CN116505323B - Ku wave band receiving and transmitting assembly - Google Patents

Abstract

The application relates to the technical field of radio frequency equipment, in particular to a ku wave band receiving and transmitting assembly, which comprises a main body, a connecting block, a sliding block, a limiting plate and a moving assembly, wherein the connecting block is provided with a sliding groove, and the moving assembly comprises a moving block, a connecting member, a threaded rod and a driving member; the drive member drives the threaded rod to rotate, the threaded rod rotates to enable the moving block to slide in the sliding groove, the first spring and the connecting member are matched to draw the sliding block to slide in the sliding groove when the moving block slides, the sliding block slides to drive the limiting plate to move, and the limiting plate moves to be abutted with the wire connector, so that the wire connector is fixed in the connecting hole, the wire is quickly fixed, loosening caused by careless mistaken pulling of the wire by a person is avoided, and normal use of the main body is ensured; when the wire needs to be disassembled, the rotating shaft is reversed, and the limiting plate is pulled upwards to disassemble the wire, so that the wire is rapidly fixed or disassembled, and the efficiency of connecting, installing or disassembling the wire is improved.

Description

Ku wave band receiving and transmitting assembly

Technical Field

The application relates to the technical field of radio frequency equipment, in particular to a ku wave band transceiver component.

Background

The Ku band radio frequency receiving and transmitting sub-device can realize the transmission of the broadband active agile radar signal and the receiving down-conversion processing of the broadband active radar signal by means of the receiving and transmitting unit. However, the lead of the traditional band radio frequency receiving and transmitting equipment is directly inserted into the connecting hole, and if a person carelessly pulls the lead when using the band radio frequency receiving and transmitting equipment, the lead is easily pulled out of the connecting hole, so that the normal use of the band radio frequency receiving and transmitting equipment is affected.

In chinese patent document with publication number CN216595479U, a Ku band radio frequency receiving and dispatching equipment for preventing wire from falling is disclosed, when in use, the wire connector is connected with the connecting hole, the limiting plate is pushed to move to the rear of the wire connector, then the connecting plate is rotated, the rubber block is contacted with the limiting plate, the limiting plate is extruded and fixed, then the limiting plate is pulled to release the limit of the baffle plate to the sliding block, the first spring pulls the sliding block to drive the limiting plate to slide and extrude the wire connector, thereby fixing the wire connector in the connecting hole, and avoiding the wire from being carelessly pulled out from the connecting hole by people.

However, in the using process of the device, the operation steps for fixing the limiting plate are more, so that more time is required for fixing the wire connector by using the limiting plate, the guide cannot be quickly fixed or detached, and the wire mounting or dismounting efficiency is affected.

Disclosure of Invention

The application aims to provide a Ku wave band receiving and transmitting assembly, which solves the problems that the prior Ku wave band radio frequency receiving and transmitting equipment for preventing wires from falling off needs more time in the process of fixing wire joints by using a limiting plate due to more operation steps of fixing the limiting plate, cannot quickly fix or detach the wires and affects the efficiency of mounting or dismounting the wires.

In order to achieve the above purpose, the application provides a ku wave band receiving and transmitting assembly, which comprises a main body, a connecting block, a sliding block and a limiting plate, wherein the connecting block is fixedly connected with the main body and is positioned at the outer side of the main body, the sliding block is movably connected with the connecting block and is positioned at the inner side of the connecting block, the limiting plate is inserted on the sliding block,

also included is a movement assembly that is configured to move the vehicle,

the connecting block is provided with a sliding groove, the sliding groove is matched with the sliding block, the moving assembly comprises a moving block, a connecting member, a threaded rod and a driving member, the moving block is movably connected with the connecting block and is located in the sliding groove, the connecting member is used for connecting the moving block with the sliding block, the threaded rod is rotatably connected with the connecting block and is matched with the moving block, and the driving member is used for driving the threaded rod to rotate.

The movable assembly further comprises a first spring, and two ends of the first spring are fixedly connected with the movable block and the sliding block respectively.

The driving component comprises a bracket, a rotating shaft and a transmission part, wherein the bracket is fixedly connected with the connecting block and is positioned above the connecting block; the rotating shaft is movably connected with the bracket; the transmission part is arranged on the rotating shaft.

The transmission part comprises a bevel gear and a matched gear, wherein the bevel gear is fixedly connected with the rotating shaft and is positioned at the lower end of the rotating shaft; the matched gear is fixedly connected with the threaded rod and matched with the bevel gear.

The connecting component comprises a first connecting seat, a second connecting seat, a connecting rod and a fixing part, wherein the first connecting seat is fixedly connected with the sliding block and is positioned above the sliding block; the second connecting seat is fixedly connected with the moving block and is positioned above the moving block; one end of the connecting rod is movably connected with the first connecting seat; the other end of the connecting rod is connected with the second connecting seat through the fixing part.

The fixing part comprises a fixing rod and a second spring, and the fixing rod is inserted into the second connecting seat; and two ends of the second spring are fixedly connected with the fixed rod and the second connecting seat respectively.

The fixing rod is provided with an inclined plane, and the inclined plane is positioned on one side of the fixing rod, which is close to the connecting rod.

According to the ku-band receiving and transmitting assembly, the limiting plate is pulled upwards to enable the limiting plate to move away from the front of the right side connecting hole of the main body, then the wire connector is inserted into the connecting hole, after insertion is completed, the limiting plate is pushed to reset, the limiting plate is enabled to move to the rear of the wire connector, then the driving member drives the threaded rod to rotate, the threaded rod rotates to enable the moving block to slide in the sliding groove, when the moving block slides, the first spring and the connecting member are matched to pull the sliding block to slide in the sliding groove, the sliding block slides to drive the limiting plate to move, the limiting plate moves to abut against the wire connector, so that the wire connector is fixed in the connecting hole, the wire is quickly fixed, looseness caused by careless mistaken pulling of the wire is avoided, and normal use of the main body is ensured; when the wire needs to be disassembled, the rotating shaft is reversed, and the limiting plate is pulled upwards to disassemble the wire, so that the wire is rapidly fixed or disassembled, and the efficiency of connecting, installing or disassembling the wire is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic structural diagram of a ku-band transceiver module according to a first embodiment of the present application.

Fig. 2 is a schematic view showing connection of a rotating shaft and a bevel gear according to a first embodiment of the present application.

Fig. 3 is a schematic connection diagram of the slider and the first connection base according to the second embodiment of the present application.

Fig. 4 is a schematic connection diagram of the fixing rod and the second connecting seat according to the second embodiment of the present application.

Fig. 5 is a schematic connection diagram of a reset block and a limiting plate according to a third embodiment of the present application.

In the figure: 100-main body, 101-connecting block, 102-sliding block, 103-limiting plate, 104-sliding groove, 105-moving block, 106-threaded rod, 107-first spring, 108-bracket, 109-rotating shaft, 110-bevel gear, 111-mating gear, 212-first connecting seat, 213-second connecting seat, 214-connecting rod, 215-fixed rod, 216-second spring, 217-inclined plane, 318-third spring, 319-reset block and 320-sliding rod.

Detailed Description

The following detailed description of embodiments of the application, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the application.

First embodiment: referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of a ku-band transceiver module according to a first embodiment of the present application, and fig. 2 is a schematic connecting diagram of a rotating shaft and a bevel gear according to a first embodiment of the present application.

The application provides a ku wave band receiving and transmitting assembly which comprises: including main body 100, connecting block 101, slider 102, limiting plate 103 and remove the subassembly, connecting block 101 has spout 104, remove the subassembly and include movable block 105, connecting member, threaded rod 106, drive member and first spring 107, drive member includes support 108, pivot 109 and transmission part, the transmission part includes bevel gear 110 and mating gear 111. The problem that the existing Ku-band radio frequency receiving and transmitting equipment for preventing the lead from falling off, which is recorded in the background art, can not be used for rapidly fixing or detaching the lead and influencing the efficiency of lead installation or detachment due to the fact that more operation steps are needed for fixing the limiting plate in the process of fixing the lead connector by the limiting plate is solved through the scheme. Meanwhile, it can be appreciated that the scheme can be used for a scene of rapidly fixing or detaching the lead, and can also be used for a resetting structure, so that the limiting plate can be conveniently moved to solve the problem of limiting the lead connector.

For this embodiment, the connection block 101 is fixedly connected to the main body 100 and is located at the outer side of the main body 100, the slider 102 is movably connected to the connection block 101 and is located at the inner side of the connection block 101, and the limiting plate 103 is inserted into the slider 102. The linear array is provided with a plurality of connecting blocks 101 on the mounting plate on the right side of the main body 100, and a plurality of connectors are arranged on the mounting plate corresponding to the linear array, the sliding blocks 102 are installed in the connecting blocks 101, the limiting plates 103 are L-shaped, and the limiting plates 103 are inserted on the sliding blocks 102.

The sliding groove 104 is matched with the sliding block 102, the moving block 105 is movably connected with the connecting block 101 and is located in the sliding groove 104, the connecting member is used for connecting the moving block 105 with the sliding block 102, the threaded rod 106 is rotatably connected with the connecting block 101 and is matched with the moving block 105, and the driving member is used for driving the threaded rod 106 to rotate. The connecting block 101 is provided with the sliding groove 104, the sliding block 102 and the moving block 105 are both installed in the sliding groove 104, the sliding block 102 and the moving block 105 are connected through the connecting member, one end of the threaded rod 106 is installed in a bearing on the connecting block 101, the moving block 105 is connected with the threaded rod 106 through a threaded sleeve, and the driving member is used for driving the threaded rod 106 to rotate.

Second, two ends of the first spring 107 are fixedly connected with the moving block 105 and the slider 102, respectively. The first spring 107 is installed between the moving block 105 and the sliding block 102, and the first spring 107 is used for pulling the sliding block 102 to move when the moving block 105 moves.

Meanwhile, the bracket 108 is fixedly connected with the connecting block 101 and is positioned above the connecting block 101; the rotating shaft 109 is movably connected with the bracket 108; the transmission part is arranged on the rotating shaft 109; the bevel gear 110 is fixedly connected with the rotating shaft 109 and is positioned at the lower end of the rotating shaft 109; the mating gear 111 is fixedly connected to the threaded rod 106 and mates with the bevel gear 110. The support 108 is installed above the connecting block 101, the rotating shaft 109 is inserted on the support 108, the rotating shaft 109 is fixed with a bearing at the top of the support 108, the bevel gear 110 is fixed at the lower end of the rotating shaft 109, the matched gear 111 is fixed at the outer side of the threaded rod 106, and the bevel gear 110 is meshed with the matched gear 111.

When the ku-band transceiver module of the embodiment is used, the limiting plate 103 is pulled upwards to enable the limiting plate 103 to move away from the front of the right side hole of the main body 100, then the wire connector is inserted into the right side hole of the main body 100, the limiting plate 103 is pushed to reset after insertion is completed, the limiting plate 103 is enabled to move to the rear of the wire connector, then the rotating shaft 109 is rotated, the rotating shaft 109 rotates to drive the bevel gear 110 to rotate, the bevel gear 110 is meshed with the matched gear 111 to drive the threaded rod 106 to rotate, the threaded rod 106 rotates to enable the moving block 105 to slide in the sliding groove 104, the moving block 105 is matched with the first spring 107 and the connecting member to pull the sliding block 102 to slide in the sliding groove 104 during sliding, the sliding block 102 slides to enable the limiting plate 103 to move to be abutted with the wire connector, the wire connector is fixed in the connecting hole, the wire is prevented from being pulled by a person to loose, and the main body 100 is ensured to be used normally; when the wire needs to be disassembled, the wire can be disassembled by reversing the rotating shaft 109 and pulling the limiting plate 103 upwards, so that the wire can be quickly fixed or disassembled, and the efficiency of connecting, installing or disassembling the wire is improved.

Second embodiment: referring to fig. 3 and 4, fig. 3 is a schematic connection diagram of a slider and a first connecting seat according to a second embodiment of the present application, and fig. 4 is a schematic connection diagram of a fixing rod and a second connecting seat according to a second embodiment of the present application.

The connection member includes a first connection seat 212, a second connection seat 213, a connection rod 214, and a fixing part including a fixing rod 215 and a second spring 216, the fixing rod 215 having a slope 217.

For the present embodiment, the first connecting seat 212 is fixedly connected to the slider 102 and is located above the slider 102; the second connecting seat 213 is fixedly connected with the moving block 105 and is located above the moving block 105; one end of the connecting rod 214 is movably connected with the first connecting seat 212; the other end of the connecting rod 214 is connected to the second connecting seat 213 through the fixing member. The first connecting seat 212 is installed above the sliding block 102, the second connecting seat 213 is installed above the moving block 105, one end of the connecting rod 214 is connected with the first rotating shaft 109 through a connecting shaft, and the other end of the connecting rod 214 is fixed on the second connecting seat 213 through the fixing component.

Wherein the fixing rod 215 is inserted into the second connecting seat 213; two ends of the second spring 216 are fixedly connected with the fixing rod 215 and the second connecting seat 213 respectively; the inclined surface 217 is positioned on a side of the fixing rod 215 adjacent to the connecting rod 214. The fixing rod 215 is inserted on the second connecting seat 213, the second spring 216 is sleeved on the outer side of the fixing rod 215, two ends of the second spring 216 are respectively fixed with the fixing rod 215 and the second connecting seat 213, one end, close to the connecting rod 214, of the fixing rod 215 is provided with an inclined plane 217, and the fixing rod 215 is conveniently inserted into the connecting rod 214 through the inclined plane 217.

When the ku band transceiver module of this embodiment is used, after the wire connector is plugged into the connection hole, the limiting plate 103 is pushed to move downwards for resetting, then the limiting plate 103 can be directly pulled by the connecting rod 214 to move so as to enable the limiting plate 102 to abut against the wire connector, and by rotating the connecting rod 214 so that the connecting rod 214 is close to the second connecting seat 213, the connecting rod 214 is clamped into the second connecting seat 213, when the connecting rod 214 enters the second connecting seat 213, the connecting rod 214 is firstly contacted with the inclined plane 217, finally the fixing rod 215 is pushed to move in a pressing manner, when the fixing rod 215 is aligned with the fixing hole on the connecting rod 214, the fixing rod 215 is pushed to be reset and inserted into the fixing hole of the connecting rod 214 by deformation of the second spring 216, so that one end of the connecting rod 214 far away from the first connecting seat 212 is fixed on the second connecting seat 213, the wire connector is rapidly fixed, finally the rotating shaft 109 can be rotated as required, and the degree of tightness of the wire connector is adjusted by pulling the connecting rod 102, and the limiting plate is fixed.

Third embodiment: referring to fig. 5 on the basis of the first embodiment, fig. 5 is a schematic connection diagram of a reset block and a limiting plate according to a third embodiment of the present application.

The application provides a ku band transceiver component which also comprises a reset component, wherein the reset component comprises a reset block 319, a third spring 318 and a sliding rod 320.

For the specific embodiment, the reset block 319 is fixedly connected with the limiting plate 103 and is movably connected with the slider 102; both ends of the third spring 318 are fixedly connected with the reset block 319 and the slider 102 respectively. The two sides of the limiting plate 103 are fixed with the reset blocks 319, the reset blocks 319 are slidably connected with the limiting plate 103, and the third springs 318 are fixed above the reset blocks 319.

The sliding rod 320 is fixedly connected with the sliding block 102, movably connected with the reset sliding block 102, and located at the inner side of the spring. The sliding rod 320 is further installed inside the sliding block 102, the sliding rod 320 is located inside the third spring 318, and the reset block 319 is installed on the sliding rod 320.

When the ku-band transceiver assembly of the embodiment is used, when the limiting plate 103 is pulled upwards to move and install the wire connector, the limiting plate 103 moves on the sliding block 102 through the reset block 319, the reset block 319 extrudes the third spring 318 when moving, after the wire connector is installed, the limiting plate 103 is loosened, the limiting plate 103 is pushed to reset automatically through deformation of the third spring 318, so that the limiting plate 103 moves to the rear of the wire connector, and follow-up limiting and fixing work of the wire connector is facilitated.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application, and it is not intended to limit the scope of the claims hereof, as persons of ordinary skill in the art will understand that all or part of the processes for practicing the embodiments described herein may be practiced with equivalent variations in the claims, which are within the scope of the application.

Claims (4)

1. The ku wave band receiving and transmitting assembly comprises a main body, a connecting block, a sliding block and a limiting plate, wherein the connecting block is fixedly connected with the main body and is positioned at the outer side of the main body, the sliding block is movably connected with the connecting block and is positioned at the inner side of the connecting block, the limiting plate is inserted on the sliding block,

also included is a movement assembly that is configured to move the vehicle,

the connecting block is provided with a sliding groove, the sliding groove is matched with the sliding block, the moving assembly comprises a moving block, a connecting member, a threaded rod and a driving member, the moving block is movably connected with the connecting block and is positioned in the sliding groove, the connecting member is used for connecting the moving block and the sliding block, the threaded rod is rotatably connected with the connecting block and is matched with the moving block, and the driving member is used for driving the threaded rod to rotate;

the driving component comprises a bracket, a rotating shaft and a transmission part, wherein the bracket is fixedly connected with the connecting block and is positioned above the connecting block; the rotating shaft is movably connected with the bracket; the transmission part is arranged on the rotating shaft;

the transmission part comprises a bevel gear and a matched gear, and the bevel gear is fixedly connected with the rotating shaft and is positioned at the lower end of the rotating shaft; the matched gear is fixedly connected with the threaded rod and matched with the bevel gear;

the connecting component comprises a first connecting seat, a second connecting seat, a connecting rod and a fixing part, wherein the first connecting seat is fixedly connected with the sliding block and is positioned above the sliding block; the second connecting seat is fixedly connected with the moving block and is positioned above the moving block; one end of the connecting rod is movably connected with the first connecting seat; the other end of the connecting rod is connected with the second connecting seat through the fixing part.

2. The ku-band transceiver assembly of claim 1,

the movable assembly further comprises a first spring, and two ends of the first spring are fixedly connected with the movable block and the sliding block respectively.

3. The ku-band transceiver assembly of claim 1,

the fixing part comprises a fixing rod and a second spring, and the fixing rod is inserted into the second connecting seat; and two ends of the second spring are fixedly connected with the fixed rod and the second connecting seat respectively.

4. The ku-band transceiver assembly of claim 3,

the fixed rod is provided with an inclined plane, and the inclined plane is positioned on one side of the fixed rod, which is close to the connecting rod.