CN205580487U - Many angle observation device - Google Patents
Many angle observation device Download PDFInfo
- Publication number
- CN205580487U CN205580487U CN201620406396.4U CN201620406396U CN205580487U CN 205580487 U CN205580487 U CN 205580487U CN 201620406396 U CN201620406396 U CN 201620406396U CN 205580487 U CN205580487 U CN 205580487U
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- Prior art keywords
- slide block
- arc section
- spring
- circuit orbit
- observation device
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Abstract
The utility model provides a many angle observation device, including brake assembly, circular track, first slider, brake assembly includes hand wheel, stand, stay cord, bolt, spring, the hand wheel is fixed the upper portion of stand, the winding of stay cord upper end is in on the hand wheel, the lower extreme with the bolt top is connected, the bolt bottom is the cone, and the spring cup joints on the bolt, and the lower surface of spring with the last surface contact of cone, circular track level sets up, be equipped with the bell mouth with the cone shape adaptation of bolt on the circular track, first slider and circular track sliding connection, brake assembly fixes on the first slider, the upper surface of spring with first slider or stand contact. Realize the grafting of cone and bell mouth and break away from through rotating the hand wheel to realize fixed connection and sliding connection's between first slider and the circular track conversion, rational in infrastructure, positioning operation is convenient.
Description
Technical field
This utility model relates to measurement, observation positioner field, particularly to a kind of multi-angle observation dress
Put.
Background technology
Existing multi-angle observation device exists that build is relatively big, very flexible, not readily portable shortcoming, also
Seriously limit its generalization.Existing multi-angle observation device uses the side laying circuit orbit on horizontal plane
Formula, circuit orbit is slidably connected again an arc orbit arranged on vertical plane, and arc orbit is in circular rail
After position adjustment on road is good, the mode being connected by screw is fixed on circuit orbit, due to circuit orbit
All having with arc orbit that volume is relatively big, the feature of heavier-weight, the mode being connected by screw is by circular arc rail
Road is fixed and be there is the shortcoming wasted time and energy.
Utility model content
Technical problem to be solved in the utility model is: provide a kind of positioning action multi-angle observation easily
Device.
In order to solve above-mentioned technical problem, the technical solution adopted in the utility model is:
A kind of multi-angle observation device, including brake assemblies, circuit orbit, the first slide block, described braking group
Part includes that handwheel, column, stay cord, latch, spring, described handwheel are fixed on the top of described column, institute
Stating stay cord upper end to be wrapped on described handwheel, lower end is connected with described catch top, for cone bottom described latch
Shape head, described spring housing is connected on described latch, and the upper table of the lower surface of described spring and described conical head
Face contacts;Described circuit orbit is horizontally disposed with, and described circuit orbit is provided with the taper capitiform with described latch
The bellmouth that shape is adaptive, described first slide block is slidably connected with described circuit orbit, and described brake assemblies is fixed
On described first slide block, the upper surface of described spring contacts with described first slide block or column.
Further, described brake assemblies also includes that spring limiting board, described spring limiting board are provided with first
Through hole, described latch also includes guide rod and suspension ring, described guide rod between described conical head and described suspension ring,
Described guide rod is slideably positioned in the first through hole of described spring limiting board, and described spring housing is connected on described guide rod
On, the upper surface of described spring contacts with the lower surface of described spring limiting board, and described spring limiting board is fixed
On described first slide block or column, described stay cord is connected with described suspension ring.
Further, the quantity of the bellmouth on described circuit orbit is at least one, and in described circular rail
It is uniformly distributed on road.
Further, described circuit orbit includes guide rail and I shape base, and described guide rail is fixed on described work
The upper surface of shaped base, described guide rail and described first slide block composition rolling circular guide rail pair, described taper
Hole is arranged on described I shape base.
Further, described circuit orbit is made up of the arc orbit splicing of at least two deciles.
Further, also include that first handle, described first handle are connected with described first slide block;Described system
Dynamic assembly also includes that second handle, described second handle are connected with described handwheel.
Further, the second slide block, the 3rd slide block, two connecting rods and the semi-circle rail being vertically arranged also are included
Road, described second slide block, the 3rd slide block are all identical with the shape of described first slide block, and all with described circle
Slide connects, and wherein a connecting rod one end is rotationally connected with described first slide block, and the other end is with described
Second slide block is rotationally connected, and another root connecting rod one end is rotationally connected with the first slide block, the other end and described the
Three slide blocks are rotationally connected, and described semi-circular track one end is connected with described second slide block, the other end and the described 3rd
Slide block connects.
Further, uniform second through hole that is provided with in described semi-circular track, described second through hole is used for positioning
The visualizer of peripheral hardware is installed.
Further, described semi-circular track includes symmetrically arranged bottom arc section, top arc section and screens
Assembly, the bottom of symmetrically arranged bottom arc section is connected with described second slide block and described 3rd slide block respectively,
The top of symmetrically arranged top arc section is connected, and bottom is connected with described screens assembly, described top circle
Segmental arc is slidably connected with described bottom arc section, and by described screens assembly and the arc section clamping of described bottom.
Further, described bottom arc section and described top arc section are hollow structure, and shape adaptation,
Described top arc section sliding plug is in the arc section of described bottom;Described screens assembly includes shell fragment and location
Pin, described screens assembly is positioned at the inside of described top arc section, described shell fragment one end and described top arc
Section connects, and other end lateral surface connects alignment pin, and described top arc section is provided with and described alignment pin shape
Adaptive third through-hole, described bottom arc section is provided with and the fourth hole of described alignment pin shape adaptation,
Described alignment pin wears described third through-hole and fourth hole successively.
The beneficial effects of the utility model are: the visualizer of peripheral hardware and the first slide block connect, the first slide block with
Circuit orbit is slidably connected, and first slide block position on circuit orbit is variable, visualizer can multi-angle observation,
Rational in infrastructure;It is to fix to be connected or be slidably connected by brake assemblies in fact between first slide block and circuit orbit
Existing, particularly as follows: column is fixed on the first slide block, column, handwheel, stay cord, latch, spring are all with the
The slip of one slide block and slide, the conical head bottom latch coordinates with the tapered bore profile on circuit orbit, hands
When wheel rotates through stay cord drive latch rising, conical head departs from bellmouth, and the first slide block is sliding with circuit orbit
Being dynamically connected, when hand wheel rotating drives latch to decline by stay cord, conical head stably inserts under the action of the spring
In bellmouth, the first slide block is fixing with circuit orbit to be connected, it is not necessary to realize first by the way of the turn of the screw sliding
Block and circuit orbit fixing be slidably connected, need to rotate handwheel, and the joining of conical head and bellmouth
Conjunction can make the first slide block more accurate with the connection of circuit orbit, and positioning action is convenient, time saving and energy saving, and fixed
Level is true.
Accompanying drawing explanation
Fig. 1 is the top view of the multi-angle observation device of this utility model embodiment;
Fig. 2 is the front view of the multi-angle observation device of this utility model embodiment;
Fig. 3 is the A partial view of Fig. 2 of this utility model embodiment;
Fig. 4 is the left view of the multi-angle observation device of this utility model embodiment;
Fig. 5 is that the structure that the brake component of this utility model embodiment, the first slide block are connected with circuit orbit is shown
It is intended to;
Fig. 6 is the knot that is connected with the first slide block, circuit orbit of brake component local of this utility model embodiment
Structure schematic diagram.
Label declaration:
1, brake assemblies;2, circuit orbit;3, the first slide block;5, first handle;6, the second slide block;
7, the 3rd slide block;8, connecting rod;9, semi-circular track;
11, handwheel;12, column;13, stay cord;14, latch;141, conical head;142, guide rod;
143, suspension ring;15, spring;16, spring limiting board;161, the first through hole;17, second handle;
21, bellmouth;22, guide rail;23, I shape base;24, arc orbit;
91, the second through hole;92, bottom arc section;921, fourth hole;93, top arc section;
931, third through-hole;94, screens assembly;941, shell fragment;942, alignment pin.
Detailed description of the invention
By describing technology contents of the present utility model in detail, being realized purpose and effect, below in conjunction with embodiment party
Formula also coordinates accompanying drawing to be explained.
The design of this utility model most critical is: by brake assemblies realize the first slide block and circuit orbit it
Between fixing connection, positioning action is convenient.
Refer to Fig. 1 to Fig. 6, this utility model provides a kind of multi-angle observation device, including brake assemblies
1, circuit orbit the 2, first slide block 3, described brake assemblies 1 include handwheel 11, column 12, stay cord 13,
Latch 14, spring 15, described handwheel 11 is fixed on the top of described column 12, described stay cord 13 upper end
Being wrapped on described handwheel 11, lower end is connected with described latch 14 top, for taper bottom described latch 14
141, described spring 15 is socketed on described latch 14, and the lower surface of described spring 15 and described cone
The upper surface of shape 141;Described circuit orbit 2 is horizontally disposed with, described circuit orbit 2 be provided with
The bellmouth 21 of conical head 141 shape adaptation of described latch 14, described first slide block 3 and described circular rail
Road 2 is slidably connected, and described brake assemblies 1 is fixed on described first slide block 3, the upper table of described spring 15
Face contacts with described first slide block 3 or column 12.
Further, described brake assemblies 1 also includes spring limiting board 16, and described spring limiting board 16 sets
Guide rod 142 and suspension ring 143, described guide rod 142 are positioned to have the first through hole 161, described latch 14 also to include
Between described conical head 141 and described suspension ring 143, described guide rod 142 is slideably positioned in described spring retainer
In first through hole 161 of plate 16, described spring 15 is socketed on described guide rod 142, described spring 15
Upper surface contacts with the lower surface of described spring limiting board 16, and described spring limiting board 16 is fixed on described
On one slide block 3 or column 12, described stay cord 13 is connected with described suspension ring 143.
Seen from the above description, conical head 141 is connected with guide rod 142 one, guide rod 142 and suspension ring 143
Being spirally connected, spring 15 is socketed on guide rod 142, and guide rod 142 is located in the first through hole of spring limiting board 16
In 161, stay cord 13 is connected with suspension ring 143, and when stay cord 13 drives latch 14 to rise, spring 15 compresses, and makes
Conical head 141 departs from bellmouth 21, and stay cord 13 loosens, and latch 14 declines under spring 15 acts on,
Make conical head 141 and bellmouth 21 socket connection, thus realize the slip of the first slide block 3 and circuit orbit 2
Connect and the fixing conversion being connected, rational in infrastructure, simple operation.
Further, the quantity of the bellmouth 21 on described circuit orbit 2 is at least one, and at described circle
It is uniformly distributed on shape track 2.
Seen from the above description, the distance between quantity and the bellmouth 21 in the upper conical hole of circuit orbit 2 21,
Determine quantity and the position of the observable angle of visualizer of peripheral hardware;Bellmouth 21 is equal on circuit orbit 2
Even distribution, it is simple to calculate and add up, rational in infrastructure, easy to use.
Further, described circuit orbit 2 includes guide rail 22 and I shape base 23, and described guide rail 22 is solid
Being scheduled on the upper surface of described I shape base 23, described guide rail 22 forms rolling circle with described first slide block 3
Arc guide rail is secondary, and described bellmouth 21 is arranged on described I shape base 23.
Seen from the above description, guide rail 22 and the first slide block 3 form rolling circular guide rail pair, have precision high,
Motion stabilization, the advantage of length in service life;Bellmouth 21 is arranged on I shape base 23, guide rail 22 with
First slide block 3 is slidably matched, it is simple to realize the positioning precision of bellmouth 21 and the slip precision of guide rail 22,
I.e. the using and change the most unaffected of I shape base 23 and guide rail 22, conveniently processes, installs, adjusts
Examination and maintenance.
Further, described circuit orbit 2 is made up of arc orbit 24 splicing of at least two deciles.
Seen from the above description, circuit orbit 2 is spliced by the arc orbit 24 of at least two deciles and forms, round
Shape track 2 is made up of equal sized arc orbit 24 splicing of at least two, it is simple to by circuit orbit 2
Disassemble into arc orbit 24 to transport, easy to carry, also allow for arc orbit 24 is spliced into circle simultaneously
Shape track 2, low to arc orbit 24 status requirement each other during splicing, splice rapid and convenient, transport
Convenient.
Further, also include that first handle 5, described first handle 5 are connected with described first slide block 3;Institute
State brake assemblies 1 and also include that second handle 17, described second handle 17 are connected with described handwheel 11.
Seen from the above description, first handle 5 is connected with the first slide block 3, it is simple to staff passes through first handle 5
Promoting the first slide block 3, to regulate first slide block 3 position on circuit orbit 2, rational in infrastructure, operation is just
Prompt;Second handle 17 is connected with handwheel 11, it is simple to staff rotates handwheel 11 by second handle 17, operation
Convenience and safety are high.
Further, second slide block the 6, the 3rd 7, two connecting rods 8 of slide block and be vertically arranged half are also included
Circular orbit 9, described second slide block the 6, the 3rd slide block 7 is all identical with the shape of described first slide block 3, and all
Being slidably connected with described circuit orbit 2, wherein connecting rod 8 one end rotates even with described first slide block 3
Connecing, the other end is rotationally connected with described second slide block 6, another root connecting rod 8 one end and the first slide block 3 turns
Being dynamically connected, the other end is rotationally connected with described 3rd slide block 7, described semi-circular track 9 one end and described second
Slide block 6 connects, and the other end is connected with described 3rd slide block 7.
Seen from the above description, the second slide block 6 and the 3rd slide block 7 slide each along circuit orbit 2, and the
Forming triangle between one slide block the 3, second slide block the 6, the 3rd slide block 7 to connect, two limits of triangle are for even
Extension bar 8, the length on the 3rd limit be equal to the semi-circular track 9 projected length in horizontal plane, the first slide block 3,
Relative position between second slide block the 6, the 3rd slide block 7 and semi-circular track 9 is stable, if the first slide block 3 with
Circular guideway 22 is fixing to be connected, and the second slide block the 6, the 3rd slide block 7 is the most fixing with the position of semi-circular track 9,
Rational in infrastructure firm, location adjusts simple operation.
Further, uniform second through hole 91 that is provided with in described semi-circular track 9, described second through hole 91 is used
Visualizer in location and installation peripheral hardware.
Seen from the above description, uniform second through hole 91 in semi-circular track 9, for installing the observation of peripheral hardware
Doing location hole use during instrument, the second through hole 91 is uniform in semi-circular track 9, then between the second through hole 91 between
Away from and quantity determine number and the number of degrees of visualizer angle variable, visualizer evolution is convenient.
Further, described semi-circular track 9 includes symmetrically arranged bottom arc section 92, top arc section 93
With screens assembly 94, the bottom of symmetrically arranged bottom arc section 92 respectively with described second slide block 6 and described
3rd slide block 7 connects, and the top of symmetrically arranged top arc section 93 is connected, bottom and described card hyte
Part 94 connects, and described top arc section 93 is slidably connected with described bottom arc section 92, and by described card
Hyte part 94 and arc section 92 clamping of described bottom.
Seen from the above description, after two top arc sections 93 connect, then be positioned at semi-circular track 9 two ends
Bottom arc section 92 connects, the shape adaptation of top arc section 93 and bottom arc section 92, can be circle,
Square or polygon;Bottom arc section 92 is provided with two Access Divisions coordinated with screens assembly 94, point
It is not positioned at top and the bottom of bottom arc section 92, for realizing strutting and packing up of top arc section 93,
Achieve multi-angle observation device volume can reduce, it is simple to transport and carry.
Further, described bottom arc section 92 and described top arc section 93 are hollow structure, and shape
Shape is adaptive, and the sliding plug of described top arc section 93 is in described bottom arc section 92;Described screens assembly
94 include that shell fragment 941 and alignment pin 942, described screens assembly 94 are positioned at described top arc section 93
Portion, described shell fragment 941 one end is connected with described top arc section 93, and other end lateral surface connects alignment pin 942,
Described top arc section 93 is provided with and the third through-hole 931 of described alignment pin 942 shape adaptation, the described end
Portion's arc section 92 is provided with and the fourth hole 921 of described alignment pin 942 shape adaptation, described alignment pin 942
Wear described third through-hole 931 and fourth hole 921 successively.
Seen from the above description, it is internal that shell fragment 941 one end is fixed on top arc section 93, determining on the other end
Position pin 942 is plugged in third through-hole 931 and fourth hole 921, it is achieved top arc section 93 and bottom circle
The clamping of segmental arc 92;Alignment pin 942 is pressed to top arc section 93 inside, alignment pin 942 and bottom
The fourth hole 921 of arc section 92 departs from, and now can realize top arc section 93 relative to bottom arc section
The slip of 92, i.e. realizes being slidably connected of top arc section 93 and bottom arc section 92 by screens assembly 94
With the fixing conversion being connected, rational in infrastructure, simple operation.
Refer to Fig. 1 to Fig. 6, embodiment one of the present utility model is:
A kind of multi-angle observation device, including brake assemblies 1, circuit orbit the 2, first slide block 3, first-hand
Handle the 5, second slide block the 6, the 3rd 7, two connecting rods 8 of slide block and the semi-circular track 9 being vertically arranged, described
Brake assemblies 1 include handwheel 11, column 12, stay cord 13, latch 14, spring 15, spring limiting board 16,
Second handle 17, described handwheel 11 is fixed on the top of described column 12, and described stay cord 13 upper end is wrapped in
On described handwheel 11, lower end is connected with described latch 14 top, and described spring limiting board 16 is provided with first
Through hole 161, described latch 14 the most also includes conical head 141, guide rod 142 and suspension ring 143,
Described guide rod 142 is between described conical head 141 and described suspension ring 143, and described guide rod 142 slides and sets
Being placed in the first through hole 161 of described spring limiting board 16, described spring 15 is socketed in described guide rod 142
On, the upper surface of described spring 15 contacts with the lower surface of described spring limiting board 16, described spring 15
Lower surface and the upper surface of described conical head 141, it is sliding that described spring limiting board 16 is fixed on described first
On block 3 or column 12, described stay cord 13 is connected with described suspension ring 143, described second handle 17 and institute
State handwheel 11 to connect;Described circuit orbit 2 is horizontally disposed with, and described circuit orbit 2 is provided with and described latch
The bellmouth 21 of conical head 141 shape adaptation of 14, described first slide block 3 slides with described circuit orbit 2
Connecting, described brake assemblies 1 is fixed on described first slide block 3, and the upper surface of described spring 15 is with described
First slide block 3 or column 12 contact;
The quantity of the bellmouth 21 on described circuit orbit 2 is at least one, and on described circuit orbit 2
Being uniformly distributed, described circuit orbit 2 includes that guide rail 22 and I shape base 23, described guide rail 22 are fixed on
The upper surface of described I shape base 23, described guide rail 22 rolls circular arc with described first slide block 3 composition and leads
Rail is secondary, and described bellmouth 21 is arranged on described I shape base 23, and described circuit orbit 2 is by least two
The arc orbit 24 splicing composition of decile, described first handle 5 is connected with described first slide block 3;
Described second slide block the 6, the 3rd slide block 7 is all identical with the shape of described first slide block 3, and all with described
Circuit orbit 2 is slidably connected, and wherein connecting rod 8 one end is rotationally connected, separately with described first slide block 3
One end is rotationally connected with described second slide block 6, and another root connecting rod 8 one end is rotationally connected with the first slide block 3,
The other end is rotationally connected with described 3rd slide block 7, and described semi-circular track 9 one end is with described second slide block 6 even
Connecing, the other end is connected with described 3rd slide block 7, uniform in described semi-circular track 9 is provided with the second through hole 91,
Described second through hole 91 is for the visualizer of location and installation peripheral hardware;
Described semi-circular track 9 includes symmetrically arranged bottom arc section 92, top arc section 93 and screens assembly
94, the bottom of symmetrically arranged bottom arc section 92 respectively with described second slide block 6 and described 3rd slide block 7
Connecting, the top of symmetrically arranged top arc section 93 is connected, and bottom is connected with described screens assembly 94,
Described top arc section 93 is slidably connected with described bottom arc section 92, and by described screens assembly 94 with
Arc section 92 clamping of described bottom;Described bottom arc section 92 and described top arc section 93 are hollow knot
Structure, and shape adaptation, the sliding plug of described top arc section 93 is in described bottom arc section 92;Described
Screens assembly 94 includes that shell fragment 941 and alignment pin 942, described screens assembly 94 are positioned at described top arc section
The inside of 93, described shell fragment 941 one end is connected with described top arc section 93, and other end lateral surface connects fixed
Position pin 942, described top arc section 93 is provided with and the third through-hole 931 of described alignment pin 942 shape adaptation,
Described bottom arc section 92 is provided with and the fourth hole 921 of described alignment pin 942 shape adaptation, and described
Right two of four through holes 921, lay respectively at top and the bottom of described bottom arc section 92, described alignment pin 942
Wear described third through-hole 931 and fourth hole 921 successively.
During installation, first the arc orbit 24 of at least two is spliced into circuit orbit 2, and by the first slide block 3,
Second slide block the 6, the 3rd slide block 7 is slidably connected with circuit orbit 2, and brake assemblies 1 is fixed on the first slide block
On 3, then the first slide block 3 and the second slide block 6 connecting rod 8 connect, by the first slide block 3 and the 3rd slide block
7 connect by connecting rod 8, semi-circular track 9 are fixed on the second slide block 6 and the 3rd slide block 7, then will be partly
Circular orbit 9 is propped up, and top arc section 93 will pass through screens assembly 94 screens at bottom arc section 92 top
Fourth hole 921 in.
During use, on the second selected through hole 91 that the visualizer of peripheral hardware is fixed in semi-circular track 9, adjust
Whole first slide block 3 position on circuit orbit 2, and by brake assemblies 1, latch 14 is plugged on circle
In the bellmouth 21 of shape track 2, during use, can constantly convert visualizer position in semi-circular track 9,
And first slide block 3 position on circuit orbit 2.Use terminates, and can semi-circular track 9 be packed up, i.e.
By top arc section 93 by screens assembly 94 screens fourth hole 921 bottom bottom arc section 92.
In sum, the multi-angle observation device that this utility model provides, by first slide block the 3, second slide block
6, the 3rd slide block 7, connecting rod 8, semi-circular track 9 make semi-circular track 9 have when strutting or pack up stably
Triangular structure, only need to fix any one in first slide block the 3, second slide block the 6, the 3rd slide block 7,
Semi-circular track 9 fixing relative to circuit orbit 2 position can be realized, realize latch by rotating handwheel 11
14 with the grafting of circuit orbit 2 and disengaging, and then realize the first slide block 3 and be connected with the fixing of circuit orbit 2
With the conversion being slidably connected, realize the top arc section 93 of semi-circular track 9 in bottom by screens assembly 94
On arc section 92, the screens of diverse location connects, and then realizes strutting and packing up of semi-circular track 9, described many
Angular observation device angle scopic to peripheral hardware location adjusts rapid and convenient, and accurate positioning.
The foregoing is only embodiment of the present utility model, not thereby limit the scope of the claims of the present utility model,
Every equivalents utilizing this utility model description and accompanying drawing content to be made, or be directly or indirectly used in
Relevant technical field, is the most in like manner included in scope of patent protection of the present utility model.
Claims (10)
1. a multi-angle observation device, it is characterised in that include brake assemblies, circuit orbit, the first cunning
Block, it is described that described brake assemblies includes that handwheel, column, stay cord, latch, spring, described handwheel are fixed on
The top of column, described stay cord upper end is wrapped on described handwheel, and lower end is connected with described catch top, institute
Stating bottom latch as conical head, described spring housing is connected on described latch, and the lower surface of described spring and institute
State the upper surface of conical head;Described circuit orbit is horizontally disposed with, and described circuit orbit is provided with described
The bellmouth that the conical head shape of latch is adaptive, described first slide block is slidably connected with described circuit orbit, institute
State brake assemblies to be fixed on described first slide block, the upper surface of described spring and described first slide block or vertical
Post contacts.
Multi-angle observation device the most according to claim 1, it is characterised in that described brake assemblies is also
Including spring limiting board, described spring limiting board is provided with the first through hole, and described latch also includes guide rod and hangs
Ring, described guide rod is between described conical head and described suspension ring, and described guide rod is slideably positioned in described spring
In first through hole of limiting plate, described spring housing is connected on described guide rod, and the upper surface of described spring is with described
The lower surface contact of spring limiting board, described spring limiting board is fixed on described first slide block or column,
Described stay cord is connected with described suspension ring.
Multi-angle observation device the most according to claim 1, it is characterised in that on described circuit orbit
The quantity of bellmouth be at least one, and be uniformly distributed on described circuit orbit.
Multi-angle observation device the most according to claim 1, it is characterised in that described circuit orbit bag
Including guide rail and I shape base, described guide rail is fixed on the upper surface of described I shape base, described guide rail with
Described first slide block composition rolling circular guide rail pair, described bellmouth is arranged on described I shape base.
Multi-angle observation device the most according to claim 1, it is characterised in that described circuit orbit by
The arc orbit splicing composition of at least two deciles.
Multi-angle observation device the most according to claim 1, it is characterised in that also include first handle,
Described first handle is connected with described first slide block;Described brake assemblies also includes second handle, described second
Handle is connected with described handwheel.
Multi-angle observation device the most according to claim 1, it is characterised in that also include the second slide block,
3rd slide block, two connecting rods and the semi-circular track being vertically arranged, described second slide block, the 3rd slide block all with
The shape of described first slide block is identical, and is all slidably connected with described circuit orbit, a wherein connecting rod one
End is rotationally connected with described first slide block, and the other end is rotationally connected with described second slide block, another root connecting rod
One end is rotationally connected with the first slide block, and the other end is rotationally connected with described 3rd slide block, described semi-circular track one
End is connected with described second slide block, and the other end is connected with described 3rd slide block.
Multi-angle observation device the most according to claim 7, it is characterised in that in described semi-circular track
Uniform second through hole that is provided with, described second through hole is for the visualizer of location and installation peripheral hardware.
Multi-angle observation device the most according to claim 7, it is characterised in that described semi-circular track bag
Include symmetrically arranged bottom arc section, top arc section and screens assembly, symmetrically arranged bottom arc section
Bottom is connected with described second slide block and described 3rd slide block respectively, the top of symmetrically arranged top arc section
Being connected, bottom is connected with described screens assembly, and described top arc section is slided even with described bottom arc section
Connect, and by described screens assembly and the arc section clamping of described bottom.
Multi-angle observation device the most according to claim 9, it is characterised in that described bottom circular arc
Section and described top arc section are hollow structure, and shape adaptation, and described top arc section sliding plug exists
In the arc section of described bottom;It is described that described screens assembly includes that shell fragment and alignment pin, described screens assembly are positioned at
The inside of top arc section, described shell fragment one end is connected with described top arc section, and other end lateral surface connects
Alignment pin, described top arc section is provided with and the third through-hole of described alignment pin shape adaptation, described bottom
Arc section is provided with and the fourth hole of described alignment pin shape adaptation, and described alignment pin wears described successively
Three through holes and fourth hole.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620406396.4U CN205580487U (en) | 2016-05-06 | 2016-05-06 | Many angle observation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620406396.4U CN205580487U (en) | 2016-05-06 | 2016-05-06 | Many angle observation device |
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Publication Number | Publication Date |
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CN205580487U true CN205580487U (en) | 2016-09-14 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201620406396.4U Withdrawn - After Issue CN205580487U (en) | 2016-05-06 | 2016-05-06 | Many angle observation device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105890638A (en) * | 2016-05-06 | 2016-08-24 | 福建农林大学 | Multi-angle observation device |
CN110307460A (en) * | 2019-07-15 | 2019-10-08 | 京东方科技集团股份有限公司 | Rotatable support frame and display device |
-
2016
- 2016-05-06 CN CN201620406396.4U patent/CN205580487U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105890638A (en) * | 2016-05-06 | 2016-08-24 | 福建农林大学 | Multi-angle observation device |
CN105890638B (en) * | 2016-05-06 | 2018-07-06 | 福建农林大学 | A kind of multi-angle observation device |
CN110307460A (en) * | 2019-07-15 | 2019-10-08 | 京东方科技集团股份有限公司 | Rotatable support frame and display device |
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