CN213364212U - Unmanned aerial vehicle production is with resistance to compression detection device - Google Patents
Unmanned aerial vehicle production is with resistance to compression detection device Download PDFInfo
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- CN213364212U CN213364212U CN202022713294.6U CN202022713294U CN213364212U CN 213364212 U CN213364212 U CN 213364212U CN 202022713294 U CN202022713294 U CN 202022713294U CN 213364212 U CN213364212 U CN 213364212U
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- resistance
- unmanned aerial
- aerial vehicle
- detection device
- compression
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- 238000001514 detection method Methods 0.000 title claims abstract description 44
- 238000007906 compression Methods 0.000 title claims abstract description 43
- 230000006835 compression Effects 0.000 title claims abstract description 41
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 25
- 238000009434 installation Methods 0.000 claims abstract description 10
- 230000000694 effects Effects 0.000 abstract description 3
- 238000010248 power generation Methods 0.000 description 3
- 238000003825 pressing Methods 0.000 description 2
- 238000012546 transfer Methods 0.000 description 2
- 208000035473 Communicable disease Diseases 0.000 description 1
- 230000004075 alteration Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000003139 buffering effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 208000015181 infectious disease Diseases 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 238000013507 mapping Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 238000006467 substitution reaction Methods 0.000 description 1
- 238000012360 testing method Methods 0.000 description 1
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Abstract
The utility model discloses an unmanned aerial vehicle production is with resistance to compression detection device, detect machine, energy-saving mechanism, buffer gear and control mechanism including the resistance to compression, the resistance to compression detects the quick-witted top and all is provided with the stand, and the stand top is provided with the crossbeam, energy-saving mechanism sets up the top at the crossbeam, the spout has all been seted up to the stand inside wall, and the spout inboard all is provided with the slider, and slider and elevator cooperation installation simultaneously, the elevator top is provided with the lifter, buffer gear sets up the bottom at the elevator, resistance to compression detects quick-witted top and is provided with the put platform, and puts the platform top and be provided with the slipmat, control mechanism sets up the outside at the stand. This unmanned aerial vehicle is resistance to compression detection device for production through the buffer gear who sets up, is convenient for press down like this to being carried out pressure detection time measuring to being detected the thing through the elevator, and buffer gear can play the cushioning effect with being detected between the thing at the elevator, avoids the too big crushing of pressure to be detected the thing.
Description
Technical Field
The utility model relates to an unmanned aerial vehicle produces relevant technical field, specifically is an unmanned aerial vehicle production is with resistance to compression detection device.
Background
Unmanned aerial vehicle, unmanned aerial vehicle for short, it is an unmanned aerial vehicle that utilizes radio remote control equipment and self-contained program control device to operate, or operate autonomously by vehicle-mounted computer completely or intermittently, compared with piloted aircraft, unmanned aerial vehicle is often more suitable for the dirty or dangerous task, unmanned aerial vehicle can be divided into military and civil according to the application field, unmanned aerial vehicle is divided into scout and target plane, civil aspect, unmanned aerial vehicle industry application, it is the real and new need of unmanned aerial vehicle, at present in the fields of aerial photography, agriculture, plant protection, miniature autodyne, express delivery transportation, disaster relief, observing wild animal, monitoring infectious disease, surveying and mapping, news, electric power inspection, relief, film and television shooting, manufacturing romantic, etc., the use of unmanned aerial vehicle itself is greatly expanded, developed countries also actively expand the industrial application and develop unmanned aerial vehicle technology, in order to carry out the resistance to compression detection to the unmanned aerial vehicle of production, so we provide an unmanned aerial vehicle production with resistance to compression detection device.
But unmanned aerial vehicle production of using at present is with resistance to compression detection device does not have the antiskid measure, leads to very easily that the product that is detected skids and leads to detecting data inaccurate to detection device need connect the power and use, does not have energy-conserving measure, extravagant electric power resource.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an unmanned aerial vehicle is resistance to compression detection device for production to solve the unmanned aerial vehicle production of using at present who proposes in the above-mentioned background art and use resistance to compression detection device, do not have anti-skidding measure, lead to very easily that the product that is detected skids and leads to the detected data inaccurate, and detection device need connect the power and use, do not have energy-conserving measure, the problem of extravagant electric power resource.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an unmanned aerial vehicle production is with resistance to compression detection device, includes resistance to compression detection machine, economizer mechanism, buffer gear and control mechanism, resistance to compression detection machine top all is provided with the stand, and is provided with the crossbeam on the stand top, economizer mechanism sets up the top at the crossbeam, the spout has all been seted up to the stand inside wall, and the spout inboard all is provided with the slider, and slider and elevator cooperation installation simultaneously, the elevator top is provided with the lifter, buffer gear sets up the bottom at the elevator, resistance to compression detection machine top is provided with the put platform, and puts a platform top and be provided with the slipmat, control mechanism sets up the outside at the stand.
Preferably, energy-conserving mechanism includes base, gim peg, support column, loose axle, mounting panel and solar panel, and the base inboard all is provided with the gim peg, the base top is provided with the support column, and is provided with the loose axle on the support column top, the loose axle top is provided with the mounting panel, and the mounting panel top is provided with solar panel.
Preferably, the lifting block and the upright post form a sliding structure through a sliding block, and the sliding block is symmetrically arranged by taking the central axis of the lifting block as a symmetry axis.
Preferably, the lifting block and the cross beam form a lifting structure through a lifting rod, and the lifting rod and the lifting block are vertically arranged.
Preferably, buffer gear includes fixed block, dead lever, spring, briquetting and blotter, and the fixed block inboard all is provided with the dead lever, the dead lever outside all is provided with the spring, and the dead lever bottom is provided with the briquetting, the briquetting bottom is provided with the blotter.
Preferably, the inner side of the non-slip mat is tightly attached to the outer side of the placing table, and the length of the non-slip mat is the same as that of the placing table.
Preferably, the control mechanism comprises an installation block, a rotating shaft, a connecting block and a control box, the rotating shaft is arranged on the inner side of the installation block, the connecting block is arranged on the outer side of the rotating shaft, and the control box is arranged on the outer side of the connecting block.
Compared with the prior art, the beneficial effects of the utility model are that:
1. this unmanned aerial vehicle is resistance to compression detection device for production through the buffer gear who sets up, is convenient for press down like this to being carried out pressure detection time measuring to being detected the thing through the elevator, and buffer gear can play the cushioning effect with being detected between the thing at the elevator, avoids the too big crushing of pressure to be detected the thing.
2. This resistance to compression detection device is used in unmanned aerial vehicle production through the slipmat that sets up, is convenient for like this carry out pressure detection to being detected the thing and time measuring, avoids being detected the thing because the bottom skids and leads to being detected the thing roll-off, can lead to detecting data inaccurate.
3. This unmanned aerial vehicle production is with resistance to compression detection device, through the energy-conserving mechanism that sets up, be convenient for like this detect the machine in the resistance to compression and detect time measuring, can adjust the loose axle in order to transfer solar panel's position to the sun direction according to present sun's position, can resist the pressure and detect the machine and carry out solar energy power generation, save electric power resource.
Drawings
Fig. 1 is a schematic view of the front cross-sectional structure of the present invention;
FIG. 2 is a schematic structural view of the buffer mechanism of the present invention;
FIG. 3 is a schematic structural diagram of the components of the control mechanism of the present invention;
fig. 4 is a schematic view of the structure of the parts of the energy-saving mechanism of the present invention.
In the figure: 1. a compression resistance detector; 2. a column; 3. a cross beam; 4. an energy-saving mechanism; 401. a base; 402. a fixing bolt; 403. a support pillar; 404. a movable shaft; 405. mounting a plate; 406. a solar panel; 5. a chute; 6. a slider; 7. a lifting block; 8. a lifting rod; 9. a buffer mechanism; 901. a fixed block; 902. fixing the rod; 903. a spring; 904. briquetting; 905. a cushion pad; 10. a placing table; 11. a non-slip mat; 12. a control mechanism; 1201. mounting blocks; 1202. a rotating shaft; 1203. connecting blocks; 1204. and a control box.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-4, the present invention provides a technical solution: the utility model provides an unmanned aerial vehicle production is with resistance to compression detection device, including resistance to compression detection machine 1, energy-saving mechanism 4, buffer gear 9 and control mechanism 12, 1 top of resistance to compression detection machine all is provided with stand 2, and 2 tops of stand are provided with crossbeam 3, energy-saving mechanism 4 sets up the top at crossbeam 3, spout 5 has all been seted up to 2 inside walls of stand, and spout 5 inboards all is provided with slider 6, slider 6 and 7 cooperation installations of lifter simultaneously, 7 tops of lifter are provided with lifter 8, buffer gear 9 sets up the bottom at lifter 7, 1 top of resistance to compression detection machine is provided with placing table 10, and placing table 10 tops is provided with slipmat 11, control mechanism 12 sets up the outside at stand 2.
Further, energy-saving mechanism 4 includes base 401, gim peg 402, support column 403, loose axle 404, mounting panel 405 and solar panel 406, and base 401 inboard all is provided with gim peg 402, the base 401 top is provided with support column 403, and the support column 403 top is provided with loose axle 404, loose axle 404 top is provided with mounting panel 405, and the mounting panel 405 top is provided with solar panel 406, energy-saving mechanism 4 through setting up, be convenient for like this when resistance to compression detects machine 1 and examine, can adjust loose axle 404 in order to transfer solar panel 406's position to the sun direction according to present sun's position adjustment, can resist the resistance to compression and detect machine 1 and carry out solar energy power generation, save electric power resource.
Further, the elevator 7 passes through the slider 6 and constitutes sliding structure with stand 2, and the slider 6 uses the axis of elevator 7 to set up as the symmetry, through elevator 7 and the slider 6 that sets up, is convenient for carry out sliding motion with elevator 7 through slider 6 and stand 2 like this, is convenient for lead elevator 7.
Further, the lifting block 7 forms a lifting structure with the cross beam 3 through the lifting rod 8, the lifting rod 8 is perpendicular to the lifting block 7, the lifting block 7 and the lifting rod 8 are arranged, lifting operation of the lifting block 7 is facilitated through the lifting rod 8, and the tested object can be subjected to pressing test.
Further, buffer gear 9 includes fixed block 901, dead lever 902, spring 903, briquetting 904 and cushion 905, and fixed block 901 inboard all is provided with dead lever 902, the dead lever 902 outside all is provided with spring 903, and dead lever 902 bottom is provided with briquetting 904, briquetting 904 bottom is provided with blotter 905, buffer gear 9 through setting up, be convenient for like this push down through elevator 7 when carrying out pressure detection to being detected the thing, buffer gear 9, can be 7 at the elevator and be detected and play the cushioning effect between the thing, avoid the too big crushing of pressure to be detected the thing.
Further, the inboard of slipmat 11 closely laminates with the outside of putting platform 10, and the length of slipmat 11 is the same with the length of putting platform 10, through the slipmat 11 that sets up, is convenient for like this carry out pressure detection to being detected the thing time, avoids being detected the thing because the bottom skids and leads to being detected the thing roll-off, can lead to detecting data inaccurate.
Further, the control mechanism 12 comprises an installation block 1201, a rotating shaft 1202, a connecting block 1203 and a control box 1204, the rotating shaft 1202 is arranged on the inner side of the installation block 1201, the connecting block 1203 is arranged on the outer side of the rotating shaft 1202, the control box 1204 is arranged on the outer side of the connecting block 1203, and the control mechanism 12 is arranged, so that the pressure of the lifting block 7 pressing down can be adjusted conveniently according to the height of the detected object, and the detected object is prevented from being crushed.
The working principle is as follows: for the compression-resistant detection device for the production of the unmanned aerial vehicle, firstly, the inner side of the non-slip mat 11 is tightly attached to the outer side of the placing table 10, the non-slip mat 11 is arranged, so that when the pressure detection is carried out on the detected object, the situation that the detected object slides out due to the bottom sliding of the detected object, which causes inaccurate detection data is avoided, then the energy-saving mechanism 4 is fixed at the top end of the cross beam 3 by using the fixing bolt 402, through the arranged energy-saving mechanism 4, so that when the detection is carried out on the compression-resistant detection machine 1, the movable shaft 404 can be adjusted according to the current position of the sun to adjust the position of the solar panel 406 to the sun direction, the compression-resistant detection machine 1 can carry out solar power generation, the power resource is saved, then the buffer mechanism 9 is arranged at the bottom end of the lifting block 7, and through the arranged buffer mechanism 9, so, the buffer mechanism 9 can play a role in buffering between the lifting block 7 and the detected object to avoid the detected object from being crushed by excessive pressure, and then the detected object can be used, the detected object is firstly placed on the placing table 10 paved with the anti-skid mat 11, then the power supply of the anti-compression detector 1 is turned on through the control box 1204 in the control mechanism 12 to start the whole detection device, then the lifting rod 8 is controlled through the control box 1204 to control the lifting block 7 to ascend and descend, the current descending pressure can be detected, the current pressure value can be displayed in the control box 1204, an operator can record data, the using process of the anti-compression detection device for the production of the unmanned aerial vehicle is completed, the type of the lifting rod 8 is YS-NZ100-12A, and the type of the control box 1204 is-SFMC-X2214A.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The utility model provides an unmanned aerial vehicle production is with resistance to compression detection device, includes resistance to compression detection machine (1), energy-conserving mechanism (4), buffer gear (9) and control mechanism (12), its characterized in that: resistance to compression detects machine (1) top and all is provided with stand (2), and stand (2) top is provided with crossbeam (3), energy-conserving mechanism (4) set up the top at crossbeam (3), spout (5) have all been seted up to stand (2) inside wall, and spout (5) inboard all is provided with slider (6), and slider (6) and elevator (7) cooperation installation simultaneously, elevator (7) top is provided with lifter (8), buffer gear (9) set up the bottom at elevator (7), resistance to compression detects machine (1) top and is provided with puts platform (10), and puts platform (10) top and be provided with slipmat (11), control mechanism (12) set up the outside at stand (2).
2. The unmanned aerial vehicle production is with resistance to compression detection device of claim 1, characterized in that: energy-conserving mechanism (4) include base (401), gim peg (402), support column (403), loose axle (404), mounting panel (405) and solar panel (406), and base (401) inboard all is provided with gim peg (402), base (401) top is provided with support column (403), and support column (403) top is provided with loose axle (404), loose axle (404) top is provided with mounting panel (405), and mounting panel (405) top is provided with solar panel (406).
3. The unmanned aerial vehicle production is with resistance to compression detection device of claim 1, characterized in that: the lifting block (7) and the upright post (2) form a sliding structure through the sliding block (6), and the sliding block (6) is symmetrically arranged by taking the central axis of the lifting block (7).
4. The unmanned aerial vehicle production is with resistance to compression detection device of claim 1, characterized in that: the lifting block (7) and the cross beam (3) form a lifting structure through a lifting rod (8), and the lifting rod (8) and the lifting block (7) are vertically arranged.
5. The unmanned aerial vehicle production is with resistance to compression detection device of claim 1, characterized in that: buffer gear (9) are including fixed block (901), dead lever (902), spring (903), briquetting (904) and cushion (905), and fixed block (901) inboard all is provided with dead lever (902), dead lever (902) outside all is provided with spring (903), and dead lever (902) bottom is provided with briquetting (904), briquetting (904) bottom is provided with cushion (905).
6. The unmanned aerial vehicle production is with resistance to compression detection device of claim 1, characterized in that: the inner side of the non-slip mat (11) is tightly attached to the outer side of the placing table (10), and the length of the non-slip mat (11) is the same as that of the placing table (10).
7. The unmanned aerial vehicle production is with resistance to compression detection device of claim 1, characterized in that: the control mechanism (12) comprises an installation block (1201), a rotating shaft (1202), a connecting block (1203) and a control box (1204), wherein the rotating shaft (1202) is arranged on the inner side of the installation block (1201), the connecting block (1203) is arranged on the outer side of the rotating shaft (1202), and the control box (1204) is arranged on the outer side of the connecting block (1203).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022713294.6U CN213364212U (en) | 2020-11-20 | 2020-11-20 | Unmanned aerial vehicle production is with resistance to compression detection device |
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CN202022713294.6U CN213364212U (en) | 2020-11-20 | 2020-11-20 | Unmanned aerial vehicle production is with resistance to compression detection device |
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CN213364212U true CN213364212U (en) | 2021-06-04 |
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CN202022713294.6U Expired - Fee Related CN213364212U (en) | 2020-11-20 | 2020-11-20 | Unmanned aerial vehicle production is with resistance to compression detection device |
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- 2020-11-20 CN CN202022713294.6U patent/CN213364212U/en not_active Expired - Fee Related
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