CN104750170A - Support device capable of guiding steering - Google Patents

Abstract

The invention discloses a support device capable of guiding steering, which is used for supporting an electronic device on a supporting plane. The support device comprises a bracket unit, a fixed unit fixed on the bracket unit, a movable unit fixed on the electronic device, and a guiding unit, wherein the fixing unit comprises a first vertical plane; the movable unit comprises a second plane facing the first plane, and has a corresponding point of which the position corresponds to the center of the electronic device; the guiding unit comprises a first sliding chute, a first sliding part, a linkage structure and a guiding structure; the first sliding part is rotationally inserted and limited in the first sliding chute and can slide along a first guiding path; and the guiding structure is used for guiding the linkage structure to move rotationally along a second guiding path in order to link the displacement of the first sliding part between a first position and a second position in the first sliding chute. Through adoption of the support device capable of guiding steering, the component mechanism is simple, and the height of the electronic device can be changed while guiding steering of the electronic device.

Description

The bracing or strutting arrangement turned to can be guided

Technical field

The present invention relates to a kind of electronic installation, particularly relate to a kind of bracing or strutting arrangement in order to support electronics.

Background technology

At computer screen in time showing dissimilar archives, can be applicable to arranging with different angles, such as, when showing film archive, screen is comparatively applicable to arranging with the angle of transverse direction; And when display page is upright archive files, be then applicable to arranging with the angle of longitudinal direction.In order to meet the demand that screen is changed between different angles, part dealer is proposed the screen-supporting device can guiding screen shift.

Existing screen-supporting device of guiding screen shift is roughly supported on a supporting surface in upright extension, and comprise one and be positioned at upper end to be articulated in the pin-jointed structure, of a screen in order to adjust the stretching structure of this pin-jointed structure height, and one in order to be locked in the lock solid structure of required angle by screen.Will by when laterally transferring to longitudinal at this screen, user first operates this stretching structure makes the height of this pin-jointed structure rise, then rotating screen and by pin-jointed structure, screen and bracing or strutting arrangement item are produced to be pivoted relative to each other again, allowing screen screen locking be located with lock solid structure again by laterally transferring to longitudinally, reaching the demand of adjustment screen angle.

But existing screen-supporting device of guiding screen shift is when guiding screen shift, in order to avoid screen, to transfer the height longitudinally to too low and collide supporting surface, therefore need sequentially to operate stretching structure and pin-jointed structure respectively, turn to arrive location after also need operable lock fixing structure to be locked by screen, process loaded down with trivial details and quite inconvenience.In addition, existing screen-supporting device of guiding screen shift need arrange the stretching structure that can change pin-jointed structure height, causes modular construction relative complex and cost improves.Therefore, existing screen-supporting device of guiding screen shift also has many spaces to be improved really.

Summary of the invention

The object of the present invention is to provide a kind of guiding electronic installation turn to can change electronic installation height simultaneously guide the bracing or strutting arrangement turned to.

Another object of the present invention is to provide a kind of modular construction simply can guide the bracing or strutting arrangement turned to.

The present invention can guide the bracing or strutting arrangement turned to and be applicable to an electronic installation to be supported on a supporting surface, and comprise a carrier unit, being supported in supporting surface and be fixed on the fixed cell, of carrier unit for being fixed on the active unit of electronic installation, an and guide unit.Fixed cell comprises a first upright plane.Active unit comprises one in the face of the second plane of this first plane, and defines vertical second plane and by the axis at electronic installation center.Axis is by the corresponding point in the second plane.

Guide unit comprise one be formed at one of them the first chute, of the first plane and the second plane be fixed on the first plane and the second plane wherein another the first sliding part, be formed at the serial verb construction of the second plane, and the guiding structural that connects serial verb construction and the first plane.First chute is elongated and extend along curved first guide path.First sliding part wears rotationally and is limited in the first chute, and can along the first guide path and the first chute relative sliding.Guiding structural is different from the second guide path displacement of the first guide path rotationally along one in order to guide serial verb construction, with displacement between the primary importance of interlock first sliding part in the first chute and a second place.When the first sliding part moves to the second place by primary importance, parallel first plane earth of the second plane rotates a fixed angle, and the corresponding point of active unit are away from the bottom of carrier unit.

Of the present inventionly guide the bracing or strutting arrangement turned to, this first guide path is the curve of downward-extension on; The upper end of this first chute forms the first bending segment of a bending downwards; This first sliding part is placed in this first bending segment when being arranged in this second place.

Of the present inventionly guide the bracing or strutting arrangement turned to, this guiding structural has the second chute that is formed at this first plane; This second chute is elongated and extend along this second guide path, and this serial verb construction has the second sliding part that is fixed on this second plane; This second sliding part wears rotationally and is limited in this second chute, and can along this second guide path and this second chute relative sliding.

Of the present inventionly guide the bracing or strutting arrangement turned to, this first sliding part is formed at this second plane, and is L with the distance of this second sliding part; Any position on this first chute all has the correspondence position that a distance is L on this second chute.

Of the present inventionly guide the bracing or strutting arrangement turned to, this fixed cell also comprises the fixed part of this carrier unit of connection; This first chute and this second chute are spaced transverse to each other, and lay respectively at the two opposite sides of this fixed part.

Of the present inventionly guide the bracing or strutting arrangement turned to, this first guide path and this second guide path are upper downward-extension and the curve bent towards the direction of this fixed part.

Of the present inventionly guide the bracing or strutting arrangement turned to, the upper end of this second chute forms the second bending segment of a bending downwards; When this first sliding part is positioned at this primary importance, this second sliding part is placed in this second bending segment.

Of the present inventionly guide the bracing or strutting arrangement turned to, this guiding structural has a connecting rod; This connecting rod has the first end that is articulated in this first plane, and second end being articulated in this serial verb construction; On this first end to this first chute the distance of any point be less than or equal to this serial verb construction to this first sliding part distance and this length of connecting rod and; The circular arc that this second guide path is is radius for the center of circle with this length of connecting rod with this first end.

Of the present inventionly guide the bracing or strutting arrangement turned to, this fixed cell also comprises the fixed part that connects this carrier unit; This first chute is formed at this first plane, and is spaced transverse to each other with the first end of this connecting rod and lays respectively at the two opposite sides of this fixed part.

Of the present inventionly guide the bracing or strutting arrangement turned to, when this first sliding part is positioned at this primary importance and this second place, the corresponding point of this active unit are positioned on same perpendicular line; This carrier unit bottom side has one in order to be supported in the base portion of this supporting surface; This base portion has the lateral margin that two lay respectively at laterally two opposition sides; The path of corresponding point displacement when this second Plane Rotation of this active unit is between described lateral margin.

Of the present inventionly guide the bracing or strutting arrangement turned to, this fixed cell also has the bolster of this first chute one end contiguous; When this first sliding part is close to one end of this first chute this bolster contiguous, this bolster provides this first sliding part one cushioned resistance.

Beneficial effect of the present invention is: guide the first sliding part and serial verb construction displacement that are fixed on active unit respectively by the first chute and guiding structural, electronic installation is improved and collision free supporting surface in the lump turning to simultaneously centre-height, must not carry out respectively turning to and hoisting depth operation and allow ease of use promote.In addition, can electronic installation need only be driven to turn to by a guide unit, hoisting depth and location simultaneously, therefore significantly reduce the complexity of black box structure, make assembly, processing procedure all simplified and reduce production cost.

Accompanying drawing explanation

Fig. 1 is a stereographic map, illustrates that the present invention can guide the first preferred embodiment of the bracing or strutting arrangement turned to;

Fig. 2 is an exploded view, and the assembly of this first preferred embodiment is described;

Fig. 3 is an exploded view, and another angle of this first preferred embodiment assembly is described;

Fig. 4 is a rear view, illustrates that one first sliding part is positioned at a primary importance;

Fig. 5 is the rear view of a similar Fig. 4, illustrates that an electronic installation is guided the process turned to;

Fig. 6 is the rear view of a similar Fig. 4, illustrates that this first sliding part is positioned at a second place;

Fig. 7 is a stereographic map, illustrates that the present invention can guide the second preferred embodiment of the bracing or strutting arrangement turned to;

Fig. 8 is an exploded view, and the assembly of this second preferred embodiment is described;

Fig. 9 is an exploded view, and another angle of this second preferred embodiment assembly is described;

Figure 10 is a rear view, illustrates that this first sliding part is positioned at this primary importance;

Figure 11 is the rear view of a similar Figure 10, illustrates that this electronic installation is guided the process turned to; And

Figure 12 is the rear view of a similar Figure 10, and this first sliding part is positioned at this second place.

Embodiment

Below in conjunction with drawings and Examples, the present invention is described in detail.

Consult Fig. 1 to Fig. 3, for the present invention can guide the first preferred embodiment of the bracing or strutting arrangement turned to.This can be guided the bracing or strutting arrangement turned to and be applicable to the electronic installation 1 of a such as computer screen to be supported on the supporting surface S of a such as desktop, and comprise a carrier unit 2, being supported in supporting surface S and be fixed on the fixed cell 3, of carrier unit 2 for being fixed on the active unit 4 of electronic installation 1, and the guide unit 5 that is connected and fixed unit 3 and active unit 4.

Carrier unit 2 comprises one and is positioned at bottom side and is supported in the base portion 21 of supporting surface S, and one is upwards extended by base portion 21 and is connected to the arm 22 of fixed cell 3.The transverse width of base portion 21 is greater than arm 22, and has the lateral margin 211 that two lay respectively at laterally two opposition sides.

Fixed cell 3 roughly in a tabular, and comprises one upright and towards the first plane 31 of electronic installation 1, and one in contrast to the first plane 31 and the fixed part 32 of connection bracket unit 2 arm 22.

Active unit 4 is one-body molded with the shell of electronic installation 1 in the present embodiment, and comprises second plane 41 of a parallel surface to this first plane 31, and defines vertical second plane 41 and by the axis X of electronic installation 1 center (not shown).This axis X is by the corresponding point 42 in the second plane 41.

Consult Fig. 2, Fig. 3 and Fig. 5, guide unit 5 comprises one and is formed at the first plane 31 and the first sliding part 52, that the first chute 51, running through fixed cell 3 is fixed on the second plane 41 is formed at the serial verb construction 53 of the second plane 41, and the guiding structural 54 that connects serial verb construction 53 and the first plane 31.First chute 51 is elongated and extend along a first guide path s1 presenting downward-extension curve, and the first chute 51 upper end forms the first bending segment 511 of a bending downwards.First sliding part 52 wears rotationally and is limited in the first chute 51, and can slide in the first chute 51 along the first guide path s1.

Guiding structural 54 is different from the second guide path s2 displacement of the first guide path s1 rotationally along one in order to guide serial verb construction 53, a primary importance (as Fig. 4) and between the second place (as Fig. 6) of the first chute 51 upper end displacement of interlock first sliding part 52 in the first chute 51 lower end whereby.In this preferred embodiment, the first guide path s1 and the second guide path s2 bends and roughly spiral curve towards fixed part 32 direction of fixed cell 3.Guiding structural 54 has one and is formed at the first plane 31 and runs through the second chute 544 of fixed cell 3.Second chute 544 is elongated and extend along this second guide path s2 presenting downward-extension curve, and be spaced transverse to each other with the first chute 51 and lay respectively at the two opposite sides of the fixed part 32 of fixed cell 3, and the second chute 544 upper end forms the second bending segment 545 of a bending downwards.Serial verb construction 53 has the second sliding part 531 that is fixed on the second plane 41.Second sliding part 531 wears rotationally and is limited in the second chute 544, and can slide in the second chute 544 along the second guide path s2.The distance of the first sliding part 52 and the second sliding part 531 is L, and any position on the first chute 51 all has the correspondence position that a distance is L on the second chute 544.

Consult Fig. 4 to Fig. 6, at electronic installation 1 by (as Fig. 4) during cross-brace, first sliding part 52 is positioned at the primary importance of the first chute 51 lower end and is subject to spacing, second sliding part 531 is positioned at the second bending segment 545 of the second chute 544 upper end and is subject to spacing, and the first sliding part 52 and the second sliding part 531 are laid respectively at the left and right sides of active unit 4 corresponding point 42 and firmly supported by electronic installation 1 by active unit 4.When electronic installation 1 will be longitudinal from transverse rotation, user's operating electronic devices 1 rotates clockwise (as Fig. 5), and by active unit 4 drive the first sliding part 52 and the second sliding part 531 respectively by one end of the first chute 51 and the second chute 544 towards other end displacement, now the second sliding part 531 moves along the second guide path s2 and the second bending segment 545, the first sliding part 52 of departing from the second chute 544 moves and the first bending segment 511 of contiguous first chute 51 gradually along the first guide path s1.

When electronic installation 1 continues to be rotated, first sliding part 52 moves to the second place of the first chute 51 upper end and enters in the first bending segment 511 and be subject to spacing (as Fig. 6), and the second sliding part 531 moves to the lower end of the second chute 544 and is subject to spacing simultaneously.When the first sliding part 52 moves to this second place by this primary importance, second plane 41 of active unit 4 rotates a fixed angle in parallel first plane 31 ground with electronic installation 1 simultaneously, this fixed angle is 90 degree in the present embodiment, make electronic installation 1 by laterally transferring longitudinal direction to whereby, and while electronic installation 1 rotates, to guide and along the first guide path s1 and the second guide path s2 displacement because the first sliding part 52 and the second sliding part 531 are subject to the first chute 51 and the second chute 544 respectively, therefore can be fitted to each other the guiding corresponding point 42 of active unit 4 and electronic installation 1 rise and away from the bottom of carrier unit 2.Therefore, user just can complete rotation and the rising of electronic installation 1 in an operational motion simultaneously, makes the operation of rotation more simple, convenient and rapid.In addition, the present invention must not arrange the pin-jointed structure that turns to and the stretching structure in order to change height respectively, significantly simplifies the structure and reduce processing time and cost compared to prior art.

Must be emphatically, in the present embodiment by the first chute 51 and the second chute 544 have respectively the first bending segment 511 and the second bending segment 545 for the first sliding part 52 and the second sliding part 531 respectively at electronic installation 1 in longitudinally with accommodating spacing time horizontal, therefore only need utilize the gravity of electronic installation 1 itself that electronic installation 1 can be made firmly to be positioned at vertical or horizontal, lock solid structure must be set in addition and just can guarantee that electronic installation 1 can not surprisingly because of collision or vibrations offset.In addition Fig. 4 and Fig. 6 is consulted, in the present embodiment, the first sliding part 52 is no matter when primary importance or the second place, the corresponding point 42 of active unit 4 are all positioned on the same perpendicular line Y by carrier unit 2 arm 22, therefore electronic installation 1 no matter horizontal or longitudinal time center position all correspond to the arm 22 of carrier unit 2 and stably can be supported by carrier unit 2.

In addition, at the first sliding part 52 when being moved to the second place by primary importance and making the second plane 41 rotate, the path of corresponding point 42 movement of active unit 4 is all between the both side edges 211 of carrier unit 2, and therefore electronic installation 1 will cause carrier unit 2 to overturn because of center over-deflection when rotated.And be easy-to-understand to, although the first sliding part 52 and the second sliding part 531 are fixed on active unit 4 in this preferred embodiment, and the first chute 51 and the second chute 544 are arranged at fixed cell 3, but also can change and the first sliding part 52 and the second sliding part 531 are fixed on fixed cell 3, and be arranged at active unit 4 by the first chute 51 and the second chute 544, only need to guide active unit 4 is relative with fixed cell 3 rotate a fixed angle while make active unit 4 highly increase, be not limited with the aspect disclosed by the present embodiment.

Consult Fig. 7 to Fig. 9, for the present invention can guide the second preferred embodiment of the bracing or strutting arrangement turned to.Roughly the same with above-mentioned first preferred embodiment, only in the second preferred embodiment, serial verb construction 53 is the projections being fixed on the second plane 41.Guiding structural 54 has a connecting rod 541.Consult Fig. 8, Fig. 9 and Figure 12, connecting rod 541 has the first end 542 that is articulated in the first plane 31, and the second end 543 that is articulated in serial verb construction 53, wherein first end 542 and the first chute 51 are spaced transverse to each other and lay respectively at the two opposite sides of fixed part 32.On first end 542 to the first chute 51 of connecting rod 541 distance of any point be less than or equal to serial verb construction 53 to the first sliding part 52 distance and connecting rod 541 length and.In addition, the first guide path s1 in the second preferred embodiment and the second guide path s2 is also different from above-mentioned first preferred embodiment, wherein, the second guide path s2 be one with the first end 542 of connecting rod 541 for the center of circle, the circular arc being radius with connecting rod 541 length.

Consult Figure 10 to Figure 12, at electronic installation 1 by (as Figure 10) during cross-brace, the first sliding part 52 is positioned at the primary importance of the first chute 51 lower end and is subject to spacing; Connecting rod 541 is articulated in serial verb construction 53 to downward-extension to make the second end 543 by first end 542.When electronic installation 1 will be longitudinal from transverse rotation, user's operating electronic devices 1 rotates clockwise (as Figure 11), and the first sliding part 52 is moved to the second place by the primary importance of the first chute 51 gradually.Now the first sliding part 52 and serial verb construction 53 are subject to the first chute 51 and the guiding of connecting rod 541 and respectively along the first guide path s1 and the second guide path s2 displacement.When electronic installation 1 continues to be rotated, first sliding part 52 moves to the second place of the first chute 51 upper end and in the first bending segment 511, is subject to spacing (as Figure 12), now electronic installation 1 and the second plane 41 simultaneously parallel first plane 31 ground 90-degree rotation transfer longitudinal direction to by electronic installation 1, and the first sliding part 52 and serial verb construction 53 drive electronic installation 1 to rise by the first chute 51 and the guiding of connecting rod 541 by active unit 4 and away from the bottom of carrier unit 2 respectively.

Consult Fig. 9, in the second preferred embodiment, fixed cell 3 also has one and is fixed on the first plane 31 and the bolster 33 of contiguous first chute 51 lower end.In the present embodiment, bolster 33 is a torque spring, but application is not limited with torque spring.When the first sliding part 52 is close to the lower end of the first chute 51, bolster 33 can provide the first sliding part 52 1 cushioned resistance, suddenly stops suddenly and impacts electronic installation 1 when avoiding the first sliding part 52 to move to and reach primary importance in the first chute 51 downwards.Be easy-to-understand to, above-mentioned bolster 33 is also applicable to be installed in the lower end of the second chute 544 in the first preferred embodiment, to avoid suddenly stopping impacting electronic installation 1 during the second sliding part 531 start.

In sum, the present invention utilizes the first chute 51 and guiding structural 54 guides to be respectively fixed on the first sliding part 52 of active unit 4 and serial verb construction 53 along the first guide path s1 and the second guide path s2 displacement, electronic installation 1 is guided while turning to and centre-height promotes, must not carry out respectively turning to the operation different from hoisting depth two kinds, improve convenience during use.In addition, owing to electronic installation 1 can be driven to turn to and hoisting depth by a simple guide unit 5 of structure simultaneously, therefore one must do not arranged respectively in order to the stretching structure and of lifting in order to guide the pin-jointed structure that turns to, reduce integrally-built complexity, make to guide the bracing or strutting arrangement processing procedure turned to and significantly simplify and reduce production cost.In addition, by the design of the first bending segment 511 and the second bending segment 545, electronic installation 1 is made to rely on the gravity of self firmly to locate and not need to arrange lock solid structure in addition.Therefore really can reach the object of the present invention.

Claims (11)

1. can guide the bracing or strutting arrangement turned to, be applicable to an electronic installation to be supported on a supporting surface; This can be guided the bracing or strutting arrangement turned to and comprise the carrier unit that is supported in this supporting surface; It is characterized in that this can be guided the bracing or strutting arrangement turned to and also comprise:

A fixed cell, is fixed on this carrier unit, and comprises upright first plane;

An active unit, for being fixed on this electronic installation, and comprises second plane in the face of this first plane, and defines this second plane vertical and the axis at center by this electronic installation, and this axis passes through corresponding point in this second plane; And

A guide unit, comprise one and be formed at one of them the first chute of this first plane and this second plane, one is fixed on this first plane and this second plane wherein another the first sliding part, a serial verb construction being formed at this second plane, and the guiding structural of this serial verb construction of connection and this first plane, this first chute is elongated and extend along curved first guide path, this first sliding part wears rotationally and is limited in this first chute, and can along this first guide path and this first chute relative sliding, this guiding structural is different from the second guide path displacement of this first guide path rotationally along one in order to guide this serial verb construction, with displacement between the primary importance of this first sliding part of interlock in this first chute and a second place, when this first sliding part moves to this second place by this primary importance, this second plane this first plane earth parallel rotates a fixed angle, and the corresponding point of this active unit are away from the bottom of this carrier unit.

2. according to claim 1ly guide the bracing or strutting arrangement turned to, it is characterized in that: this first guide path is the curve of downward-extension on; The upper end of this first chute forms the first bending segment of a bending downwards; This first sliding part is placed in this first bending segment when being arranged in this second place.

3. according to claim 1ly guide the bracing or strutting arrangement turned to, it is characterized in that: this guiding structural has the second chute that is formed at this first plane; This second chute is elongated and extend along this second guide path; This serial verb construction has the second sliding part that is fixed on this second plane; This second sliding part wears rotationally and is limited in this second chute, and can along this second guide path and this second chute relative sliding.

4. according to claim 3ly guide the bracing or strutting arrangement turned to, it is characterized in that: this first sliding part is formed at this second plane, and be L with the distance of this second sliding part; It is the correspondence position of L that any one position on this first chute all has a distance on this second chute.

5. according to claim 4ly guide the bracing or strutting arrangement turned to, it is characterized in that: this fixed cell also comprises the fixed part that connects this carrier unit; This first chute and this second chute are spaced transverse to each other, and lay respectively at the two opposite sides of this fixed part.

6. according to claim 5ly guide the bracing or strutting arrangement turned to, it is characterized in that: this first guide path and this second guide path are upper downward-extension and the curve bent towards the direction of this fixed part.

7. according to claim 6ly guide the bracing or strutting arrangement turned to, it is characterized in that: the upper end of this second chute forms the second bending segment of a bending downwards; When this first sliding part is positioned at this primary importance, this second sliding part is placed in this second bending segment.

8. according to claim 1ly guide the bracing or strutting arrangement turned to, it is characterized in that: this guiding structural has a connecting rod; This connecting rod has the first end that is articulated in this first plane, and second end being articulated in this serial verb construction; On this first end to this first chute the distance of any point be less than or equal to this serial verb construction to this first sliding part distance and this length of connecting rod and; The circular arc that this second guide path is is radius for the center of circle with this length of connecting rod with this first end.

9. according to claim 8ly guide the bracing or strutting arrangement turned to, it is characterized in that: this fixed cell also comprises the fixed part that connects this carrier unit; This first chute is formed at this first plane, and is spaced transverse to each other with the first end of this connecting rod and lays respectively at the two opposite sides of this fixed part.

10. according to claim 1ly guide the bracing or strutting arrangement turned to, it is characterized in that: when this first sliding part is positioned at this primary importance and this second place, the corresponding point of this active unit are positioned on same perpendicular line; This carrier unit bottom side has one in order to be supported in the base portion of this supporting surface; This base portion has the lateral margin that two lay respectively at laterally two opposition sides; The path of corresponding point displacement when this second Plane Rotation of this active unit is between described lateral margin.

11. according to claim 1ly guide the bracing or strutting arrangement turned to, and it is characterized in that: this fixed cell also has the bolster of this first chute one end of a vicinity; When this first sliding part is close to one end of this first chute this bolster contiguous, this bolster provides this first sliding part a cushioned resistance.