be equipped with on the guide be used for self with the piece of disassembling of dead lever separation.

Through adopting above-mentioned technical scheme, when installing the apron on inhaling the wave surface, insert the dead lever in the fixed slot, then be connected dead lever and guide through the connecting piece, the dead lever promotes the guide and slides, then slide through mounting restriction guide, realize the fixed of dead lever in the fixed slot, thereby realize the installation of apron, when dismantling the apron, dismantle the piece through in the fixed slot with the apron from inhaling the wave surface and demolish, thereby realize the dismouting of apron, the in-process at the dismouting of apron is with the help of appurtenance, thereby can be in narrow and small space, install the apron on inhaling the wave surface, improve the convenience of apron installation.

In a specific embodiment, the guide member includes a guide plate slidably disposed on a side wall of the fixing groove, and a pressing spring for pushing or pulling the guide plate to move toward the opening of the fixing groove is disposed in the fixing groove;

the connecting piece is in including sliding the setting connecting block on the deflector, be equipped with the joint groove on the dead lever, be equipped with on the deflector and be used for promoting the connecting block inserts the coupling spring in joint groove, be equipped with on the dead lever and be used for promoting the connecting block extrusion coupling spring's direction inclined plane.

Through adopting above-mentioned technical scheme, when the dead lever inserts in the fixed slot, dead lever extrusion deflector, the deflector exerts a reaction force to the dead lever under extrusion spring's effect for the dead lever can be along direction inclined plane extrusion connecting block, and connecting spring compression this moment, connecting block slide along the dead lever and insert the joint groove, thereby realize being connected of dead lever and deflector, make the dead lever the same with the motion state of deflector.

In a specific implementation scheme, a limiting rod is hinged in the fixing groove, a guide groove is formed in the guide plate, a guide block used for sliding in the guide groove is arranged on the limiting rod, a first guide groove is formed in the guide plate, the first guide groove is communicated with the guide groove, the guide plate moves to enable the guide block to slide to the first guide groove, and a positioning space used for limiting the sliding of the guide plate is formed in the guide plate.

Through adopting above-mentioned technical scheme, when the dead lever promoted the deflector and removed towards fixed slot diapire direction, the gag lever post drove the guide block and slided to guiding groove one by the guide way to slide along the guiding groove, then loosen the dead lever, extrusion spring drive deflector slides, makes the guide block slide into the location space, thereby the continuation of restriction deflector slides, thereby realizes the apron and the installation of inhaling the wave face.

In a specific possible implementation scheme, a second guide groove communicated with the positioning space is formed in the guide plate, the second guide groove is communicated with the guide groove, the guide block slides along the second guide groove, a step is arranged at the joint of the second guide groove and the guide groove, and the step is used for limiting the guide block to slide into the second guide groove.

Through adopting above-mentioned technical scheme, when dismantling, continue to promote the dead lever, the dead lever drives the deflector and removes, and the guide block slides to guiding groove two by fixed space to remove the restriction of guide block to the deflector, the guide block gets back to the guide way along guiding groove two crossing the ladder simultaneously, thereby makes the guide block resume initial position, and the setting of ladder can effectively avoid the guide block to draw into guiding groove two, improves the gliding stability of guide block.

In a specific implementation scheme, the guide block is slidably connected with the limiting rod, a guide spring for pushing the guide block to be attached to the guide plate is arranged on the limiting rod, one end of the guide spring is connected with the guide block, and the other end of the guide spring is connected with the limiting rod.

Through adopting above-mentioned technical scheme, when the guide block slided into the guide way from guide groove two, the ladder promoted the guide block and slided for the guide block can cross the ladder and slide into the guide way, and spacing spring extrudees the guide block into the guide way simultaneously, has effectively avoided the guide block to slide out from the guide way, improves the gliding stability of guide block.

In a specific implementation scheme, a limiting spring for pulling or pushing the guide block to move towards the two directions of the guide groove is arranged in the fixing groove, and the limiting spring is connected with the limiting rod.

Through adopting above-mentioned technical scheme, utilize spacing spring pulling stop lever grass to rotate towards second guiding groove to improve the sliding block and slide to second guiding groove's reliability by location space.

In a specific embodiment, a sliding groove for sliding the guide plate is arranged in the fixing groove;

the dismounting part is in including sliding the setting actuating lever on the deflector, the actuating lever is used for the drive the connecting block roll-off the joint groove, it has the connecting rod to articulate on the actuating lever, the connecting rod with the connecting block is articulated, fixed slot cell wall promotes the actuating lever slides and makes the connecting block roll-off the joint groove.

Through adopting above-mentioned technical scheme, when the secondary dead lever promoted the deflector and removed, the deflector drove actuating lever and fixed slot cell wall contact to along with the removal of deflector, the actuating lever slided along the deflector, and the actuating lever drives the connecting block and takes out from the joint inslot, thereby removes being connected of dead lever and deflector, makes the fixed slot take out to the dead lever, thereby realizes apron and the dismantlement of inhaling the wave surface.

In a specific embodiment, be equipped with the compressive plane in the fixed slot, it is equipped with the stripper bar to slide on the deflector, be equipped with on the deflector and be used for the restriction the connecting block inserts the kelly in joint groove, be equipped with the confession on the actuating lever kelly male draw-in groove, be equipped with on the deflector and be used for driving the kelly inserts or the roll-off the steering member of draw-in groove, the stripper bar with the steering member is connected, the compressive plane promotes the actuating lever slides, makes the kelly roll-off the draw-in groove.

Through adopting above-mentioned technical scheme, when the fixed slot was taken out to the dead lever, the deflector contacts with the plane of extrusion under extrusion spring's promotion, and the plane of extrusion promotes the extrusion stem and removes, and the extrusion stem drives the kelly through turning to the piece and takes out from the draw-in groove to make connecting spring promote connecting block and actuating lever resume initial condition, thereby can realize apron and the many times dismouting of absorbing the wave face.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when the cover plate is installed on the wave absorbing surface, the fixed rod is inserted into the fixed groove, the cover plate can be positioned by disassembling the fixed rod and the fixed groove, then the fixed rod is connected with the guide piece through the connecting piece, then the guide piece is limited in the fixed groove through the fixing piece, so that the connection between the cover plate and the wave absorbing surface is realized, when the cover plate is disassembled, the cover plate is pressed, then the guide plate is separated from the fixed rod through the disassembling piece, the limit of the fixed rod on the fixed groove is relieved, the cover plate is separated from the wave absorbing surface, an auxiliary tool is not removed in the process of disassembling and assembling the cover plate, so that the cover plate can be disassembled and assembled in a narrow space, and the convenience of disassembling and assembling the cover plate is improved;

2. when being connected with the deflector to the dead lever, the joint groove is inserted to the connecting block, the dead lever promotes the deflector and removes, the gag lever post drives the sliding block and has the guide way to slide to guiding groove one, the deflector can restrict the sliding block and slide to guiding groove two, spacing spring can drive the sliding of sliding block between location space and guiding groove two, improve the accuracy that the movable block slided on the deflector, adjustment tank bottom wall promotes the actuating lever and removes, actuating lever pulling connecting block shifts out the joint groove, make the dismantlement of dead lever and deflector, improve the convenience of apron dismantlement, the extrusion stem drives the kelly through the steering piece and takes the draw-in groove out, make the actuating lever remove the restriction, make connecting block and actuating lever resume initial condition, thereby realize apron and inhale many times dismouting of ripples face.

Drawings

Fig. 1 is a schematic structural view of a circuit box connection structure for a high-frequency component according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram for showing the cover plate and the wave-absorbing surface.

Fig. 3 isbase:Sub>A sectional view taken along linebase:Sub>A-base:Sub>A of fig. 2.

Fig. 4 is a schematic view showing a structure of the connector.

Fig. 5 is an enlarged view of a portion B in fig. 4.

Fig. 6 is a schematic view showing the structure of the guide.

Description of reference numerals: 11. a wave absorbing surface; 111. a limiting groove; 12. a cover plate; 21. fixing grooves; 22. fixing the rod; 221. a connection space; 3. a guide member; 31. a guide plate; 32. a compression spring; 33. a guide groove; 34. a first guide groove; 35. positioning a space; 36. a second guide groove; 37. a step; 38. a guide surface; 4. a connecting member; 41. a support plate; 42. adjusting the space; 43. connecting blocks; 44. a stopper; 45. a connecting spring; 46. a plate storage groove; 47. a clamping groove; 48. a guide slope; 5. a fixing member; 51. a limiting rod; 52. a guide block; 53. a guide spring; 54. a limiting spring; 6. disassembling the parts; 61. a drive rod; 62. a connecting rod; 63. an extrusion stem; 64. extruding surface; 65. a clamping rod; 66. a card slot; 67. a spring slot; 68. clamping a spring; 69. a steering member; 691. a hinged lever.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

The embodiment of the application discloses circuit box connection structure for high frequency parts.

Referring to fig. 1, 2 and 3, a circuit box connection structure for a high-frequency component includes a wave absorbing surface 11 and a cover plate 12, a fixing groove 21 is formed in the wave absorbing surface 11, the cross-sectional shape of the fixing groove 21 is rectangular, the number of the fixing grooves 21 in this embodiment is four, the four fixing grooves 21 are uniformly arranged on the wave absorbing surface 11, a fixing rod 22 for inserting the fixing groove 21 is formed in the cover plate 12, the fixing rod 22 corresponds to the fixing groove 21 one to one, the fixing rod 22 is in concave-convex fit with the fixing groove 21, a connection space 221 is formed in the fixing rod 22, a guide 3 is arranged in the fixing groove 21, the guide 3 in this embodiment includes a guide plate 31 slidably arranged in the fixing groove 21, a connecting member 4 for being connected with the fixing rod 22 is formed in the guide plate 31, a fixing member 5 for limiting the sliding of the guide plate 31 is arranged in the fixing groove 21, and a detaching member 6 for detaching from the fixing rod 22 is arranged on the guide plate 31.

When the cover plate 12 is mounted on the wave absorbing surface 11, the fixing rod 22 is inserted into the fixing groove 21, the guide plate 31 is connected with the fixing rod 22 through the connecting piece 4, then the fixing rod 22 drives the guide plate 31 to move together, then the guide plate 31 is limited to slide in the fixing groove 21 through the fixing piece 5, the fixing rod 22 is limited in the fixing groove 21 along with the guide plate 31, so that the cover plate 12 is mounted, when the cover plate 12 is dismounted, the cover plate 12 is continuously pressed, then the fixing rod 22 is separated from the guide plate 31 through the dismounting piece 6, so that the fixing rod 22 is limited in the fixing groove 21, then the fixing rod 22 is pulled out from the fixing groove 21, the dismounting of the cover plate 12 and the wave absorbing surface 11 is completed, in the mounting and dismounting process of the cover plate 12, no auxiliary tool is used, so that the mounting and dismounting of the cover plate 12 can be carried out in a narrow space, and the convenience in mounting and dismounting of the cover plate 12 is improved.

Referring to fig. 4 and 5, a limiting groove 111 for the guide plate 31 to slide is provided in the fixing groove 21, the connecting member 4 in this embodiment includes two support plates 41 provided on the guide plate 31, an adjusting space 42 is provided between the two support plates 41, a connecting block 43 is provided on each support plate 41 in a sliding manner, a stopper 44 is provided on each connecting block 43, a connecting spring 45 is sleeved on each connecting block 43, the connecting spring 45 is located between the support plate 41 and the stopper 44, one end of the connecting spring 45 is fixedly connected to the support plate 41, the other end of the connecting spring 45 is fixedly connected to the stopper 44, a plate storage groove 46 for communicating with the connecting space 221 is provided on the fixing rod 22, the support plate 41 is inserted into the plate storage groove 46, clamping grooves 47 for inserting the connecting block 43 are provided on opposite side walls of the plate storage groove 46, a guiding inclined surface 48 is provided on the connecting block 43, the guiding inclined surface 48 is inclined from a side close to a side far from the support plate 41, and the fixing rod 22 extrudes the guiding inclined surface 48 so that the two connecting blocks 43 are close to each other.

Referring to fig. 4 and 5, a pressing spring 32 is provided between the guide plate 31 and the bottom wall of the fixed groove 21, one end of the pressing spring 32 is fixedly connected to the guide plate 31, and the other end of the pressing spring 32 is fixedly connected to the bottom wall of the fixed groove 21.

When the fixing rod 22 is inserted into the fixing groove 21, the pressing spring 32 applies a reverse force to the guide plate 31, the fixing rod 22 slides along the guide inclined plane 48 and presses the connecting block 43, so that the distance between the two connecting blocks 43 is reduced, the connecting block 43 slides into the plate storage groove 46, the connecting spring 45 is in an extending state at the moment, the connecting block 43 slides along the side wall of the plate storage groove 46 and is inserted into the clamping groove 47 under the pushing of the connecting spring 45, and the connecting block 43 is matched with the clamping groove 47 to enable the guide plate 31 to be connected with the fixing rod 22.

Referring to fig. 4, 5 and 6, the guide plate 31 is provided with a guide groove 33, the fixing member 5 in this embodiment includes a limiting rod 51 hinged on the bottom wall of the fixing groove 21, the limiting rod 51 is an L-shaped rod, a guide block 52 is slidably sleeved on the limiting rod 51, the guide block 52 in this embodiment is a circular plate, the guide block 52 is slidably connected with the guide groove 33, a guide spring 53 for pressing the guide block 52 into the guide groove 33 is sleeved on the limiting rod 51, one end of the guide spring 53 is fixedly connected with the guide block 52, the other end of the guide spring 53 is fixedly connected with the limiting rod 51, the guide plate 31 is provided with a first guide groove 34 for communicating with the guide groove 33, the guide plate 31 is provided with a positioning space 35 for communicating with the first guide groove 34, the guide plate 31 is provided with a second guide groove 36 for communicating with the positioning space 35, the other end of the second guide groove 36 is communicated with the guide groove 33, the guide block 52 slides into the first guide groove 34 along the guide groove 33, then slides into the positioning space 35 from the first guide groove 34, then slides into the second guide groove 36 from the positioning space 35, finally the guide block 52 slides into the guide groove 33 through the second guide groove 36, a step 37 is arranged at the joint of the second guide groove 36 and the guide groove 33, the guide block 52 slides from the guide groove 33 to the first guide groove 34 along the step 37, the bottom surface of the guide groove 33, the bottom surface of the first guide groove 34, the bottom surface of the positioning space 35 and the bottom surface of the second guide groove 36 jointly form a guide surface 38, the guide surface 38 gradually bulges from one side of the guide groove 33 to one side of the step 37, a limit spring 54 for pulling the limit rod 51 towards the direction of the second guide groove 36 is arranged on the side wall of the fixing groove 21, and the limit spring 54 is fixedly connected with the limit rod 51.

Referring to fig. 4, 5 and 6, the dismounting member 6 in this embodiment includes a driving rod 61 slidably disposed on the guide plate 31, one end of the driving rod 61 extends out of the guide plate 31, the other end of the driving rod 61 extends into the adjustment space 42, the length of the driving rod 61 extending out of the guide plate 31 is smaller than the moving distance of the guide block 52 in the first guide groove 34, the driving rod 61 is hinged to two connecting rods 62 at the end extending into the adjustment space 42, the connecting rods 62 are in one-to-one correspondence with the connecting blocks 43, the connecting rods 62 are hinged to the stopper 44 at the end far from the driving rod 61, the driving rod 61 pulls the two connecting blocks 43 to approach each other, when the guide block 52 slides from the guide groove 33 to the positioning space 35, the driving rod 61 does not contact with the bottom wall of the fixing groove 21, and when the guide block 52 slides to the second guide groove 36, the bottom wall of the fixing groove 21 pushes the driving rod 61 to move.

Referring to fig. 4, 5 and 6, an extruding rod 63 is arranged on the guide plate 31, an extruding surface 64 for extruding the extruding rod 63 is arranged in the fixing groove 21, a clamping rod 65 is arranged on the guide plate 31 in a sliding manner, a clamping groove 66 for inserting the clamping rod 65 is arranged on the driving rod 61, a spring groove 67 is arranged on the guide plate 31, a clamping spring 68 is arranged in the spring groove 67, the clamping spring 68 is sleeved on the clamping rod 65, one end of the clamping spring 68 is fixedly connected with the spring groove 67, the other end of the clamping spring 68 is fixedly connected with the clamping rod 65, initially, the clamping spring 68 pushes the clamping rod 65 to contact with the driving rod 61, the extruding rod 63 is connected with the clamping rod 65 through a steering member 69, the steering member 69 in the embodiment includes a hinge rod 691 hinged on the extruding rod 63, the other end of the hinge rod is hinged with the clamping rod 65, and when the extruding rod 63 contracts into the guide plate 31, the extruding rod 63 pushes the clamping rod 65 to insert the clamping rod 65 into the clamping groove 66.

After the fixed rod 22 and the guide plate 31 are connected, the cover plate 12 is continuously pressed, the fixed rod 22 pushes the guide plate 31 to move towards the bottom wall direction of the fixed groove 21, the pressing spring 32 is in a compressed state at the moment, the guide block 52 slides towards the first guide groove 34 from the guide groove 33 along with the movement of the guide plate 31, the arrangement of the step 37 effectively prevents the guide block 52 from sliding into the second guide groove 36, the sliding accuracy of the guide block 52 is improved, when the guide block 52 slides to the limit position of the first guide groove 34, the cover plate 12 is released at the moment, the guide plate 31 moves towards the opening of the fixed groove 21 under the pushing of the pressing spring 32, the guide block 52 slides into the positioning space 35 from the first guide groove 34 under the pulling of the limiting spring 54, the guide block 52 stops sliding, the fixed rod 22 is limited along the opening direction of the fixed groove 21, the installation of the cover plate 12 is achieved, the installation of the cover plate 12 and the wave absorbing surface 11 is achieved only by pressing the cover plate 12, and the installation convenience of the installation of the cover plate 12 is improved.

When the cover plate 12 is disassembled, the cover plate 12 is continuously pressed, the fixing rod 22 pushes the guide plate 31 to move towards the bottom wall direction of the fixing groove 21, the guide block 52 slides into the second guide groove 36 under the pulling of the limit spring 54, when the guide block 52 slides into the second guide groove 36 from the positioning space 35, the bottom wall of the fixing groove 21 contacts with the driving rod 61 and pushes the driving rod 61 to slide, the driving rod 61 pulls the connecting block 43 to be separated from the clamping groove 47 through the connecting rod 62, when the connecting block 43 is completely separated from the clamping groove 47, the clamping rod 65 is inserted into the clamping groove 66 under the pushing of the clamping spring 68, so that the connecting block 43 is effectively limited from being inserted into the clamping groove 47 again, the guide plate 31 is separated from the fixing rod 22, then the fixing rod 22 is pulled out from the fixing groove 21, namely, the disassembling of the cover plate 12 and the wave absorbing surface 11 is realized, no auxiliary tool is used in the disassembling process of the cover plate 12 and the wave absorbing surface 11, so that the disassembling of the cover plate 12 and the wave absorbing surface 11 can be performed in a narrow space, and the convenience of the cover plate 12 is improved.

When the fixing rod 22 is pulled out of the fixing groove 21, the guide plate 31 returns to the initial position, the guide block 52 slides in the second guide groove 36 and slides along the guide surface 38 to the guide groove 33 beyond the step 37, the pressing surface 64 presses the pressing rod 63 and pushes the pressing rod 63 to retract into the guide plate 31, the pressing rod 63 pulls the clamping rod 65 through the connecting rod 62 to be pulled out of the clamping groove 66, the driving rod 61 releases the limitation of the clamping rod 65, and the driving rod 61 and the connecting block 43 return to the initial position under the pushing of the connecting spring 45, so that the cover plate 12 and the wave-absorbing surface 11 are repeatedly assembled and disassembled.

The implementation principle of the circuit box connecting structure for the high-frequency component in the embodiment of the application is as follows: when installing apron 12 on wave absorption surface 11, insert dead lever 22 in fixed slot 21, be connected dead lever 22 and guide 3 through connecting piece 4, dead lever 22 slides along with guide 3 afterwards, then restrict guide 3 through mounting 5 and slide, realize the fixed of dead lever 22 in fixed slot 21, thereby realize the installation of apron 12, when dismantling apron 12, continue to press apron 12, then dismantle apron 12 from wave absorption surface 11 through the dismantlement piece 6 in the fixed slot 21, thereby realize the dismouting of apron 12, the in-process of the dismouting of apron 12 does not rely on appurtenance, thereby can be in narrow and small space, install apron 12 on wave absorption surface 11, improve the convenience of apron 12 installation.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A circuit box connecting structure for a high-frequency component, comprising a wave absorbing surface (11) and a cover plate (12), characterized in that: be equipped with dead lever (22) on apron (12), be equipped with on wave absorption surface (11) and be used for the confession dead lever (22) male fixed slot (21), it is equipped with guide (3) to slide in fixed slot (21), be equipped with in fixed slot (21) and be used for the restriction the gliding mounting (5) of guide (3), be equipped with on guide (3) be used for with connecting piece (4) of dismantling are connected with dead lever (22), be equipped with on guide (3) be used for self with the piece (6) of dismantling of dead lever (22) separation.

2. A circuit box connecting structure for a high-frequency component according to claim 1, characterized in that: the guide piece (3) comprises a guide plate (31) which is arranged on the side wall of the fixing groove (21) in a sliding mode, and an extrusion spring (32) which pushes or pulls the guide plate (31) to move towards the opening direction of the guide plate is arranged in the fixing groove (21);

connecting piece (4) are in including sliding the setting connecting block (43) on deflector (31), be equipped with joint groove (47) on dead lever (22), be equipped with on deflector (31) and be used for promoting connecting block (43) insert connecting spring (45) of joint groove (47), be equipped with on dead lever (22) and be used for promoting connecting block (43) extrusion connecting spring's (45) direction inclined plane (48).

3. The circuit box connecting structure for a high-frequency component according to claim 2, wherein: articulated have gag lever post (51) in fixed slot (21), be equipped with guide way (33) on deflector (31), be equipped with on gag lever post (51) and be used for gliding guide block (52) in guide way (33), be equipped with guide groove (34) on deflector (31), guide groove (34) with guide way (33) intercommunication sets up, deflector (31) remove and make guide block (52) by guide way (33) cunning to guide groove (34), be equipped with on deflector (31) and be used for restricting gliding location space (35) of self.

4. A circuit box connecting structure for a high frequency component according to claim 3, wherein: be equipped with on deflector (31) with two (36) guide grooves of location space (35) intercommunication setting, two (36) guide grooves with guide way (33) intercommunication setting, guide block (52) along two (36) guide grooves slide, two (36) guide grooves with guide way (33) junction is equipped with ladder (37), ladder (37) are used for restricting guide block (52) slide in two (36) guide grooves.

5. A circuit box connecting structure for a high frequency component according to claim 3, wherein: guide block (52) with gag lever post (51) sliding connection, be equipped with on gag lever post (51) and be used for promoting guide block (52) and guide spring (53) of deflector (31) laminating, guide spring (53) one end with guide block (52) are connected, the other one end of guide spring (53) with gag lever post (51) are connected.

6. The circuit box connecting structure for a high-frequency component according to claim 4, characterized in that: a limiting spring (54) used for pulling or pushing the guide block (52) to move towards the second guide groove (36) is arranged in the fixing groove (21), and the limiting spring (54) is connected with the limiting rod (51).

7. A circuit box connecting structure for a high-frequency component according to claim 2, characterized in that: a limiting groove (111) for the guide plate (31) to slide is arranged in the fixing groove (21);

dismantle piece (6) and set up including sliding actuating lever (61) on deflector (31), actuating lever (61) are used for the drive connecting block (43) roll-off joint groove (47), it has connecting rod (62) to articulate on actuating lever (61), connecting rod (62) with connecting block (43) are articulated, fixed slot (21) cell wall promotes actuating lever (61) slide and make connecting block (43) roll-off joint groove (47).

8. The circuit box connecting structure for a high-frequency component according to claim 7, wherein: be equipped with compressive plane (64) in fixed slot (21), it is equipped with extrusion stem (63) to slide on deflector (31), be equipped with on deflector (31) and be used for the restriction connecting block (43) insert kelly (65) of joint groove (47), be equipped with the confession on actuating lever (61) kelly (65) male draw-in groove (66), be equipped with on deflector (31) and be used for driving kelly (65) insert or roll-off steering member (69) of draw-in groove (66), extrusion stem (63) with steering member (69) are connected, compressive plane (64) promote actuating lever (61) slide, make kelly (65) roll-off draw-in groove (66).

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