CN110465102A - A kind of assembly type fixed-wing unmanned plane hand is done - Google Patents

Abstract

The invention discloses a kind of assembly type fixed-wing unmanned plane hands to do, and belongs to air vehicle technique field.This assembly type fixed-wing unmanned plane hand is done, including main machine body and random body, the main machine body top is provided with propeller, wing installing port is provided in the middle part of the main machine body, the main machine body two sides are fitted with wing A, wing B by fixed wing installing port, the random body tail end is equipped with empennage A, empennage B, the empennage A is fixed on random body tail end by carbon fiber component A, the empennage B is fixed on random body tail end by carbon fiber component B, and the random body is fixedly connected by carbon fiber component C with main machine body.Precision of the present invention is high, and more complicated unmanned plane shape can be generated, and processing quality is reliable and stable, and process velocity is fast, and formation efficiency is high, and at low cost.

Description

A kind of assembly type fixed-wing unmanned plane hand is done

Technical field

The invention belongs to air vehicle technique fields, are related to a kind of unmanned plane, especially a kind of assembly type fixed-wing unmanned plane Hand is done.

Background technique

Traditional unmanned plane manufacture craft can only produce the relatively simple unmanned plane of shape, larger for appearance radian, make The unmanned plane of type complexity can not then be processed.

Most unmanned plane has been manually done, and the larger precision of error not can guarantee, and complex process, basic procedure It is to tear figure open according to design drawing, design section, setting-out assembles, and is formed, and polishing, covering etc. needs the long period, also to adding The master worker of work requires high, and the handicraft printed material that the quality that hand is done whether depends entirely on processing master worker is easy to aging, and intensity can be with Degree of aging non-linear reduction is presented, no forensic science estimates service life.

Novel 3D printing makes that unmanned plane is more sensitive to environment temperature, and there are higher temperatures at many positions of unmanned plane entirely Degree, such as electricity are adjusted, and radio station etc., the temperature of these components will affect neighbouring material, make material deformation, generate unpredictable shadow It ringing, print size is small, is limited by processing method, and the volume of part being capable of processing is little, by taking 2 meters of a frame span of unmanned plane as an example, It probably needs to be split as a part separate machined more than 100, then assembles.This virtually increases the difficulty of assembling, also reduces Intensity.Preponderance, this is that limitation unmanned plane hand does the biggest problem used.

Whether the printed materials such as photosensitive resin or PLA, density are all apparently higher than aviation laminate, composite material.This On the one hand cause weight overweight, on the other hand but also mass center excessively disperses, exacerbate inertia when movement, aircraft can not be simulated Kinetic characteristic, processing price it is more expensive.Therefore, for deficiency existing for each processing method, provide a kind of assembly type fixed-wing without Man-machine hand is done.

Summary of the invention

The purpose of the present invention is there is the above problem in view of the prior art, a kind of assembly type fixed-wing unmanned plane is proposed Hand is done, to solve to propose that unmanned plane hand does the problems such as precision is insufficient in above-mentioned background technique.

Object of the invention can be realized by the following technical scheme: a kind of assembly type fixed-wing unmanned plane hand is done, including Main machine body and random body, the main machine body top is provided with propeller, is provided with wing installing port in the middle part of the main machine body, described Main machine body two sides are fitted with wing A, wing B by fixed wing installing port, and the random body tail end is equipped with empennage A, empennage B, the empennage A are fixed on random body tail end by carbon fiber component A, and the empennage B is fixed on attached by carbon fiber component B On fuselage tail end, the random body is fixedly connected by carbon fiber component C with main machine body.

In above-mentioned assembly type fixed-wing unmanned plane hand is done, the aerodynamic configuration of the main machine body and random body is by EPO plate It is successively bonded, and making material is made of 30% polyethylene and 70% polystyrene.

In above-mentioned assembly type fixed-wing unmanned plane hand is done, the inside of the main machine body and random body is set as hollow knot Structure, and main machine body and random body are internally provided with laminate, laminate with a thickness of 8~10mm.

In above-mentioned assembly type fixed-wing unmanned plane hand is done, the main machine body and being internally provided with for random body are started Machine, sensor and load cabin.

In above-mentioned assembly type fixed-wing unmanned plane hand is done, the angle between the empennage A and empennage B is 100~ 130°。

In above-mentioned assembly type fixed-wing unmanned plane hand is done, the carbon fiber component A and carbon fiber component B is phase homotype Number, it is formed by engraving machine fining-off.

In above-mentioned assembly type fixed-wing unmanned plane hand is done, the carbon fiber component C is process using 3D printing.

Compared with prior art, the invention has the following advantages that

1, this kind of assembly type fixed-wing unmanned plane hand does precision height, generally can reach 0.1~0.05 millimeter, can satisfy nothing It is man-machine when taking a flight test, the requirement to aerodynamic configuration precision.

2, this kind of assembly type fixed-wing unmanned plane hand, which is done, can be generated more complicated unmanned plane shape, than if any larger arc The shape of degree and curvature, this is that traditional handicraft is extremely difficult to.

3, this kind of assembly type fixed-wing unmanned plane hand does that processing quality is reliable and stable, and process velocity is fast, and formation efficiency is high.

4, the cost that this kind of assembly type fixed-wing unmanned plane hand is done is low, the cost can be divided into processing cost and material at This, processing cost is determined that the time is shorter by process time, and price is lower, and material cost is then by EPO price decision.A general frame 2 meters of the span or so of unmanned plane, for Material Cost at 3000 yuan or so, process time is 3 days or so.

Detailed description of the invention

Fig. 1 is overall structure diagram of the invention；

Fig. 2 is the structural schematic diagram of main machine body in the present invention；

Fig. 3 is the structural schematic diagram of random body in the present invention；

Fig. 4 is the structural schematic diagram of carbon fiber component A in the present invention；

Fig. 5 is the structural schematic diagram of carbon fiber component C in the present invention.

In figure: 1, main machine body；2, random body；3, wing A；4, wing B；5, empennage A；6, empennage B；7, carbon fiber component A； 8, carbon fiber component B；9, propeller；10, carbon fiber component C；11, wing installing port.

Specific embodiment

Following is a specific embodiment of the present invention in conjunction with the accompanying drawings, technical scheme of the present invention will be further described, However, the present invention is not limited to these examples.

As shown in Figs. 1-5, a kind of assembly type fixed-wing unmanned plane hand is done, including main machine body 1 and random body 2, the host 1 top of body is provided with propeller 9, and wing installing port 11 is provided in the middle part of the main machine body 1, and 1 two sides of main machine body pass through solid Determine wing installing port 11 and be fitted with wing A3, wing B4,2 tail end of random body is equipped with empennage A5, empennage B6, the empennage A5 is fixed on 2 tail end of random body by carbon fiber component A7, and the empennage B6 is fixed on random body 2 by carbon fiber component B8 On tail end, the random body 2 is fixedly connected by carbon fiber component C10 with main machine body 1.

As shown in Figure 1,2 and 3, the main machine body 1,2 material of random body aerodynamic configuration be successively bonded by EPO plate, And making material is made of 30% polyethylene and 70% polystyrene, have it is very high it is tear-resistant, be puncture, scratch resistance and resistance to Fragmentation changes density of material by adjusting expansion density.It is set as hollow structure inside the main machine body 1, random body 2, and Main machine body 1, random body 2 laminate thickness be 8~10mm, mitigate unmanned plane overall quality, and can be by the pneumatic outer of unmanned plane Shape precision improves.The empennage A5, empennage B6 angle are 100~130 °.

In the present embodiment, the main machine body 1, random body 2 are internally provided with engine, sensor and load cabin, can Requirement when being taken a flight test with meeting unmanned plane, to aerodynamic configuration precision.

As shown in Figures 4 and 5, the carbon fiber component A7 and carbon fiber component B8 is same model, by engraving machine fining-off It forms, intensity is high, light-weight.The carbon fiber component C10 is process using 3D printing, the carbon fiber component of 3D printing processing The surface C10 is relatively smooth, and precision is high.

Working principle: firstly, being successively bonded EPO plate into main machine body 1, random body 2, and pass through carbon fiber component C10 Wing A3, wing B4 are fixed on wing installing port 11 by connection, and empennage A5, empennage B6 are installed on 2 tail end of random body in 100 °, And empennage A5, empennage B6 are further fixed by carbon fiber component A7, carbon fiber component B8, finally by electricity such as load cabin, generators Sub- equipment is installed inside it, and assembling is completed.Precision of the invention is high, generally can reach 0.1~0.05 millimeter, can satisfy nobody Requirement when machine is taken a flight test, to aerodynamic configuration precision；More complicated unmanned plane shape can be generated, than if any larger radian and song The shape of degree, this is that traditional handicraft is extremely difficult to；Processing quality is reliable and stable, and process velocity is fast, and formation efficiency is high；With at This is low, which can be divided into processing cost and material cost, and processing cost is determined that the time is shorter by process time, and price is got over Low, material cost is then by EPO price decision, and general 2 meters of the frame span or so of unmanned plane, Material Cost is at 3000 yuan or so. Process time is 3 days or so.

Specific embodiment described herein is only an example for the spirit of the invention.The neck of technology belonging to the present invention The technical staff in domain can make various modifications or additions to the described embodiments or replace by a similar method In generation, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.

Although 1, main machine body is used more herein；2, random body；3, wing A；4, wing B；5, empennage A；6, empennage B；7, carbon fiber component A；8, carbon fiber component B；9, propeller；10, carbon fiber component C；11, the terms such as wing installing port, but It does not exclude the possibility of using other terms.It is of the invention the use of these items is only for being more convenient to describe and explain Essence；Being construed as any additional limitation is disagreed with spirit of that invention.

Claims (7)

1. a kind of assembly type fixed-wing unmanned plane hand is done, it is made of main machine body (1) and random body (2), it is characterised in that: the master Fuselage (1) top is provided with propeller (9), is provided with wing installing port (11), the main machine body in the middle part of the main machine body (1) (1) two sides are fitted with wing A (3), wing B (4) by fixed wing installing port (11), and random body (2) tail end is equipped with Empennage A (5), empennage B (6), the empennage A (5) are fixed on random body (2) tail end by carbon fiber component A (7), the tail Wing B (6) is fixed on random body (2) tail end by carbon fiber component B (8), and the random body (2) passes through carbon fiber component C (10) it is fixedly connected with main machine body (1).

2. assembly type fixed-wing unmanned plane hand according to claim 1 is done, which is characterized in that the main machine body (1) and attached The aerodynamic configuration of fuselage (2) is successively bonded by EPO plate, and making material is by 30% polyethylene and 70% polystyrene Composition.

3. assembly type fixed-wing unmanned plane hand according to claim 1 is done, which is characterized in that the main machine body (1) and attached The inside of fuselage (2) is set as hollow structure, and main machine body (1) and random body (2) are internally provided with laminate, the thickness of laminate For 8~10mm.

4. assembly type fixed-wing unmanned plane hand according to claim 3 is done, which is characterized in that the main machine body (1) and attached Fuselage (2) is internally provided with engine, sensor and load cabin.

5. assembly type fixed-wing unmanned plane hand according to claim 1 is done, which is characterized in that the empennage A (5) and empennage Angle between B (6) is 100~130 °.

6. assembly type fixed-wing unmanned plane hand according to claim 1 is done, which is characterized in that the carbon fiber component A (7) It is same model with carbon fiber component B (8), is formed by engraving machine fining-off.

7. assembly type fixed-wing unmanned plane hand according to claim 1 is done, which is characterized in that the carbon fiber component C (10) it is process using 3D printing.