CN108170219A - Integrated computer display screen hovering mechanism and the integrated computer comprising the mechanism - Google Patents
Integrated computer display screen hovering mechanism and the integrated computer comprising the mechanism Download PDFInfo
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- CN108170219A CN108170219A CN201810140236.3A CN201810140236A CN108170219A CN 108170219 A CN108170219 A CN 108170219A CN 201810140236 A CN201810140236 A CN 201810140236A CN 108170219 A CN108170219 A CN 108170219A
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
- G06F1/16—Constructional details or arrangements
- G06F1/1601—Constructional details related to the housing of computer displays, e.g. of CRT monitors, of flat displays
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F1/00—Details not covered by groups G06F3/00 - G06F13/00 and G06F21/00
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Abstract
Integrated computer the present invention relates to integrated computer display screen hovering mechanism and comprising the mechanism, the display screen hovering mechanism include four-bar mechanism unit, damping unit, spring unit, long torsional spring unit and short torsional spring unit;Four-bar mechanism unit is made of display screen connecting plate, stent, connecting rod one and main machine base, and long torsional spring is set in long torsional spring unit, short torsional spring is set in short torsional spring unit, friction plate is set in damping unit;Under the collective effect of four-bar mechanism unit, damping unit, spring unit, long torsional spring unit and short torsional spring unit, display screen can rotate in the range of restriction, move and stop at an arbitrary position, that is, realize hovering;When display screen hovers, the sum of the torque that display screen gravity generates, the torque that torque, the compressed spring of long torsional spring/short torsional spring generation generate and moment of friction of friction plate generation are zero.The present invention can facilitate user that display screen is adjusted to suitable position and angle when using integrated computer, and better usage experience is brought to user.
Description
Technical field
The present invention relates to field of computer technology more particularly to integrated computer display screen hovering mechanism and include the mechanism
Integrated computer.
Background technology
Integrated computer is that the host of computer and display are integrated into an integral device, compared with conventional desktop
With few, the small advantage of line, integrated level higher, price also has no significant change;The shape of integrated computer is plastic
Property it is strong, manufacturer can be designed that the product of great individual character, therefore occupy certain market share, be and laptop, pass
A kind of emerging computer industry that system desktop computer develops side by side.
Current market sales of integrated computer, display screen are fixed mostly;In published document,
Have adjustable;" the Mobile medical workstation Computer as disclosed in the Chinese patent application No. is 201420388168.X
The multidirectional adjusting bracket of display screen or all-in-one machine " is equipped with automatic hoisting mechanism and multidirectional regulating mechanism, wherein multidirectional adjusting machine
It is equipped in structure and rotates horizontally plate and vertical swivel plate, computer display or all-in-one machine is enable to adjust angle and height;But
Its is complicated, it is also necessary to be equipped with special driving device, considerably increase the weight of all-in-one machine.Application No. is
201720318541.8 Chinese patent discloses a kind of " host screen Integral computer ", is cut with scissors between display screen and host
It connects, display screen can be folded with respect to host, and purpose mainly reduces occupied space, convenient for collecting.
It can be caused such as persistent back pain, scapulohumeral periarthritis, wrist pain and cervicodynia using computer with incorrect posture for a long time
Consequence with the continuous improvement of user's requirement, has occurred in the market for the more of notebook brain or computer monitor
Function point analysis frame, user to be helped to find a more comfortable posture when using computer;But for integrated computer mesh
Preceding similar products not yet occur.
Invention content
Integrated computer the present invention provides a kind of integrated computer display screen hovering mechanism and comprising the mechanism, one
Computer screen can be rotated, be moved and stop at an arbitrary position in a certain range, so as to which user be facilitated to use one
Display screen is adjusted to suitable position and angle during body computer, better usage experience is brought to user.
In order to achieve the above object, the present invention is realized using following technical scheme:
Integrated computer display screen hovering mechanism, including four-bar mechanism unit, damping unit, spring unit, long torsional spring list
First and short torsional spring unit;Four-bar mechanism unit is made of display screen connecting plate, stent, connecting rod one and main machine base, and display screen connects
Fishplate bar, stent, connecting rod one and main machine base composition four-bar linkage, main machine base as the rack in four-bar linkage,
Stent and connecting rod one are as side link, and display screen connecting plate is as connecting rod;Display screen connecting plate is used to be integrally connected computer
Display screen;Long torsional spring is set in long torsional spring unit, short torsional spring is set in short torsional spring unit, sets friction plate in damping unit, it is long torsional spring, short
Limiting when torsional spring and friction plate are used to relatively rotate between display screen connecting plate and stent;Multiple compressions are set in spring unit
Spring;Long torsional spring unit and spring unit cooperation, gravity during for balancing display screen relative to vertical direction hypsokinesis realize from
Lock, the gravity that short torsional spring unit is used to balance when display screen leans forward relative to vertical direction realize self-locking, and damping unit is used to adjust
Save the size of self-lock force;Main machine base is used to connect with the host of integrated computer;In four-bar mechanism unit, damping unit, bullet
Under the collective effect of spring unit, long torsional spring unit and short torsional spring unit, display screen can rotate in the range of restriction, move and stop
Only at an arbitrary position, that is, hovering is realized;When display screen hovers, the torque of display screen gravity generation, long torsional spring/short torsional spring generate
The sum of moment of friction that the torque and friction plate that torque, compressed spring generate generate is zero.
The stent is made of symmetrically arranged left socle, right support, and left socle and right support are respectively arranged on display screen company
The both sides of fishplate bar are equipped with shaft on stent, are fixedly connected between shaft and stent on stent between left socle and right support;Display
Screen connecting plate both ends set collar bush in shaft on stent, and display screen connecting plate shaft on stent is enable to rotate.
The long torsional spring unit is made of long torsional spring, briquetting one and mounting flange one, mounting flange one and shaft on stent
It is fixedly connected, long torsional spring is set on stent in shaft, and one end of long torsional spring is fixed by briquetting one and display screen connecting plate to be connected
It connects, the other end is put in the fixing groove on mounting flange one.
The short torsional spring unit is made of short torsional spring, briquetting two, mounting flange two, and mounting flange two is consolidated with shaft on stent
Fixed connection, short torsional spring are set on stent in shaft, and one end of short torsional spring is fixedly connected by briquetting two with display screen connecting plate,
The other end is put in the sliding slot on mounting flange two, and limiting plate is set in sliding slot.
The damping unit is made of friction plate, fixed plate and adjusting bolt, and friction plate is Ω shapes, is set on stent and is turned
On axis, pivoting friction pair is formed between shaft on stent;The opening of friction plate passes through fixed plate as seam, one end is adjusted
It is fixedly connected with bolt with display screen connecting plate, the opening degree realization that the other end changes adjusting seam by adjusting bolt rubs to rotation
Wipe the adjusting of secondary frictional resistance.
The main machine base is made of left pedestal and right pedestal, between left pedestal and left socle, right pedestal and right support it
Between set stent lower rotary shaft respectively;Stent lower rotary shaft is fixedly connected with left socle/right support, stent lower rotary shaft and left pedestal/right bottom
Seat is rotatably coupled;Be respectively equipped with spring unit in left pedestal and right pedestal, spring unit by multiple compressed springs, axle sleeve and
Spring pressure bar forms, and one end of compressed spring held out against on left pedestal/right pedestal, the other end pass through spring pressure bar and axle sleeve one
End is hinged, and the other end of axle sleeve is fixedly connected with stent lower rotary shaft.
Integrated computer display screen hovers mechanism, is additionally provided with connecting rod two, connecting rod two as the void in four-bar linkage about
Beam;Left socle, right support outside set groove respectively, connecting rod one and connecting rod two are set in groove;The upper end point of connecting rod one, connecting rod two
It is not hinged with upper link block, and hinge joint is using the axis of shaft on stent as symmetry axis;Upper link block is consolidated with display screen connecting plate
It is fixed to connect and rotate therewith;Connecting rod one, connecting rod two lower end be hinged respectively with lower connecting block, and hinge joint is with lower turn of stent
The axis of axis is symmetry axis, and lower connecting block is fixedly connected with left pedestal/right pedestal.
Integrated computer includes any one integrated computer display screen hovering mechanism described above.
Compared with prior art, the beneficial effects of the invention are as follows:
1) display screen of integrated computer can be rotated, be moved and stop at an arbitrary position in a certain range, so as to side
Just display screen is adjusted to suitable position and angle by user when using integrated computer, is brought to user and is preferably used body
It tests;
2) it is simple in structure, easy to use, ingenious in design, good appearance;
It 3), can be according to screen weights regulating friction force size, strong applicability equipped with damping unit.
Description of the drawings
Fig. 1 is the dimensional structure diagram of integrated computer display screen hovering mechanism of the present invention.
Fig. 2 is the front view of Fig. 1.
Fig. 3 is the side view of Fig. 1.
Fig. 4 is the principle schematic of four-bar linkage of the present invention.
Fig. 5 is the partial enlarged view of spring unit of the present invention.
Fig. 6 is the structure diagram of integrated computer of the present invention.
In figure:1. shaft 7. on 2. long 3. friction plate of torsional spring, 4. short 5. display screen connecting plate of torsional spring, 6. stent of stent
12. briquetting of compressed spring 8. stent lower rotary shaft, 9. main machine base, 10. axle sleeve, 11. spring pressure bar, one 13. briquetting 2 14.
Link block 21. on 18. mounting flange of connecting rod one 15. connecting rod, 2 16. display screen, 17. host, one 19. mounting flange 2 20.
Lower connecting block
Specific embodiment
The specific embodiment of the present invention is described further below in conjunction with the accompanying drawings:
As shown in figs 1 to 6, integrated computer display screen hovering mechanism of the present invention, including four-bar mechanism unit, resistance
Buddhist nun's unit, spring unit, long torsional spring unit and short torsional spring unit;Four-bar mechanism unit is by display screen connecting plate 5, stent 1, connecting rod
1 and main machine base 9 form, as shown in figure 4, display screen connecting plate 5, stent 1, connecting rod 1 and main machine base 9 form plane
Four-bar mechanism, as the rack in four-bar linkage, stent 1 and connecting rod 1 as side link, display screen connects main machine base 9
Fishplate bar 5 is used as connecting rod;As shown in Figure 1 and Figure 2, display screen connecting plate 5 is used to be integrally connected computer screen 16;Long torsional spring
Long torsional spring 2 is set in unit, short torsional spring 4 is set in short torsional spring unit, sets friction plate 3 in damping unit, long torsional spring 2, short torsional spring 4 and is rubbed
Limiting when pad 3 is used to relatively rotate between display screen connecting plate 5 and stent 1;Multiple compressed springs are set in spring unit
7;Long torsional spring unit and spring unit cooperation, gravity during for balancing display screen 16 relative to vertical direction hypsokinesis realize from
Lock, the gravity that short torsional spring unit is used to balance when display screen 16 leans forward relative to vertical direction realize self-locking, and damping unit is used for
Adjust the size of self-lock force;Main machine base 9 is used to connect with the host 17 of integrated computer;It is single in four-bar mechanism unit, damping
Member, spring unit, long torsional spring unit and short torsional spring unit collective effect under, display screen 16 can rotate in the range of restriction,
It moves and stops at an arbitrary position, that is, realize hovering;When display screen 16 hovers, the torque of 16 gravity of display screen generation, long torsional spring
The sum of moment of friction of torque, the torque that compressed spring 7 generates and the generation of friction plate 3 that 2/ short torsional spring 4 generates is zero.
The stent 1 is made of symmetrically arranged left socle, right support, and left socle and right support are respectively arranged on display screen company
The both sides of fishplate bar 5 are equipped with shaft 6 on stent, are fixedly connected between shaft 6 and stent 1 on stent between left socle and right support;
5 both ends of display screen connecting plate set collar bush in shaft 6 on stent, enable 6 turns of shaft on stent of display screen connecting plate 5
It is dynamic.
The long torsional spring unit is made of long torsional spring 2, briquetting 1 and mounting flange 1, mounting flange 1 and stent
Upper shaft 6 is fixedly connected, and long torsional spring 2 is set on stent in shaft 6, and one end of long torsional spring 2 passes through briquetting 1 and display screen
Connecting plate 5 is fixedly connected, and the other end is put in the fixing groove on mounting flange 1.
The short torsional spring unit is made of short torsional spring 4, briquetting 2 13, mounting flange 2 19, mounting flange 2 19 and stent
Upper shaft 6 is fixedly connected, and short torsional spring 4 is set on stent in shaft 6, and one end of short torsional spring 4 passes through briquetting 2 13 and display screen
Connecting plate 5 is fixedly connected, and the other end is put in the sliding slot on mounting flange 2 19, and limiting plate is set in sliding slot.
The damping unit is made of friction plate 3, fixed plate and adjusting bolt, and friction plate 3 is Ω shapes, is set on stent
In shaft 6, pivoting friction pair is formed between shaft on stent 6;The opening of friction plate 3 passes through as seam, one end is adjusted
Fixed plate and bolt are fixedly connected with display screen connecting plate 5, and the other end changes the opening degree realization for adjusting seam by adjusting bolt
Adjusting to pivoting friction pair frictional resistance.
The main machine base 9 is made of left pedestal and right pedestal, between left pedestal and left socle, right pedestal and right support it
Between set stent lower rotary shaft 8 respectively;Stent lower rotary shaft 8 is fixedly connected with left socle/right support, stent lower rotary shaft 8 and left pedestal/right side
Pedestal is rotatably coupled;Spring unit is respectively equipped in left pedestal and right pedestal, spring unit is by multiple compressed springs 7, axis
Set 10 and spring pressure bar 11 form, and one end of compressed spring 7 is held out against on left pedestal/right pedestal, and the other end passes through spring pressure bar
11 are hinged with one end of axle sleeve 10, and the other end of axle sleeve 10 is fixedly connected with stent lower rotary shaft 8.
As shown in figure 3, it is additionally provided with connecting rod 2 15, connecting rod 2 15 in integrated computer display screen hovering mechanism of the present invention
As the passive constraint in four-bar linkage;Left socle, right support outside set groove respectively, set in groove connecting rod 1 and even
Bar 2 15;Connecting rod 1, the upper end of connecting rod 2 15 are hinged with upper link block 20 respectively, and hinge joint is with the axis of shaft on stent 6
Line is symmetry axis;Upper link block 20 is fixedly connected with display screen connecting plate 5 and can rotate therewith;Connecting rod 1, connecting rod 2 15
Lower end it is hinged with lower connecting block 21 respectively, and hinge joint is using the axis of stent lower rotary shaft 8 as symmetry axis, lower connecting block 21 with it is left
Pedestal/right pedestal is fixedly connected.
As shown in fig. 6, integrated computer of the present invention, includes any one integrated computer display screen described above
Hovering mechanism.
The operation principle of integrated computer display screen hovering mechanism of the present invention is as follows, as shown in figure 4, four-bar mechanism list
The degree of freedom of the four-bar linkage formed in member is 1, and one end of long torsional spring 2 is acted on display screen link 5, the other end
It acts on stent 1, center line and the display screen connecting plate 5 and the axis of the hinge axis (shaft 6 on stent) of stent 1 of long torsional spring 2
Line overlaps.One end of short torsional spring 4 is acted on display screen link 5, and the other end is acted on stent 1, the center line of short torsional spring 4
It is overlapped with the axis of the hinge axis of display screen connecting plate 5 and stent 1 (shaft 6 on stent).One end of compressed spring 7 acts on master
On machine base 9, the other end is acted on stent lower rotary shaft 8, when the lower fulcrum of stent 1 is around stent 1 and the hinge of main machine base 9
Axis (stent lower rotary shaft 8) to specific direction rotate when, compressed spring 7 is compressed.When application external force rotates display screen 16, by
There was only one degree of freedom in four-bar linkage, relative motion can occur for stent 1, connecting rod 1, when rotation is to any angle, outside
When power cancels, power that the gravity of display screen 16 is generated with long 2/ short torsional spring 4 of torsional spring, the power of the generation of compressed spring 7, friction plate 3 produce
Raw frictional force offsets, at this time the stress balance of whole system, 16 remains stationary state of display screen, so as to fulfill display screen 16
Hovering.
Following embodiment is being implemented down based on the technical solution of the present invention, gives detailed embodiment and tool
The operating process of body, but protection scope of the present invention is not limited to following embodiments.Technology hand employed in following embodiments
Section is conventional technical means unless otherwise instructed.
【Embodiment】
As shown in fig. 6, display screen 16 is fixedly connected by bolt with display screen connecting plate 5.Display screen 16 is vertical at this time
State (perpendicular to horizontal plane), system keep balance under the torque of gravity and short torsional spring 4 offer of display screen 16.
Short 4 one end of torsional spring is fixed on by briquetting 2 13 on display screen connecting plate 5.One end is put on mounting flange 2 19
In sliding slot, shaft 6 is bolted to connection with stent 1 on stent.Limiting plate realization is set in sliding slot on mounting flange 2 19
Unilateral side closing, when display screen 16 is rotated counterclockwise centered on the axis of shaft on stent 6, the limiting plate in sliding slot is to short torsion
The rotation of spring 4 plays position-limiting action, generates torsional moment;When rotating clockwise, short torsional spring 4 is slided along sliding slot, does not generate twisting resistance
Square.In the present invention, short torsional spring unit mainly plays position-limiting action, and display screen 16 is made to keep vertical state and cannot be rotated counterclockwise
(display screen rotates counterclockwise the use habit that is not accordant to the old routine), only rotates clockwise.
When user adjusts 16 angle of display screen, external force can be applied to display screen 16, make display screen 16 on stent
(position as shown in Figure 6) rotates an angle to shaft 6 clockwise, at this point, the lower fulcrum of stent 1 can be with the axis of stent lower rotary shaft 8
Corresponding angle is rotated centered on line counterclockwise;As shown in Figure 1, since one end of long torsional spring 2 is fixedly connected by briquetting 1
On display screen connecting plate 5, the other end is fixed in the mounting groove of mounting flange 1, and shaft 6 passes through spiral shell with stent 1 on stent
Bolt is fixedly connected, and when display screen 16 and the generation relative motion of stent 1, long torsional spring 2 can generate a torsional moment, the twisting resistance
Square can prevent display screen 16 from rotating clockwise.
As shown in figure 5, stent 1 is bolted to connection with stent lower rotary shaft 8, one end fixed host computer of compressed spring 7
On pedestal 9, the other end is fixed with spring pressure bar 11, and spring pressure bar 11 and the axle sleeve 10 on stent lower rotary shaft 8 are hinged, form one
Revolute, axle sleeve 10 are fixedly connected with stent lower rotary shaft 8.Main machine base 9 and host 17 be bolted to connection together,
Host 17 and main machine base 9 are stationary in practical application, so main machine base 9 is used as the machine in four-bar linkage
The rack of structure is fixed.When display screen 16 is rotated clockwise centered on the axis of shaft on stent 6, due to four bar of plane
Mechanism only has one degree of freedom, and 1 lower fulcrum of stent will counterclockwise be rotated, and drive centered on the axis of stent lower rotary shaft 8
Stent lower rotary shaft 8 and axle sleeve 10 thereon rotate, and so as to be compressed compressed spring 7, the torque of generation is for preventing stent 1 inverse
Hour hands rotate, that is, display screen 16 is prevented to rotate clockwise.
As shown in Figure 1, friction plate 3 is sleeved on stent in shaft 6, the two forms friction pair, an openend of friction plate 3
It is fixed on display screen connecting plate 5 by connecting plate and bolt, another openend passes through the two of friction plate 3 by adjusting bolt
A openend is clamped on stent in shaft 6, can be adjusted by adjusting bolt and rubbed between shaft 6 on friction plate 3 and stent
The size of damping.Display screen 16 rotates clockwise or rotation counterclockwise, which is used to prevent display screen 16 always
Rotation.
When display screen 16 is adjusted to suitable angle by user, and after removing external force, whole system remains stationary is that is, aobvious
The torque that 16 gravity of display screen generates+long torsional spring 2 generates torque+friction plate 3 that torque+compressed spring 7 generates and generates moment of friction
=zero.With the difference of rotation angle, the torque of 16 gravity of display screen generation, long torsional spring 2 generate torque, compressed spring 7 generates
Torque all be variation, but be also it is computable.Since the moment of friction that friction plate 3 generates is a value range, Ke Yiyong
In the resultant force for offsetting above-mentioned three kinds of torque addition.In this way offset after, be zero with joint efforts so that display screen 16 in any one angle all
It can stop, so as to meet the requirement of display screen hovering.
The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto,
Any one skilled in the art in the technical scope disclosed by the present invention, according to the technique and scheme of the present invention and its
Inventive concept is subject to equivalent substitution or change, should be covered by the protection scope of the present invention.
Claims (8)
1. integrated computer display screen hover mechanism, which is characterized in that including four-bar mechanism unit, damping unit, spring unit,
Long torsional spring unit and short torsional spring unit;Four-bar mechanism unit is made of display screen connecting plate, stent, connecting rod one and main machine base,
Display screen connecting plate, stent, connecting rod one and main machine base composition four-bar linkage, main machine base is as in four-bar linkage
Rack, stent and connecting rod one are as side link, and display screen connecting plate is as connecting rod;Display screen connecting plate is based on being integrally connected
The display screen of calculation machine;Long torsional spring is set in long torsional spring unit, short torsional spring is set in short torsional spring unit, friction plate is set in damping unit, it is long
Limiting when torsional spring, short torsional spring and friction plate are used to relatively rotate between display screen connecting plate and stent;It is set in spring unit
Multiple compressed springs;Long torsional spring unit and spring unit cooperation, weight during for balancing display screen relative to vertical direction hypsokinesis
Power realizes self-locking, and the gravity that short torsional spring unit is used to balance when display screen leans forward relative to vertical direction realizes self-locking, and damping is single
Member is used to adjust the size of self-lock force;Main machine base is used to connect with the host of integrated computer;In four-bar mechanism unit, damping
Unit, spring unit, long torsional spring unit and short torsional spring unit collective effect under, display screen can rotate in the range of restriction,
It moves and stops at an arbitrary position, that is, realize hovering;When display screen hovers, the torque of display screen gravity generation, long torsional spring/short torsion
The sum of moment of friction of torque, the torque that compressed spring generates and friction plate generation that spring generates is zero.
The mechanism 2. integrated computer display screen according to claim 1 hovers, which is characterized in that the stent is by symmetrically setting
Left socle, the right support composition put, left socle and right support are respectively arranged on the both sides of display screen connecting plate, left socle and right support
Between be equipped with shaft on stent, be fixedly connected between shaft and stent on stent;Display screen connecting plate both ends set collar bush and are mounted in
On stent in shaft, display screen connecting plate shaft on stent is enable to rotate.
The mechanism 3. integrated computer display screen according to claim 1 hovers, which is characterized in that the long torsional spring unit by
Long torsional spring, briquetting one and mounting flange one form, and mounting flange one is fixedly connected with shaft on stent, and long torsional spring is set in stent
In upper shaft, one end of long torsional spring is fixedly connected by briquetting one with display screen connecting plate, and the other end is put on mounting flange one
Fixing groove in.
The mechanism 4. integrated computer display screen according to claim 1 hovers, which is characterized in that the short torsional spring unit by
Short torsional spring, briquetting two, mounting flange two form, and mounting flange two is fixedly connected with shaft on stent, and short torsional spring is set in stent
In upper shaft, one end of short torsional spring is fixedly connected by briquetting two with display screen connecting plate, and the other end is put on mounting flange two
Sliding slot in, limiting plate is set in sliding slot.
The mechanism 5. integrated computer display screen according to claim 1 hovers, which is characterized in that the damping unit is by rubbing
Pad, fixed plate and adjusting bolt composition, friction plate are Ω shapes, are set on stent in shaft, the shape between shaft on stent
Into pivoting friction pair;The opening of friction plate is consolidated as seam, one end is adjusted by fixed plate and bolt with display screen connecting plate
Fixed connection, the other end realize the adjusting to pivoting friction pair frictional resistance by the opening degree of adjusting bolt change adjusting seam.
The mechanism 6. integrated computer display screen according to claim 1 hovers, which is characterized in that the main machine base is by a left side
Pedestal and right pedestal composition, stent lower rotary shaft is set between left pedestal and left socle, between right pedestal and right support respectively;Under stent
Shaft is fixedly connected with left socle/right support, and stent lower rotary shaft is rotatably coupled with left pedestal/right pedestal;Left pedestal and the right side
Spring unit is respectively equipped in pedestal, spring unit is made of multiple compressed springs, axle sleeve and spring pressure bar, and the one of compressed spring
End is held out against on left pedestal/right pedestal, and the other end is hinged by one end of spring pressure bar and axle sleeve, the other end and stent of axle sleeve
Lower rotary shaft is fixedly connected.
The mechanism 7. integrated computer display screen according to claim 1 hovers, which is characterized in that be additionally provided with connecting rod two, even
Bar two is as the passive constraint in four-bar linkage;Left socle, right support outside set groove respectively, one He of connecting rod is set in groove
Connecting rod two;Connecting rod one, connecting rod two upper end be hinged respectively with upper link block, and hinge joint is symmetrical using the axis of shaft on stent
Axis;Upper link block is fixedly connected with display screen connecting plate and can rotate therewith;Connecting rod one, connecting rod two lower end respectively with lower company
It connects block to be hinged, and hinge joint, using the axis of stent lower rotary shaft as symmetry axis, lower connecting block is fixedly connected with left pedestal/right pedestal.
8. integrated computer, which is characterized in that include any one integrated computer display screen hovering machine in claim 1-7
Structure.
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CN110410415A (en) * | 2019-08-02 | 2019-11-05 | 俞科成 | A kind of multi-functional shaft |
CN110764571A (en) * | 2018-07-27 | 2020-02-07 | 中国长城科技集团股份有限公司 | Integrated computer |
CN110762356A (en) * | 2018-07-27 | 2020-02-07 | 中国长城科技集团股份有限公司 | All-in-one machine support |
CN111468455A (en) * | 2020-04-21 | 2020-07-31 | 鞍山极致创新科技有限公司 | Pig farm excrement way cleaning robot |
CN112148083A (en) * | 2020-09-25 | 2020-12-29 | 南京俊谦谦电子商务有限公司 | Energy-concerving and environment-protective electronic computer shell |
CN112887457A (en) * | 2021-01-21 | 2021-06-01 | 维沃移动通信有限公司 | Folding mechanism and electronic equipment |
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Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110764571A (en) * | 2018-07-27 | 2020-02-07 | 中国长城科技集团股份有限公司 | Integrated computer |
CN110762356A (en) * | 2018-07-27 | 2020-02-07 | 中国长城科技集团股份有限公司 | All-in-one machine support |
CN110762356B (en) * | 2018-07-27 | 2024-04-19 | 中国长城科技集团股份有限公司 | Integrated machine bracket |
CN110410415A (en) * | 2019-08-02 | 2019-11-05 | 俞科成 | A kind of multi-functional shaft |
CN110410415B (en) * | 2019-08-02 | 2024-05-14 | 俞科成 | Multifunctional rotating shaft |
CN111468455A (en) * | 2020-04-21 | 2020-07-31 | 鞍山极致创新科技有限公司 | Pig farm excrement way cleaning robot |
CN112148083A (en) * | 2020-09-25 | 2020-12-29 | 南京俊谦谦电子商务有限公司 | Energy-concerving and environment-protective electronic computer shell |
CN112148083B (en) * | 2020-09-25 | 2021-08-10 | 联益精密(中山)有限公司 | Energy-concerving and environment-protective electronic computer shell |
CN112887457A (en) * | 2021-01-21 | 2021-06-01 | 维沃移动通信有限公司 | Folding mechanism and electronic equipment |
CN112887457B (en) * | 2021-01-21 | 2023-04-14 | 维沃移动通信有限公司 | Folding mechanism and electronic equipment |
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