CN105890638B - A kind of multi-angle observation device - Google Patents
A kind of multi-angle observation device Download PDFInfo
- Publication number
- CN105890638B CN105890638B CN201610296968.2A CN201610296968A CN105890638B CN 105890638 B CN105890638 B CN 105890638B CN 201610296968 A CN201610296968 A CN 201610296968A CN 105890638 B CN105890638 B CN 105890638B
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- Prior art keywords
- sliding block
- arc section
- spring
- circuit orbit
- observation device
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Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01D—MEASURING NOT SPECIALLY ADAPTED FOR A SPECIFIC VARIABLE; ARRANGEMENTS FOR MEASURING TWO OR MORE VARIABLES NOT COVERED IN A SINGLE OTHER SUBCLASS; TARIFF METERING APPARATUS; MEASURING OR TESTING NOT OTHERWISE PROVIDED FOR
- G01D11/00—Component parts of measuring arrangements not specially adapted for a specific variable
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- Physics & Mathematics (AREA)
- General Physics & Mathematics (AREA)
- A Measuring Device Byusing Mechanical Method (AREA)
Abstract
The present invention provides a kind of multi-angle observation devices, including brake assemblies, circuit orbit, the first sliding block, the brake assemblies include handwheel, column, drawstring, bolt, spring, the handwheel is fixed on the top of the column, the drawstring upper end is wrapped on the handwheel, and lower end is connect with the catch top, and the bolt bottom is conical head, spring is socketed on the bolt, and the lower surface of spring is contacted with the upper surface of the conical head;The circuit orbit is horizontally disposed with, the circuit orbit is equipped with the bellmouth being adapted to the conical head shape of bolt, first sliding block is slidably connected with circuit orbit, and the brake assemblies are fixed on first sliding block, and the upper surface of the spring is contacted with first sliding block or column.The grafting and disengaging of conical head and bellmouth are realized by rotating handwheel, so as to fulfill the conversion for being fixedly connected and being slidably connected between the first sliding block and circuit orbit, rational in infrastructure, positioning action is convenient.
Description
Technical field
The present invention relates to measurement, observation positioning device field, more particularly to a kind of multi-angle observation devices.
Background technology
Existing multi-angle observation device is also seriously limited there are the shortcomings that build is larger, flexibility is poor, not readily portable
Its generalization.Existing multi-angle observation device is slided again by the way of circuit orbit is laid on horizontal plane on circuit orbit
It is dynamic to be connected to the arc orbit set on vertical plane, after position of the arc orbit on circuit orbit is adjusted, connected by screw
The mode connect is fixed on circuit orbit, since circuit orbit and arc orbit are there are the characteristics of volume is larger, heavier-weight,
The mode being connected by screw by arc orbit fix there are it is time-consuming and laborious the shortcomings that.
Invention content
The technical problems to be solved by the invention are:A kind of positioning action easily multi-angle observation device is provided.
In order to solve the above-mentioned technical problem, the technical solution adopted by the present invention is:
A kind of multi-angle observation device, including brake assemblies, circuit orbit, the first sliding block, the brake assemblies include hand
Wheel, column, drawstring, bolt, spring, the handwheel are fixed on the top of the column, and the drawstring upper end is wrapped in the hand
On wheel, lower end is connect with the catch top, and the bolt bottom is conical head, and the spring is socketed on the bolt, and
The lower surface of the spring is contacted with the upper surface of the conical head;The circuit orbit is horizontally disposed with, on the circuit orbit
Equipped with the bellmouth that the conical head shape with the bolt is adapted to, first sliding block is slidably connected with the circuit orbit, institute
It states brake assemblies to be fixed on first sliding block, the upper surface of the spring is contacted with first sliding block or column.
The beneficial effects of the present invention are:The visualizer of peripheral hardware is connect with the first sliding block, and the first sliding block is slided with circuit orbit
Dynamic connection, position of first sliding block on circuit orbit is variable, visualizer can multi-angle observation, it is rational in infrastructure;First sliding block with
It is fixedly connected or is slidably connected between circuit orbit and realized by brake assemblies, specially:Column is fixed on the first sliding block
On, column, handwheel, drawstring, bolt, spring slide, the conical head and circular rail of bolt bottom with the slip of the first sliding block
Tapered bore profile cooperation on road, when hand wheel rotating drives bolt rising by drawstring, conical head is detached from bellmouth, the first sliding block
It is slidably connected with circuit orbit, when hand wheel rotating drives bolt decline by drawstring, conical head, which is stablized, under the action of the spring inserts
Enter in bellmouth, the first sliding block is fixedly connected with circuit orbit, without realizing the first sliding block and circle by way of the turn of the screw
The fixation of track only need to rotate handwheel, and the cooperation of conical head and bellmouth can make the first sliding block and circle with being slidably connected
The connection of shape track is more accurate, and positioning action is convenient, time saving and energy saving, and accurate positioning.
Description of the drawings
Fig. 1 is the vertical view of the multi-angle observation device of the embodiment of the present invention;
Fig. 2 is the front view of the multi-angle observation device of the embodiment of the present invention;
Fig. 3 is the A partial views of Fig. 2 of the embodiment of the present invention;
Fig. 4 is the left view of the multi-angle observation device of the embodiment of the present invention;
Fig. 5 is the structure diagram that brake component, the first sliding block of the embodiment of the present invention are connect with circuit orbit;
Fig. 6 is the structure diagram that the brake component of the embodiment of the present invention is locally connect with the first sliding block, circuit orbit.
Label declaration:
1st, brake assemblies;2nd, circuit orbit;3rd, the first sliding block;5th, first handle;6th, the second sliding block;7th, third sliding block;8、
Connecting rod;9th, semi-circular track;
11st, handwheel;12nd, column;13rd, drawstring;14th, bolt;141st, conical head;142nd, guide rod;143rd, hanging ring;15th, spring;
16th, spring limiting board;161st, first through hole;17th, second handle;
21st, bellmouth;22nd, guide rail;23rd, I-shaped pedestal;24th, arc orbit;
91st, the second through-hole;92nd, bottom arc section;921st, fourth hole;93rd, top arc section;931st, third through-hole;94、
Screens component;941st, shrapnel;942nd, positioning pin.
Specific embodiment
For the technology contents that the present invention will be described in detail, the objects and the effects, below in conjunction with embodiment and coordinate attached
Figure is explained.
The design of most critical of the present invention is:The fixed company between the first sliding block and circuit orbit is realized by brake assemblies
It connects, positioning action is convenient.
Fig. 1 to Fig. 6 is please referred to, the present invention provides a kind of multi-angle observation device, including brake assemblies 1, circuit orbit
2nd, the first sliding block 3, the brake assemblies 1 include handwheel 11, column 12, drawstring 13, bolt 14, spring 15, and the handwheel 11 is solid
The top of the column 12 is scheduled on, 13 upper end of drawstring is wrapped on the handwheel 11, and lower end connects with 14 top of bolt
It connects, 14 bottom of bolt is conical head 141, and the spring 15 is socketed on the bolt 14, and the following table of the spring 15
Face is contacted with the upper surface of the conical head 141;The circuit orbit 2 is horizontally disposed, the circuit orbit 2 be equipped with it is described
The bellmouth 21 of 141 shape adaptation of conical head of bolt 14, first sliding block 3 is slidably connected with the circuit orbit 2, described
Brake assemblies 1 are fixed on first sliding block 3, and the upper surface of the spring 15 connects with first sliding block 3 or column 12
It touches.
Further, the brake assemblies 1 further include spring limiting board 16, and it is logical that the spring limiting board 16 is equipped with first
Hole 161, the bolt 14 further include guide rod 142 and hanging ring 143, and the guide rod 142 is located at the conical head 141 and the hanging ring
Between 143, the guide rod 142 is slideably positioned in the first through hole 161 of the spring limiting board 16, and the spring 15 is socketed in
On the guide rod 142, the upper surface of the spring 15 is contacted with the lower surface of the spring limiting board 16, the spring limiting board
16 are fixed on first sliding block 3 or column 12, and the drawstring 13 is connect with the hanging ring 143.
Seen from the above description, conical head 141 and 142 integrally connected of guide rod, guide rod 142 are spirally connected with hanging ring 143, spring 15
It being socketed on guide rod 142, guide rod 142 is threaded through in the first through hole 161 of spring limiting board 16, and drawstring 13 is connect with hanging ring 143,
Spring 15 compresses when drawstring 13 drives the rising of bolt 14, conical head 141 is made to be detached from bellmouth 21, drawstring 13 loosens, bolt 14
Decline under the effect of spring 15, make conical head 141 and 21 plug connection of bellmouth, so as to fulfill the first sliding block 3 and circuit orbit 2
The conversion for being slidably connected with being fixedly connected, rational in infrastructure, simple operation.
Further, the quantity of the bellmouth 21 on the circuit orbit 2 is at least one, and in the circuit orbit 2
On be uniformly distributed.
Seen from the above description, the distance between the quantity in 2 upper conical hole 21 of circuit orbit and bellmouth 21 determine outer
If the observable angle of visualizer quantity and position;Bellmouth 21 is uniformly distributed on circuit orbit 2, convenient for calculating and uniting
Meter, it is rational in infrastructure, it is easy to use.
Further, the circuit orbit 2 includes guide rail 22 and I-shaped pedestal 23, and the guide rail 22 is fixed on the work
The upper surface of shaped base 23, the guide rail 22 form rolling circular guide rail pair with first sliding block 3, and the bellmouth 21 is set
It puts on the I-shaped pedestal 23.
Seen from the above description, 22 and first sliding block 3 of guide rail composition rolling circular guide rail pair has precision height, movement surely
Calmly, the advantages of service life is long;Bellmouth 21 is arranged on I-shaped pedestal 23, and guide rail 22 is slidably matched with the first sliding block 3, just
In the slip precision for the positioning accuracy and guide rail 22 for realizing bellmouth 21, i.e., the use of I-shaped pedestal 23 and guide rail 22 and more
Change mutually it is unaffected, facilitate processing, installation, debugging and maintenance.
Further, the circuit orbit 2 is made of the splicing of arc orbit 24 of at least two deciles.
Seen from the above description, circuit orbit 2 is made of the splicing of arc orbit 24 of at least two deciles, i.e. circuit orbit 2
Be made of at least two equal sized splicing of arc orbit 24, convenient for by circuit orbit 2 disassemble into arc orbit 24 into
Row transport, easy to carry, while also allow for arc orbit 24 being spliced into circuit orbit 2, when splicing, is mutual to arc orbit 24
Between status requirement it is low, splice rapid and convenient, convenient transport.
Further, first handle 5 is further included, the first handle 5 is connect with first sliding block 3;The braking group
Part 1 further includes second handle 17, and the second handle 17 is connect with the handwheel 11.
Seen from the above description, first handle 5 is connect with the first sliding block 3, and first is pushed by first handle 5 convenient for human hand
Sliding block 3, to adjust position of first sliding block 3 on circuit orbit 2, rational in infrastructure, simple operation;Second handle 17 and handwheel 11
Connection rotates handwheel 11, simple operation and safe convenient for human hand by second handle 17.
Further, the second sliding block 6,7, two connecting rods 8 of third sliding block and the semi-circular track 9 being vertically arranged are further included,
Second sliding block 6, third sliding block 7 are identical with the shape of first sliding block 3, and slide and connect with the circuit orbit 2
It connects, wherein 8 one end of connecting rod is rotatablely connected with first sliding block 3, the other end is rotatablely connected with second sliding block 6,
Another 8 one end of connecting rod is rotatablely connected with the first sliding block 3, and the other end is rotatablely connected with the third sliding block 7, the semi-circle rail
9 one end of road is connect with second sliding block 6, and the other end is connect with the third sliding block 7.
Seen from the above description, the second sliding block 6 and third sliding block 7 are slided each along circuit orbit 2, and the first sliding block 3,
Triangle connection is formed between two sliding blocks 6, third sliding block 7, two sides of triangle are connecting rod 8, the length on third side etc.
Between the projected length of semi-circular track 9 in the horizontal plane, the first sliding block 3, the second sliding block 6, third sliding block 7 and semi-circular track 9
Relative position stablize, as long as the first sliding block 3 is fixedly connected with circular guideway 22, the second sliding block 6, third sliding block 7 and semi-circle rail
The position in road 9 is also fixed, rational in infrastructure firm, positioning adjustment simple operation.
Further, the second through-hole 91 has been uniformly arranged in the semi-circular track 9, second through-hole 91 is pacified for positioning
Fill the visualizer of peripheral hardware.
Seen from the above description, uniformly distributed second through-hole 91 in semi-circular track 9, determines for installing during the visualizer of peripheral hardware
Position hole is used, and the second through-hole 91 is uniformly distributed in semi-circular track 9, then the spacing between the second through-hole 91 and quantity determine visualizer
The number and the number of degrees of angle variable, visualizer evolution are convenient.
Further, the semi-circular track 9 includes symmetrically arranged bottom arc section 92, top arc section 93 and screens group
Part 94, the bottom of symmetrically arranged bottom arc section 92 are connect respectively with second sliding block 6 and the third sliding block 7, symmetrically
The top of the top arc section 93 of setting is connected, and bottom is connect with the screens component 94, the top arc section 93 and institute
It states bottom arc section 92 to be slidably connected, and is clamped by the screens component 94 and the bottom arc section 92.
Seen from the above description, after two top arc sections 93 connect, then with the bottom circular arc positioned at 9 both ends of semi-circular track
Section 92 connects, and top arc section 93 and the shape adaptation of bottom arc section 92, can be round, rectangular or polygon;Bottom
It is set on arc section 92 there are two the clamping portion that coordinates with screens component 94, respectively positioned at the top and bottom of bottom arc section 92,
Strutting and packing up for top arc section 93 is used to implement, realizing multi-angle observation device volume can reduce, and be readily transported and take
Band.
Further, the bottom arc section 92 and the top arc section 93 are hollow structure, and shape adaptation, institute
93 sliding plug of top arc section is stated in the bottom arc section 92;The screens component 94 includes shrapnel 941 and positioning pin
942, the screens component 94 is located at the inside of the top arc section 93, described 941 one end of shrapnel and the top arc section
93 connections, other end lateral surface connection positioning pin 942, the top arc section 93 are equipped with and are fitted with 942 shape of positioning pin
The third through-hole 931 matched, the bottom arc section 92 are equipped with the fourth hole 921 with 942 shape adaptation of positioning pin, institute
It states positioning pin 942 and wears the third through-hole 931 and fourth hole 921 successively.
Seen from the above description, 941 one end of shrapnel is fixed on inside top arc section 93, the positioning pin 942 on the other end
It is plugged in third through-hole 931 and fourth hole 921, realizes top arc section 93 and the clamping of bottom arc section 92;It will positioning
Pin 942 is pressed to the inside of top arc section 93, and positioning pin 942 and the fourth hole 921 of bottom arc section 92 are detached from, at this time can be real
Existing top arc section 93 realizes top arc section 93 and bottom relative to the slip of bottom arc section 92 by screens component 94
The conversion for being slidably connected with being fixedly connected of arc section 92, rational in infrastructure, simple operation.
Fig. 1 to Fig. 6 is please referred to, the embodiment of the present invention one is:
A kind of multi-angle observation device is slided including brake assemblies 1, circuit orbit 2, the first sliding block 3, first handle 5, second
Block 6,7, two connecting rods 8 of third sliding block and the semi-circular track 9 being vertically arranged, the brake assemblies 1 include handwheel 11, column
12nd, drawstring 13, bolt 14, spring 15, spring limiting board 16, second handle 17, the handwheel 11 are fixed on the column 12
Top, 13 upper end of drawstring are wrapped on the handwheel 11, and lower end is connect with 14 top of bolt, the spring limiting board
16 are equipped with first through hole 161, and the bolt 14 further includes conical head 141, guide rod 142 and hanging ring 143, institute successively from top to bottom
Guide rod 142 is stated between the conical head 141 and the hanging ring 143, the guide rod 142 is slideably positioned in the spring retainer
In the first through hole 161 of plate 16, the spring 15 is socketed on the guide rod 142, upper surface and the bullet of the spring 15
The lower surface contact of spring limiting plate 16, the lower surface of the spring 15 are contacted with the upper surface of the conical head 141, the spring
Limiting plate 16 is fixed on first sliding block 3 or column 12, and the drawstring 13 is connect with the hanging ring 143, and described second
Handle 17 is connect with the handwheel 11;The circuit orbit 2 is horizontally disposed, and the circuit orbit 2 is equipped with and the bolt 14
141 shape adaptation of conical head bellmouth 21, first sliding block 3 is slidably connected with the circuit orbit 2, the braking group
Part 1 is fixed on first sliding block 3, and the upper surface of the spring 15 is contacted with first sliding block 3 or column 12;
The quantity of bellmouth 21 on the circuit orbit 2 is at least one, and is uniformly divided on the circuit orbit 2
Cloth, the circuit orbit 2 include guide rail 22 and I-shaped pedestal 23, and the guide rail 22 is fixed on the upper of the I-shaped pedestal 23
Surface, the guide rail 22 form rolling circular guide rail pair with first sliding block 3, and the bellmouth 21 is arranged on described I-shaped
On pedestal 23, the circuit orbit 2 is made of the splicing of arc orbit 24 of at least two deciles, the first handle 5 and described the
One sliding block 3 connects;
Second sliding block 6, third sliding block 7 are identical with the shape of first sliding block 3, and with the circuit orbit
2 are slidably connected, wherein 8 one end of connecting rod is rotatablely connected with first sliding block 3, the other end and 6 turns of second sliding block
Dynamic connection, another 8 one end of connecting rod are rotatablely connected with the first sliding block 3, and the other end is rotatablely connected with the third sliding block 7, institute
It states 9 one end of semi-circular track to connect with second sliding block 6, the other end is connect with the third sliding block 7, in the semi-circular track 9
The second through-hole 91 is uniformly arranged, second through-hole 91 is used for the visualizer of location and installation peripheral hardware;
The semi-circular track 9 includes symmetrically arranged bottom arc section 92, top arc section 93 and screens component 94, symmetrically
The bottom of the bottom arc section 92 of setting is connect respectively with second sliding block 6 and the third sliding block 7, symmetrically arranged top
The top of arc section 93 is connected, and bottom is connect with the screens component 94, the top arc section 93 and the bottom circular arc
Section 92 is slidably connected, and be clamped by the screens component 94 and the bottom arc section 92;The bottom arc section 92 and institute
It is hollow structure to state top arc section 93, and shape adaptation, and 93 sliding plug of top arc section is in the bottom circular arc
In section 92;The screens component 94 includes shrapnel 941 and positioning pin 942, and the screens component 94 is located at the top arc section
93 inside, described 941 one end of shrapnel are connect with the top arc section 93, other end lateral surface connection positioning pin 942, described
Top arc section 93 is equipped with the third through-hole 931 with 942 shape adaptation of positioning pin, and the bottom arc section 92 is equipped with
With the fourth hole 921 of 942 shape adaptation of positioning pin, the fourth hole 921 is two right, justifies respectively positioned at the bottom
The top and bottom of segmental arc 92, the positioning pin 942 wear the third through-hole 931 and fourth hole 921 successively.
During installation, at least two arc orbit 24 is first spliced into circuit orbit 2, and by the first sliding block 3, the second sliding block
6th, third sliding block 7 is slidably connected with circuit orbit 2, and brake assemblies 1 are fixed on the first sliding block 3, then the first sliding block 3 and
Two sliding blocks 6 are connected with connecting rod 8, and the first sliding block 3 is connect with the connecting rod 8 of third sliding block 7, and semi-circular track 9 is fixed on
Two sliding blocks 6 by semi-circular track 9 on third sliding block 7, then propping up, i.e., top arc section 93 being existed by 94 screens of screens component
In the fourth hole 921 at 92 top of bottom arc section.
In use, the visualizer of peripheral hardware is fixed on the second selected through-hole 91 in semi-circular track 9, first is adjusted
Position of the sliding block 3 on circuit orbit 2, and pass through brake assemblies 1 and bolt 14 is plugged in the bellmouth 21 of circuit orbit 2,
Position and first sliding block 3 position on circuit orbit 2 of the visualizer in semi-circular track 9 can be constantly converted during use
It puts.Using terminating, semi-circular track 9 can be packed up, i.e., by top arc section 93 by 94 screens of screens component in bottom arc section
In the fourth hole 921 of 92 bottoms.
In conclusion multi-angle observation device provided by the invention, passes through the first sliding block 3, the second sliding block 6, third sliding block
7th, with stable triangular structure when connecting rod 8, semi-circular track 9 make the semi-circular track 9 strut or pack up, first need to only be fixed
Any one in sliding block 3, the second sliding block 6, third sliding block 7, you can realize semi-circular track 9 relative to 2 position of circuit orbit
It fixes, the grafting and disengaging of bolt 14 and circuit orbit 2 is realized by rotating handwheel 11, and then realize the first sliding block 3 and circle
The conversion for being fixedly connected and being slidably connected of track 2 realizes the top arc section 93 of semi-circular track 9 bottom of at by screens component 94
The screens connection of different location on portion's arc section 92, and then realize strutting and packing up for semi-circular track 9, the multi-angle observation dress
Put the scopic angle positioning adjustment rapid and convenient to peripheral hardware, and accurate positioning.
The foregoing is merely the embodiment of the present invention, are not intended to limit the scope of the invention, every to utilize this hair
The equivalents that bright specification and accompanying drawing content are made directly or indirectly are used in relevant technical field, similarly include
In the scope of patent protection of the present invention.
Claims (10)
1. a kind of multi-angle observation device, which is characterized in that including brake assemblies, circuit orbit, the first sliding block, the braking group
Part includes handwheel, column, drawstring, bolt, spring, and the handwheel is fixed on the top of the column, the drawstring upper end winding
On the handwheel, lower end is connect with the catch top, and the bolt bottom is conical head, and the spring is socketed in described insert
On pin, and the lower surface of the spring is contacted with the upper surface of the conical head;The circuit orbit is horizontally disposed with, the circle
Track is equipped with the bellmouth being adapted to the conical head shape of the bolt, and first sliding block is slided with the circuit orbit to be connected
It connects, the brake assemblies are fixed on first sliding block, and the upper surface of the spring connects with first sliding block or column
It touches.
2. multi-angle observation device according to claim 1, which is characterized in that the brake assemblies further include spring retainer
Plate, the spring limiting board are equipped with first through hole, and the bolt further includes guide rod and hanging ring, and the guide rod is located at the taper
Between head and the hanging ring, the guide rod is slideably positioned in the first through hole of the spring limiting board, and the spring is socketed in
On the guide rod, the upper surface of the spring is contacted with the lower surface of the spring limiting board, and the spring limiting board is fixed on
On first sliding block or column, the drawstring is connect with the hanging ring.
3. multi-angle observation device according to claim 1, which is characterized in that the number of the bellmouth on the circuit orbit
It measures to be at least one, and is uniformly distributed on the circuit orbit.
4. multi-angle observation device according to claim 1, which is characterized in that the circuit orbit includes guide rail and I-shaped
Type pedestal, the guide rail are fixed on the upper surface of the I-shaped pedestal, and the guide rail forms rolling circle with first sliding block
Arc guide rail pair, the bellmouth are arranged on the I-shaped pedestal.
5. multi-angle observation device according to claim 1, which is characterized in that the circuit orbit is by least two deciles
Arc orbit splicing composition.
6. multi-angle observation device according to claim 1, which is characterized in that first handle is further included, it is described first-hand
Handle is connect with first sliding block;The brake assemblies further include second handle, and the second handle is connect with the handwheel.
7. multi-angle observation device according to claim 1, which is characterized in that further include the second sliding block, third sliding block, two
Root connecting rod and the semi-circular track being vertically arranged, second sliding block, third sliding block are identical with the shape of first sliding block,
And be slidably connected with the circuit orbit, wherein connecting rod one end is rotatablely connected with first sliding block, the other end with
The second sliding block rotation connection, another connecting rod one end are rotatablely connected with the first sliding block, the other end and the third sliding block
Rotation connection, described semi-circular track one end are connect with second sliding block, and the other end is connect with the third sliding block.
8. multi-angle observation device according to claim 7, which is characterized in that has been uniformly arranged in the semi-circular track
Two through-holes, second through-hole are used for the visualizer of location and installation peripheral hardware.
9. multi-angle observation device according to claim 7, which is characterized in that the semi-circular track includes symmetrically arranged
Bottom arc section, top arc section and screens component, the bottom of symmetrically arranged bottom arc section respectively with second sliding block
It connects with the third sliding block, is connected at the top of symmetrically arranged top arc section, bottom is connect with the screens component, institute
It states top arc section to be slidably connected with the bottom arc section, and is clamped by the screens component and the bottom arc section.
10. multi-angle observation device according to claim 9, which is characterized in that the bottom arc section and the top
Arc section is hollow structure, and shape adaptation, and the top arc section sliding plug is in the bottom arc section;The card
Hyte part includes shrapnel and positioning pin, and the screens component is located at the inside of the top arc section, described shrapnel one end and institute
The connection of top arc section, other end lateral surface connection positioning pin are stated, the top arc section is equipped with and the positioning pin shape
The third through-hole of adaptation, the bottom arc section are equipped with the fourth hole with the positioning pin shape adaptation, the positioning pin
The third through-hole and fourth hole are worn successively.
Priority Applications (1)
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CN201610296968.2A CN105890638B (en) | 2016-05-06 | 2016-05-06 | A kind of multi-angle observation device |
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CN201610296968.2A CN105890638B (en) | 2016-05-06 | 2016-05-06 | A kind of multi-angle observation device |
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CN105890638B true CN105890638B (en) | 2018-07-06 |
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CN201610296968.2A Expired - Fee Related CN105890638B (en) | 2016-05-06 | 2016-05-06 | A kind of multi-angle observation device |
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN1514443A (en) * | 2002-12-31 | 2004-07-21 | 中国科学院地理科学与资源研究所 | Omnibearing multi angle measuring platform |
CN1904782A (en) * | 2006-08-03 | 2007-01-31 | 燕山大学 | Binocular active vision monitor suitable for precision machining |
CN102252707A (en) * | 2011-06-29 | 2011-11-23 | 北京农业信息技术研究中心 | Observation device and method |
CN104457815A (en) * | 2014-12-12 | 2015-03-25 | 江苏师范大学 | Portable manual all-dimensional multi-angle observation scaffold |
CN205580487U (en) * | 2016-05-06 | 2016-09-14 | 福建农林大学 | Many angle observation device |
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2016
- 2016-05-06 CN CN201610296968.2A patent/CN105890638B/en not_active Expired - Fee Related
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN1514443A (en) * | 2002-12-31 | 2004-07-21 | 中国科学院地理科学与资源研究所 | Omnibearing multi angle measuring platform |
CN1904782A (en) * | 2006-08-03 | 2007-01-31 | 燕山大学 | Binocular active vision monitor suitable for precision machining |
CN102252707A (en) * | 2011-06-29 | 2011-11-23 | 北京农业信息技术研究中心 | Observation device and method |
CN104457815A (en) * | 2014-12-12 | 2015-03-25 | 江苏师范大学 | Portable manual all-dimensional multi-angle observation scaffold |
CN205580487U (en) * | 2016-05-06 | 2016-09-14 | 福建农林大学 | Many angle observation device |
Non-Patent Citations (1)
Title |
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地面多角度农业遥感观测装置设计与试验;张东彦等;《农业机械学报》;20130131;第44卷(第1期);第174-178页 * |
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