CN211017414U

CN211017414U - Horn antenna capable of receiving information at multiple angles

Info

Publication number: CN211017414U
Application number: CN201922312963.6U
Authority: CN
Inventors: 倪四井; 杨淑梅
Original assignee: Nanjing Jingzhiye Electronic Equipment Co ltd
Current assignee: Nanjing Jingzhiye Electronic Equipment Co ltd
Priority date: 2019-12-20
Filing date: 2019-12-20
Publication date: 2020-07-14
Anticipated expiration: 2029-12-20

Abstract

The utility model discloses a can multi-angle receiving information's horn antenna belongs to horn antenna's technical field. In order to enable the horn antenna to receive information in different directions, a rotating assembly and a turning assembly are arranged in the device, a rotating motor drives a first gear to rotate, and then a moving first gear drives a second gear to rotate, so that an output shaft moves, the moving output shaft drives a rotating disc to move, and further the horn antenna can be adjusted to be in a plane.

Description

Horn antenna capable of receiving information at multiple angles

Technical Field

The utility model belongs to the technical field of horn antenna, concretely relates to horn antenna that can multi-angle receipt information.

Background

The horn antenna is widely used, the influence of the horn wall on radiation can be calculated through a formula, and the horn antenna is simple in structure and easy to operate and control.

However, the horn antenna is difficult to receive information from multiple directions, most of the existing horn antennas are fixedly installed at expected positions, and further the horn antennas can only receive the information in the fixed direction, and further the horn antennas with different angles are required to be installed at the same position, and further the horn antennas are used for receiving the information transmitted in different directions, so that resource waste can be caused.

Therefore, how to enable the horn antenna to receive information in all directions is a problem to be solved at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model provides a can multi-angle receiving information's horn antenna to solve the above-mentioned problem that prior art exists.

The technical scheme is as follows: a feedhorn capable of receiving information from multiple angles, comprising:

the base assembly comprises a chassis, a rotating disc rotationally connected with the chassis, a base fixedly connected with the upper surface of the rotating disc, struts symmetrically arranged at two sides of the base, a turnover mechanism arranged at the top ends of the struts, and a horn antenna arranged on the turnover mechanism;

the rotating assembly comprises a box body and a rotating motor which are fixedly connected with the lower surface of the chassis, an output shaft which is rotatably connected with the box body, a first gear which is fixedly connected with the rotating motor, and a second gear which is meshed with the first gear, wherein the second gear is sleeved on the output shaft;

the overturning mechanism comprises a connecting block fixedly connected with the top end of the support column, an overturning motor fixedly connected with the connecting block, a rotating disk rotatably connected with the output end of the overturning motor, a clamping arm fixedly connected with the rotating disk, and a rotating plate arranged on the clamping arm;

the lifting assembly, with base fixed connection's elevator motor, with elevator motor output fixed connection's drive wheel, with drive wheel sliding connection's initiative belt, with initiative belt sliding connection's fixed pulley cup joints axis of rotation on the fixed pulley, with axis of rotation other end fixed connection from the driving wheel, and with from driving wheel sliding connection's driven belt.

In a further embodiment, the lifting assembly further comprises a group of fixed gears, a lead screw and a mobile platform, wherein the fixed gears are symmetrically arranged on the base and are in sliding connection with the driven belt, the lead screw is fixedly connected with the fixed gears, the mobile platform is in sliding connection with the lead screw, and the lead screw can move through the rotation of the fixed gears, so that the lifting of the device is ensured.

In a further embodiment, a triangular structure is formed between the driven wheel and the two fixed gears, and the stability of the device in the movement process is ensured through the triangular structure, so that the smooth lifting of the device is ensured.

In a further embodiment, the output end of the output shaft is arranged at the central position of the chassis and fixedly connected with the rotating disc, and the position of the horn antenna can be adjusted on the horizontal plane through the rotation of the output shaft, so that information of different positions on the horizontal plane can be received.

In a further embodiment, the connecting block is fixedly connected with the mobile station, and the rotating disc is further provided with a shock pad, so that the shock of the rotating assembly during movement is reduced through the installation of the shock pad, and the purpose of protecting the device is further achieved.

In a further embodiment, the top of pillar still is equipped with the rubber stopper, and then has guaranteed through the stopper that sets up that the mobile station only can be in the position motion of expectation, simultaneously the stopper is the rubber material, and then can reduce the impact of mobile station to the limiting plate, and then has guaranteed the safety of device.

Has the advantages that: the utility model relates to a horn antenna capable of receiving information in multiple angles, which is characterized in that in order to enable the horn antenna to receive information in different directions, a rotating component and a turning component are arranged in the device, a first gear is driven to rotate by a rotating motor, and then a second gear is driven to rotate by the first gear, so that an output shaft moves, the output shaft of the movement drives a rotating disc to move, and further the horn antenna can adjust the position in a plane, when the expected position is reached, the turning motor drives the rotating disc to start moving, and further the rotating disc of the movement drives a clamping arm to start moving, and further the horn antenna is driven to move on a vertical plane, and further the device can receive information in different directions by the matching of the rotating component and the turning component, and meanwhile, a lifting component is arranged, so that the device can be ensured not to work, can be recovered, thereby achieving the purpose of protecting the device.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic view of the middle rotating assembly of the present invention.

Fig. 3 is a schematic view of the middle lifting assembly of the present invention.

Fig. 4 is a schematic view of the turnover mechanism of the present invention.

The figures are numbered: chassis 1, lifting unit 2, lifting motor 201, driving wheel 202, fixed pulley 203, driving belt 204, rotating shaft 205, driven wheel 206, driven belt 207, fixed gear 208, lead screw 209, mobile station 210, pillar 211, stopper 212, turning disc 3, horn antenna 4, base 5, rotating unit 6, rotating motor 601, first gear 602, second gear 603, output shaft 604, box 605, turnover mechanism 7, turnover motor 701, rotating disc 702, clamping arm 703, connecting block 704, shock pad 705.

Detailed Description

Through research and analysis of the applicant, the reason for the problem (the traditional horn antenna can only ensure that the horn antenna receives information in a preset plane, and can not automatically adjust the receiving range, so that the horn antenna can not receive information in all directions, and information transmission errors are caused) is that most of the existing horn antennas are fixedly arranged at expected positions, so that the horn antenna can only receive waveforms in fixed directions, and further a plurality of horn antennas are required to be arranged at the same position for receiving information, thereby causing waste, in order to enable the horn antenna to receive information in different directions, a rotating assembly and a turning assembly are arranged in the device, a first gear is driven to rotate by a rotating motor, and then a moving first gear drives a second gear to rotate, so that an output shaft moves, and the moving output shaft drives a rotating disc to move, and then make the horn antenna can adjust the position in the plane, after arriving anticipated position, the upset motor drives the rotary disk and begins to move, and then the rotary disk of motion drives the centre gripping arm and begins to move, and then drives horn antenna and move on the vertical plane, and then through the cooperation of rotating assembly and upset subassembly, guaranteed that the device can receive the information in different position, still be equipped with lifting unit simultaneously, can guarantee that the device can retrieve when out of work, and then reach protection device's purpose.

A feedhorn capable of receiving information from multiple angles, comprising: chassis 1, lifting unit 2, lifting motor 201, driving wheel 202, fixed pulley 203, driving belt 204, rotating shaft 205, driven wheel 206, driven belt 207, fixed gear 208, lead screw 209, mobile station 210, pillar 211, stopper 212, turning disc 3, horn antenna 4, base 5, rotating unit 6, rotating motor 601, first gear 602, second gear 603, output shaft 604, box 605, turnover mechanism 7, turnover motor 701, rotating disc 702, clamping arm 703, connecting block 704, shock pad 705.

The base assembly comprises a rotating disc 3 rotatably connected to the chassis 1, a base 5 fixedly connected to the upper surface of the rotating disc 3, support columns 211 symmetrically arranged on two sides of the base 5, a turnover mechanism 7 fixedly arranged at the top ends of the support columns 211, a clamping arm 703 fixedly connected to the turnover assembly, a rotating plate fixedly arranged on the clamping arm 703, and a horn antenna 4 fixedly connected to the rotating plate; the lifting assembly 2 comprises a lifting motor 201 fixedly connected to the base 5, a driving wheel 202 fixedly mounted at the output end of the lifting motor 201, a driving belt 204 slidably connected to the driving wheel 202, a fixed pulley 203 slidably connected to the driving belt 204, a rotating shaft 205 sleeved on the fixed pulley 203, a driven wheel 206 fixedly mounted at the other end of the rotating shaft 205, and a driven belt 207 slidably connected to the driven wheel 206; the rotating assembly 6 comprises a box body 605 fixedly connected to the lower surface of the chassis 1, an output shaft 604 and a rotating motor 601 fixedly arranged on the box body 605, a first gear 602 fixedly connected to the output end of the rotating motor 601, and a second gear 603 engaged with the first gear 602, wherein the second gear 603 is sleeved on the output shaft 604; the turnover mechanism 7 comprises a connecting block 704 fixedly connected to the top end of the support column 211, a turnover motor 701 fixedly arranged on the connecting block 704, a rotating disk 702 fixedly arranged on the output end of the turnover motor 701, and a clamping arm 703 arranged on the rotating disk 702; when the horn antenna 4 starts to adjust the receiving position, the rotating motor 601 starts to move, the moving rotating motor 601 drives the first gear 602 to start to rotate, then the moving first gear 602 drives the second gear 603 engaged with the first gear to start to rotate, then the rotating second gear 603 drives the output shaft 604 to start to move, further the moving output shaft 604 drives the rotating disc 3 to start to rotate, further the moving rotating disc 3 drives the base 5 to start to move, so that the horn antenna 4 starts to move, then the moving horn antenna 4 can adjust the receiving position of the horn antenna 4 on a plane, when the horn antenna 4 is at a desired position, the rotating motor 601 stops working, further the position of the horn antenna 4 on the horizontal plane is fixed, then the driving wheel 202 starts to rotate, further the driving belt 204 starts to move, further the moving driving belt 204 drives the fixed pulley 203 to start to move, then the rotating transmission gear drives the rotating shaft 205 to start moving, and further drives the driven belt 207 to start moving, and further the moving driven belt 207 drives the fixed gear 208 to start rotating, so that the lead screw 209 starts moving, and further the mobile station 210 starts moving, and further the moving mobile station 210 arrives at a designated place, and further the lifting work is completed, at this moment, the rotating motor 601 starts rotating, and further the rotating disc 702 is driven to start moving, and then the moving rotating disc 702 drives the clamping arm 703 to start rotating, and then the rotating clamping arm 703 drives the rotating plate to start moving, so that the receiving position of the horn antenna 4 can be adjusted on a vertical plane by the horn antenna 4, and further the function of all-directional information receiving is achieved.

The lifting component 2 further comprises a set of fixed gears 208, a lead screw 209 and a mobile platform 210, wherein the fixed gears 208 are symmetrically arranged on the base 5 and are in sliding connection with the driven belt 207, the lead screw 209 is fixedly connected with the fixed gears 208, the mobile platform 210 is in sliding connection with the lead screw 209, the lead screw is driven to start moving through the rotation of the fixed gears 208, the moving lead screw 209 drives the mobile platform 210 in sliding connection with the lead screw 209 to start moving, and the lifting of the device is guaranteed.

The driven wheel 206 and the two fixed gears 208 form a triangular structure, and the triangular structure is uniquely determined after three vertexes are determined through the arranged triangular structure, so that the device is prevented from deforming in the movement process, and the safety of the device is further ensured.

The output end of the output shaft 604 is arranged at the central position of the chassis 1 and fixedly connected with the rotating disc 3, and through the arranged output shaft 604, the rotating motor 601 is enabled to rotate the chassis 1, so that the position of the horn antenna 4 can be adjusted on the horizontal plane, and then the position of the horn antenna 4 is adjusted, so that information of different positions on the horizontal plane is received.

The connecting block 704 is fixedly connected with the mobile station 210, the rotating disc 702 is further provided with a shock pad 705, and the pressure of the device on the rotating disc 702 can be reduced when the device vibrates through the viscosity and the porous loose property of the shock pad 705, so that the purpose of protecting the device is achieved.

The top of pillar 211 still is equipped with rubber stopper 212, rubber materials has fine wearability and very high elasticity, and then produces the extrusion back when the device to stopper 212, stopper 212 not only can reduce the pressure of device to stopper 212, but also can resume the original shape after the striking to the life of extension device.

Description of the working principle: when the horn antenna 4 starts to adjust the receiving position, the rotating motor 601 starts to move, the moving rotating motor 601 drives the first gear 602 to start to rotate, then the moving first gear 602 drives the second gear 603 engaged with the first gear to start to rotate, then the rotating second gear 603 drives the output shaft 604 to start to move, further the moving output shaft 604 drives the rotating disc 3 to start to rotate, further the moving rotating disc 3 drives the base 5 to start to move, so that the horn antenna 4 starts to move, then the moving horn antenna 4 can adjust the receiving position of the horn antenna 4 on a plane, when the horn antenna 4 is at a desired position, the rotating motor 601 stops working, further the position of the horn antenna 4 on the horizontal plane is fixed, then the driving wheel 202 starts to rotate, further the driving belt 204 starts to move, further the moving driving belt 204 drives the fixed pulley 203 to start to move, then the rotating transmission gear drives the rotating shaft 205 to start moving, and further drives the driven belt 207 to start moving, and further the moving driven belt 207 drives the fixed gear 208 to start rotating, so that the lead screw 209 starts moving, and further the mobile station 210 starts moving, and further the moving mobile station 210 arrives at a designated place, and further the lifting work is completed, at this moment, the rotating motor 601 starts rotating, and further the rotating disc 702 is driven to start moving, and then the moving rotating disc 702 drives the clamping arm 703 to start rotating, and then the rotating clamping arm 703 drives the rotating plate to start moving, so that the receiving position of the horn antenna 4 can be adjusted on a vertical plane by the horn antenna 4, and further the function of all-dimensional information receiving is achieved, and the whole working process is completed.

As mentioned above, although the present invention has been shown and described with reference to certain preferred embodiments, it should not be construed as limiting the invention itself. Various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The utility model provides a can multi-angle receiving information's horn antenna, characterized by includes:

the overturning mechanism comprises a connecting block fixedly connected with the top end of the support column, an overturning motor fixedly connected with the connecting block, a rotating disk connected with the output end of the overturning motor, a clamping arm fixedly connected with the rotating disk, and a rotating plate arranged on the clamping arm;

2. The horn antenna capable of receiving information from multiple angles as claimed in claim 1, wherein: the lifting assembly further comprises a group of fixed gears, a lead screw and a moving platform, wherein the fixed gears are symmetrically arranged on the base and are in sliding connection with the driven belt, the lead screw is fixedly connected with the fixed gears, and the moving platform is in sliding connection with the lead screw.

3. The horn antenna capable of receiving information from multiple angles as claimed in claim 1, wherein: and a triangular structure is formed between the driven wheel and the two fixed gears.

4. The horn antenna capable of receiving information from multiple angles as claimed in claim 1, wherein: the output end of the output shaft is arranged at the central position of the chassis and is fixedly connected with the rotating disc.

5. The horn antenna capable of receiving information from multiple angles as claimed in claim 2, wherein: the connecting block with the mobile station fixed connection, still be equipped with the shock pad on the rotary disk.

6. The horn antenna capable of receiving information from multiple angles as claimed in claim 5, wherein: the top end of the strut is also provided with a rubber limiting block.