CN2770112Y - Automatic spreading electromechanical planar array antenna - Google Patents

Abstract

The utility model relates to an antenna of a wireless detector, more specifically to an automatic spreading electromechanical planar array antenna. The utility model is characterized in that the planar array antenna is divided into an upper array plane and a lower array plane along the altitude direction; the parting plane of the upper array plane and the lower array plane of the rear part of the antenna is provided with a pitch driving mechanism and an electric locking mechanism which are eudipleural; the pitch driving mechanism comprises a frame, an electric motor, a decelerator, a sliding lead screw pair and a crank block segment gear mechanism; the electric locking mechanism comprises an electric motor, a decelerator, a lead screw, cap nuts and a positioning pin. The antenna can automatically expand and withdraw. The antenna having small size, light weight, high dependability, stepless speed regulation and two-shipper synchronization can lock the accuracy for a long time when the system has power failure, and meanwhile, the antenna with the advantages of simple machining and maintenance, good adaptability and low cost can work in the temperature range of-40 DEG C to +55 DEG C.

Description

Automatic-developing electromechanic planar array antenna

Technical field

The present invention relates to the wireless exploration device antenna, specifically planar array antenna.

Background technology

In recent years, high mobile radar mainly was confined to the radar of small aperture antenna.Along with the needs of development of electronic technology and modern war, ground medium-long range three-dimensional military radar extensively adopts planar array antenna, and develops with the rapid-action direction towards height is motor-driven.The bore of medium-long range antenna for 3-D radar is excessive, must carry out the piecemeal processing to antenna and could satisfy cross-country transport performance requirement.Do not establish/remove receipts if do not realize self-propelled mount(ing), piecemeal radar antenna, after radar is got into position, must spend great amount of manpower and time to remove the assembly unit antenna, radar has just been lost quick reaction capability like this.The planar array antenna of China's ground maneuver radar piecemeal adopts crane to add manual type in the past to carry out assembly unit always.Antenna of assembly unit short then half a day, long then 3-4 days; And need 6-8 people.Remove antenna of receipts and also need same time and manpower/material resources.The needs of my army's modernization construction can not have been satisfied.

Summary of the invention

The objective of the invention is: get into position and to work rapidly and need withdraw from the serious hysteresis defective that the position is but walked in order to overcome complete machine that artificial assembly unit antenna causes, a kind of assembly unit automatically/remove automatic-developing electromechanic planar array antenna of receiving antenna is provided.

The technical solution that realizes the object of the invention is such:

Automatic-developing electromechanic planar array antenna comprises planar array antenna, it is characterized in that:

A, described planar array antenna are divided into two fronts up and down along short transverse, and described two fronts up and down are respectively antenna top piece and the following piece of antenna;

B, be respectively equipped with the pitching driving mechanism in the divisional plane place left-right symmetric of two fronts up and down at antenna back, described pitching driving mechanism comprises frame, motor, decelerator, lead screw pair, crank block fan-shaped gear mechanism; The two ends of leading screw are located in the frame by bearing, and leading screw is provided with nut, and an end of leading screw is connecting decelerator and motor; Be provided with a guide post in parallel and the leading screw frame, be arranged with slide block on the guide post, a side of slide block is connecting feed screw nut, and opposite side is provided with groove, is being connected fork with the roller of groove fit by axle; The other end of fork is connecting sector gear, sector gear and with the pinion of its engagement all by being located in upper rack, pinion shaft is an output shaft, output shaft extends outside the frame, and is connecting antenna top piece, the other end of output shaft is provided with angular transducer;

C, also be respectively equipped with electric lock mechanism in the divisional plane place left-right symmetric of two fronts up and down at antenna back, it comprises locking motor, reductor, leading screw, nut and alignment pin; Connecting reductor on the output shaft of locking motor, the output shaft of reductor connects leading screw, is connected alignment pin with the leading screw nut engaged, the alignment pin sky is enclosed within on the leading screw, leading screw is positioned at axle sleeve, and axle sleeve is connecting antenna top piece, and the following piece of antenna is provided with the location hole that cooperates with alignment pin.

2, according to above-mentioned 1 described automatic-developing electromechanic planar array antenna, it is characterized in that: the motor of described pitching driving mechanism is the MDMA153AIA servomotor.

3, according to above-mentioned 1 described automatic-developing electromechanic planar array antenna, it is characterized in that: the decelerator that an end of the turn-screw of described pitching driving mechanism connects is a speed reduction bearing.

4, according to above-mentioned 1 described automatic-developing electromechanic planar array antenna, it is characterized in that: be provided with two-direction thrust bearing by axle sleeve between the turn-screw of described pitching driving mechanism and the decelerator.

5, according to above-mentioned 1 described automatic-developing electromechanic planar array antenna, it is characterized in that: described locking motor is the MAMA023AIA servomotor.

6, according to above-mentioned 1 described automatic-developing electromechanic planar array antenna, it is characterized in that: the following piece of described alignment pin and antenna cooperation place is coniform, and the location hole that cooperates with alignment pin on the following piece of antenna is a conical bore.

Useful technique effect of the present invention is embodied in following several aspect:

1, perfect in shape and function security performance is superior: antenna launches, removes receipts automatically, and two-shipper is synchronous, the angular displacement feedback, and the driving mechanism automatic overload protection, anti-antenna fall protection during the driving mechanism power down, antenna automatically locks, release, can realize functions such as straighforward operation.

2, the present invention has successfully carried out Electromechanical Design to actuator, locking mechanism and speed, position feedback device, have that volume is little, in light weight, reliability is high, stepless speed regulation, two-shipper synchronously, can lock precision for a long time after system's power down.

Advantages such as 3, antenna of the present invention has processing, easy to maintenance, and adaptive capacity is good, cost is low, can work in-40 ℃～+ 55 ℃ temperature range.

4, the present invention is stressed even when adopting two cover driving mechanisms can make antenna launch/fold, and can guarantee piece unlikely falling in antenna top when a drive system transmission is out of order and be disassembled maintenance.

Description of drawings

Fig. 1 is a structural representation of the present invention,

Fig. 2 is the end view of Fig. 1,

Fig. 3 is the vertical view of Fig. 1,

Fig. 4 is a pitching driving mechanism schematic diagram,

Fig. 5 is the A-A cutaway view of Fig. 4,

Fig. 6 is the B-B cutaway view of Fig. 4,

Fig. 7 is the I place enlarged drawing of Fig. 6,

Fig. 8 is the electric lock mechanism schematic diagram.

Embodiment

Below in conjunction with accompanying drawing, the present invention is done to describe further by embodiment.

Referring to Fig. 1, Fig. 2 and Fig. 3, this automatic-developing electromechanic planar array antenna comprises planar array antenna and turntable 7, and planar array antenna is divided into up and down two fronts along short transverse, i.e. the following piece 6 of antenna top piece 3 and antenna, the face width 7.4 of going into battle * high 1.6m ², heavy 1600kg, following front is wide by 7.4 * high 2.2m ², heavy 2500kg.

Divisional plane place left-right symmetric at two fronts up and down at antenna back is separately installed with pitching driving mechanism 1, and pitching driving mechanism 1 comprises frame 8, motor 5, decelerator 4, lead screw pair, crank block fan-shaped gear mechanism.The two ends of leading screw 9 in frame 8, have attaching nut 10 by Bearing Installation on the leading screw 9, an end of leading screw 9 is connecting decelerator 4 and motor 9.In parallel and leading screw, the frame guide post 11 is installed, is set with slide block 12 on the guide post 11, a side of slide block 12 is connecting feed screw nut 10, and opposite side is provided with groove, is being connected fork 14 with the roller 13 of groove fit by axle; The other end of fork 14 is connecting sector gear 15, sector gear 15 and with the pinion 16 of its engagement all by being located in frame 8 tops, 16 of pinions are output shaft 17, output shaft 17 extends outside the frame 8, and connecting antenna top piece 3, the other end of output shaft 17 is equipped with angular transducer 18.

The motor 5 of pitching driving mechanism is the MDMA153AIA servomotor.

The decelerator 4 that one end of the turn-screw 9 of pitching driving mechanism connects is a speed reduction bearing.

By axle sleeve 24 two-direction thrust bearing 25 is installed between the turn-screw 9 of pitching driving mechanism and the decelerator 4.

Divisional plane place, pitching driving mechanism 1 outside at two fronts up and down at antenna back are separately installed with electric lock mechanism 2.Electric lock mechanism 2 comprises locking motor 19, reductor 20, leading screw 21, nut 22 and alignment pin 23.Connecting reductor 20 on the output shaft of locking motor 19, the output shaft of reductor 20 connects leading screw 21, be connected alignment pin 23 with leading screw 21 nut engaged 22, alignment pin 23 is cylindric hollow pins, its sky is enclosed within on the leading screw 21, leading screw 21 is positioned at axle sleeve 26, and axle sleeve 26 is connecting antenna top piece 3, and the following piece 3 of antenna is provided with the location hole 27 that cooperates with alignment pin 23.Alignment pin 23 is coniform with the following piece of antenna 6 cooperation places, and the location hole 27 that cooperates with alignment pin 23 on the following piece 6 of antenna is conical bore.Locking motor 19 is the MAMA023AIA servomotor.

Operating state situation of the present invention is as follows:

Antenna launches: after controlling organization PLC module CPU226 receives antenna expansion instruction, send control command simultaneously to two motor driver MDDA152A1A, these two motor drivers drive two servomotor MDMA153A1A runnings on the luffing mechanism respectively.Encoder on the servomotor feeds back to PLC expansion module EM235 with motor velocity signal through motor driver, does the two-way rate signal back of the body that becomes digital quantity after the A/D conversion through EM235 and delivers to CPU226 and compare.With one tunnel speed wherein is benchmark, another road speed by comparison, and suitable plus-minus is to keep two-way speed unanimity.When angular transducer 18 marker antenna top pieces 3 during near predetermined angular position, detect the variation of two-way drive motors torque, when torque is increased to 70% suddenly when above from 40%, judge that this road driving mechanism puts in place, and this road motor of locking; When changing equally also appears in other one tunnel torque, could judge that front is rotated in place on the antenna.

The antenna locking: after front 3 put in place on the antenna, controlling organization PLC module CPU226 sent instructions to the latch motor driver, drove alignment pin 23, inserted in the location hole 27 on the following piece 6 of antenna; When driver feedback moment during greater than setting, the expression antenna locking puts in place.So far antenna sets up end automatically.

Antenna is removed receipts: the inverse process that is last two states.Antenna release before this when release puts in place, has a location switch sender to feed back to CPU226.Controlling organization PLC stops the latch machine operation in view of the above, starts antenna and removes the receipts action, and alignment pin 23 is withdrawn from the location hole 27 on the following piece 3 of antenna; The MDMA153AIA servomotor drives leading screw 9, drives lead screw pair, crank block fan-shaped gear mechanism, makes on the antenna front 3 remove receipts, sees dotted line among Fig. 2.Remove when receiving, have a location switch sender to feed back to CPU226 equally.Controlling organization finishes antenna in view of the above and removes the receipts action.

Stateful Inspection: as long as the automatic horizontal control system energising, controlling organization is the state of each link of surveillance all the time, to guarantee the fail safe of system works.Each motor driver all reports controlling organization to the state of oneself (containing fault) information; controlling organization does not have just can carry out under the situation of fault the everything instruction in the affirmation system; if break down in the running, controlling organization is timely autostop also.

Claims (6)

1, automatic-developing electromechanic planar array antenna comprises planar array antenna, it is characterized in that:

A, described planar array antenna are divided into two fronts up and down along short transverse, and described two fronts up and down are respectively antenna top piece and the following piece of antenna;

B, be respectively equipped with the pitching driving mechanism in the divisional plane place left-right symmetric of two fronts up and down at antenna back, described pitching driving mechanism comprises frame, motor, decelerator, lead screw pair, crank block fan-shaped gear mechanism; The two ends of leading screw are located in the frame by bearing, and leading screw is provided with nut, and an end of leading screw is connecting decelerator and motor; Be provided with a guide post in parallel and the leading screw frame, be arranged with slide block on the guide post, a side of slide block is connecting feed screw nut, and opposite side is provided with groove, is being connected fork with the roller of groove fit by axle; The other end of fork is connecting sector gear, sector gear and with the pinion of its engagement all by being located in upper rack, pinion shaft is an output shaft, output shaft extends outside the frame, and is connecting antenna top piece, the other end of output shaft is provided with angular transducer;

C, also be respectively equipped with electric lock mechanism in the divisional plane place left-right symmetric of two fronts up and down at antenna back, it comprises locking motor, reductor, leading screw, nut and alignment pin; Connecting reductor on the output shaft of locking motor, the output shaft of reductor connects leading screw, is connected alignment pin with the leading screw nut engaged, the alignment pin sky is enclosed within on the leading screw, leading screw is positioned at axle sleeve, and axle sleeve is connecting antenna top piece, and the following piece of antenna is provided with the location hole that cooperates with alignment pin.

2, automatic-developing electromechanic planar array antenna according to claim 1 is characterized in that: the motor of described pitching driving mechanism is the MDMA153AIA servomotor.

3, automatic-developing electromechanic planar array antenna according to claim 1 is characterized in that: the decelerator that an end of the turn-screw of described pitching driving mechanism connects is a speed reduction bearing.

4, automatic-developing electromechanic planar array antenna according to claim 1 is characterized in that: be provided with two-direction thrust bearing by axle sleeve between the turn-screw of described pitching driving mechanism and the decelerator.

5, automatic-developing electromechanic planar array antenna according to claim 1 is characterized in that: described locking motor is the MAMA023AIA servomotor.

6, automatic-developing electromechanic planar array antenna according to claim 1 is characterized in that: the following piece of described alignment pin and antenna cooperation place is coniform, and the location hole that cooperates with alignment pin on the following piece of antenna is a conical bore.

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