CN103697298B - Display unit - Google Patents

Abstract

The invention provides a kind of display unit, comprise display screen and supporting mechanism, this supporting mechanism is used for supporting display screen curtain and comprise vertical type shelf, fixed force spring, sliding seat and frictional force regulator, this vertical type shelf includes Height Adjustment groove, fixed force spring to be arranged in vertical type shelf and to have and pulls end, end is pulled to be used for driving fixed force spring to rotate to be positioned on vertical type shelf by display screen, sliding seat to be arranged in slidably in Height Adjustment groove and to connect and pulls end, display screen is removably connected to sliding seat, and sliding seat is used for adjusting the height of display screen.Frictional force regulator to be arranged at movably in vertical type shelf and hold relative with pulling, and is used for optionally relative vertical type shelf activity conflict at least partly with pulling end or be separated.

Description

Display unit

Technical field

The present invention is about a kind of display unit, and espespecially a kind of supporting mechanism that uses is with the display unit of supporting display screen curtain.

Background technique

Along with the progress of Display Technique, flat-panel screens has become current modal display unit, wherein LCD Panel is more because have that external form is frivolous, power consumption is few and the characteristic such as radiationless pollution, therefore has been widely used on the information products such as desktop computer screen and notebook computer.

In general, LCD Panel can be arranged on there is lift adjustment mechanism vertical type shelf on, the relative height of LCD Panel on vertical type shelf is adjusted with person easy to use, its common lift adjustment mechanism design utilizes the weight of LCD Panel and the fixing elastic force corresponding with the weight of LCD Panel that in collocation, fixed force spring provides, and can be located on arbitrary height to make LCD Panel to be in static balancing state.But, if user wants extra carry relevant peripheral element (as external hanging touch-control screen etc.) on LCD Panel, then often cause its summation weight to exceed fixing elastic force that fixed force spring can provide and LCD Panel cannot be positioned on vertical type shelf, the function of regulating height thereof that namely can produce vertical type shelf, because of the overweight and problem lost efficacy of the overall weight of the liquid crystal display being mounted with peripheral element, so will bring inconvenience for user and affect the operation ease of LCD Panel on vertical type shelf.

Summary of the invention

The object of the present invention is to provide a kind of have frictional force regulator with optionally with the display unit pulling end to conflict at least partly or be separated of fixed force spring, to solve the problem.

For achieving the above object, the invention provides a kind of display unit, comprising:

Display screen; And

Supporting mechanism, be used for supporting this display screen, this supporting mechanism comprises:

Vertical type shelf, includes at least one Height Adjustment groove;

Fixed force spring, to be arranged in this vertical type shelf and to have and pull end, and this pulls end to be used for driving this fixed force spring to rotate to be positioned on this vertical type shelf by this display screen;

Sliding seat, to be arranged in slidably in this Height Adjustment groove and to connect this and pull end, and this display screen is removably connected to this sliding seat, and this sliding seat is used for adjusting the height of this display screen; And

Frictional force regulator, to be arranged at movably in this vertical type shelf and to pull with this and hold relative, this frictional force regulator is used for optionally this vertical type shelf activity relative pull end conflict at least partly or be separated with this.

Preferably, this vertical type shelf is formed with switching slotted eye, this frictional force regulator comprises friction plate and changer lever, this changer lever protrudes from this friction plate and is arranged in this switching slotted eye movably, this friction plate along with this changer lever optionally relative to the movement of this vertical type shelf to pull the first side of end conflict at least partly or be separated with this.

Preferably, this friction plate contacts this and pulls on the surface of contact of this first side of end and be formed with point cantact microstructure.

Preferably, this friction plate is extended with bending plate, this bending plate along with this changer lever optionally relative to the movement of this vertical type shelf to pull the second side of end conflict at least partly or be separated with this, this first side is relative with this second side.

Preferably, this bending plate contacts this and pulls on the surface of contact of this second side of end and be formed with point cantact microstructure.

Preferably, be formed with at least one positioning convex portion in this switching slotted eye to locate this changer lever, make this friction plate and this pull this first side of end conflict at least partly or be separated.

Preferably, this supporting mechanism more comprises:

Perforation, to be formed on this vertical type shelf and with this pull hold relative; And

At least one location notch hole, extends from this perforation;

Wherein, this frictional force regulator is latch and is arranged in this perforation movably, this latch has at least one positioning rod, when this latch relative to this vertical type shelf rotate align the position of this location notch hole to this positioning rod time, this latch runs through this perforation and contacts this and pulls end.

Preferably, this supporting mechanism more comprises:

At least one clamping structure, to be formed on this vertical type shelf and this perforation adjacent;

Wherein, when this latch contact this pull end time, this latch rotatable makes this positioning rod be sticked in this clamping structure and misplaces with this location notch hole.

Preferably, this clamping structure comprises two prominent ribs, and this two prominent rib is arranged in parallel jointly to fix this positioning rod.

Preferably, this sliding seat comprises pin-jointed structure and land, and this pin-jointed structure has anchor portion and pivot joint end, and this anchor portion is fixed on this and pulls on end; This land is articulated in this pivot joint end, this land be used for removably connecting this display screen and relatively this pin-jointed structure pivotable to adjust the angle of relative this vertical type shelf of this display screen.

In sum, the present invention adopt frictional force regulator be arranged at movably in vertical type shelf with optionally with the design pulling end to conflict at least partly or be separated of fixed force spring, reach user can flexibly actuating friction force regulator to provide additional friction to the object pulling end of fixed force spring, thus, even if be additionally mounted with the service condition of peripheral element at display screen under, what display unit of the present invention still can utilize frictional force regulator to provide suitable frictional force to fixed force spring pulls end, so that user successfully can carry out the Height Adjustment operation of display screen, thus the problem that the function of regulating height thereof effectively solving the vertical type shelf that prior art is mentioned can lose efficacy because the overall weight of the display screen being mounted with peripheral element is overweight, by this, the present invention can promote the operation ease of display unit on the height of adjustment display screen widely.

Can be further understood by following detailed Description Of The Invention and institute's accompanying drawings about the advantages and spirit of the present invention.

Accompanying drawing explanation

The schematic perspective view of display unit of Fig. 1 for proposing according to the first embodiment of the present invention.

Fig. 2 is the partial cutaway schematic view of display unit along hatching A-A of Fig. 1.

Fig. 3 is the schematic perspective view of supporting mechanism after omitting sliding seat of Fig. 1.

Fig. 4 is the partial cutaway schematic view of supporting mechanism along hatching B-B of Fig. 3.

Fig. 5 is that the frictional force regulator of Fig. 4 moves to the partial cutaway schematic view with the position pulling end portion to conflict.

The partial cutaway schematic view of display unit of Fig. 6 for proposing according to another embodiment of the present invention.

Fig. 7 is the schematic perspective view of the frictional force regulator of Fig. 6.

Fig. 8 is the enlarged diagram pulling end of the frictional force regulator conflict fixed force spring of Fig. 6.

Fig. 9 is that the frictional force regulator of Fig. 8 rotates and to be sticked in clamping structure and the enlarged diagram misplaced with location notch hole to positioning rod.

Embodiment

Refer to Fig. 1, it is the schematic perspective view of the display unit 10 gone out according to the first embodiment of the present invention.As shown in Figure 1, display unit 10 comprises display screen 12 and supporting mechanism 14, wherein in order to the mechanism design of clear display supporting mechanism 14, display screen 12 shows it with dotted line in FIG, display screen 12 can be generally common display device, as LCD Display or a machine shaping (All-in-One) desktop computer etc.Supporting mechanism 14 can be used to supporting display screen curtain 12, below for the mechanism design for supporting mechanism 14 is described in detail.

Please refer to the partial cutaway schematic view of display unit 10 along hatching A-A that Fig. 1 and Fig. 2, Fig. 2 are Fig. 1.As shown in Figure 1 and Figure 2, supporting mechanism 14 comprises vertical type shelf 16, fixed force spring 18, sliding seat 20, and frictional force regulator 22.Vertical type shelf 16 can include at least one Height Adjustment groove 24(and show two in Fig. 1, but does not limit by this).Fixed force spring 18 to be arranged in vertical type shelf 16 and to have and pulls end 26, sliding seat 20 to be arranged in slidably in Height Adjustment groove 24 and to connect and pulls end 26, by this, pull end 26 can slide along Height Adjustment groove 24 along with sliding seat 20, drive fixed force spring 18 to rotate to provide fixing elastic force, the relative height of display screen 12 on vertical type shelf 16 can be adjusted to allow user non-section type.In actual applications, sliding seat 20 can comprise pin-jointed structure 28 and land 30, pin-jointed structure 28 can have anchor portion 32 and pivot joint end 34, anchor portion 32 is fixed on and pulls on end 26, land 30 is then be articulated in pivot joint end 34 and be used for removably connecting display screen 12 and can pin-jointed structure 28 pivotable relatively, by this, namely land 30 can be used to the angle (as pitching angle etc.) adjusting the relative vertical type shelf 16 of display screen 12.

As for the design aspect at frictional force regulator 22, refer to Fig. 3 and Fig. 4, Fig. 3 is the schematic perspective view of supporting mechanism 14 after omitting sliding seat 20 of Fig. 1, and Fig. 4 is the partial cutaway schematic view of supporting mechanism 14 along hatching B-B of Fig. 3.As shown in Figure 3 and 4, it is interior and relative with pulling end 26 that frictional force regulator 22 is arranged at vertical type shelf 16 movably, to be used for optionally, relatively vertical type shelf 16 is movable and conflict with pulling end 26, in more detail, in this embodiment, vertical type shelf 16 can be formed and switch slotted eye 36, frictional force regulator 22 can comprise friction plate 38 and changer lever 40, changer lever 40 protrudes from friction plate 38 and is arranged at movably and switches in slotted eye 36, by this, friction plate 38 can along with changer lever 40 relative to moving of vertical type shelf 16 with the first side S pulling end 26 ₁conflict.In addition, the extensible bending plate 42 of friction plate 38, bending plate 42 can along with changer lever 40 relative to moving of vertical type shelf 16 with the second side S pulling end 26 ₂conflict, use the effect producing and can increase frictional force regulator 22 further and pull the frictional force produced between end 26, wherein as shown in Figure 4, the first side S ₁with the second side S ₂relatively.It is noted that as shown in Figure 3, at least one positioning convex portion 37(can be formed with in switching slotted eye 36 and show six in Fig. 3, but not limit by this) switch to produce effect that slotted eye 36 can locate changer lever 40 multi-section type.

In addition, as shown in Figure 4, friction plate 38 contact pulls the first side S of end 26 ₁surface of contact 39 on can be formed with point cantact microstructure 44, can to contact from face with the rubbing contact pulled between end 26 to make friction plate 38 and become point cantact, thus make sliding seat 20 can smooth more along the slip of Height Adjustment groove 24.Above-mentioned design can be applicable in bending plate 42, and that is, bending plate 42 contact pulls the second side S of end 26 ₂surface of contact 43 on also can be formed with another point cantact microstructure 44, can to contact from face with the rubbing contact pulled between end 26 to make bending plate 42 and become point cantact.

Be described in this operation for frictional force regulator 22, refer to Fig. 4 and Fig. 5, Fig. 5 is that the frictional force regulator 22 of Fig. 4 moves to the partial cutaway schematic view with the position pulling end 26 part to conflict.When user wants extra carry relevant peripheral element (as external hanging touch-control screen etc.) on display screen 12, user only needs switching promoting changer lever 40 in slotted eye 36 position moved to as shown in Figure 4, thus, by friction plate 38 and the first side S pulling end 26 ₁conflict and bending plate 42 and the second side S pulling end 26 ₂the design of conflicting, frictional force regulator 22 can with pull end 26 to produce frictional force jointly to be formed with the fixing elastic force provided with fixed force spring 18 and upwards make a concerted effort, what jointly formed with the weight of the peripheral element of the weight and its carry that overcome display screen 12 makes a concerted effort downwards, by this, display screen 12 can be in static balancing state with the peripheral element of its carry and can be located on arbitrary height to allow user still can adjust the relative height of display screen 12 on vertical type shelf 16 being mounted with peripheral element non-section type, thus effectively solve the problem that the function of regulating height thereof of vertical type shelf that prior art mentions lost efficacy because the overall weight of the display screen being mounted with peripheral element is overweight.

In addition, from Fig. 4 and Fig. 5, can in the design switching movement in slotted eye 36 by changer lever 40, user optionally promotes changer lever 40 and is switching in slotted eye 36 another location (position such as shown in Fig. 5) moving to from position as shown in Figure 4 and friction plate 38 and bending plate 42 part are contacted at pull end 26, use the object reaching user and flexibly can adjust frictional force regulator 22 and pull the frictional force produced between end 26, thus guarantee display unit 10 change frictional force regulator 22 all can be utilized under carry has the different service condition that the display screen of Different Weight or display screen 12 be additionally mounted with the peripheral element of Different Weight to provide suitable frictional force to fixed force spring 18 pull end 26, so that user successfully can carry out the screen height adjustment operation of display unit 10.

On the other hand, in another embodiment, switch slotted eye 36 also can change to adopt and changer lever 40 can be allowed to move to make friction plate 38 and bending plate 42 completely to extend to elongate with the slotted eye pulling end 26 to be separated and design, by this, if user to want when any peripheral element of not carry the directly relative height of adjustment display screen 12 on vertical type shelf 16, then user can promote changer lever 40 and to move to from position as shown in Figure 4 in switching slotted eye 36 and make friction plate 38 and bending plate 42 and the position pulling end 26 to be separated completely, by this, the fixing elastic force that display unit 10 can only utilize fixed force spring 18 to provide is to carry out the location of display screen 12, thus avoid the frictional force that provides because of frictional force regulator 22 excessive and cause sliding seat 20 to slide having some setbacks or situation about even cannot slide along Height Adjustment groove 24 occurs.

It is worth mentioning that, the present invention also can adopt other utilize frictional force regulator be arranged at movably in vertical type shelf with the pulling end to conflict at least partly or be separated and the design of additional friction is provided of fixed force spring, for example, refer to Fig. 6, Fig. 7 and Fig. 8, the partial cutaway schematic view of display unit 10 ' of Fig. 6 for proposing according to another embodiment of the present invention, Fig. 7 is the schematic perspective view of the frictional force regulator 22 ' of Fig. 6, Fig. 8 is the enlarged diagram pulling end 26 of frictional force regulator 22 ' the conflict fixed force spring 18 of Fig. 6, wherein in order to clear display frictional force regulator 22 ' and the structural design of vertical type shelf 16, end 26 is pulled to be show it with dotted line in Fig. 8.Element person identical with the element number described in above-described embodiment described in this embodiment, represents that it has similar function or structure, repeats no more in this.

As Fig. 6, shown in Fig. 7 and Fig. 8, display unit 10 ' comprises display screen 12 and supporting mechanism 14 ', supporting mechanism 14 ' comprises vertical type shelf 16, fixed force spring 18, sliding seat 20, frictional force regulator 22 ', perforation 46 and at least one location notch hole 48(show two in Fig. 8, but do not limit by this), frictional force regulator 22 ' can be latch and is arranged in perforation 46 movably, frictional force regulator 22 ' can have at least one positioning rod 23(and show two in Fig. 7, but do not limit by this), perforation 46 to be formed on vertical type shelf 16 and with fixed force spring 18 pull end 26 relative, location notch hole 48 extends from perforation 46, by this, when frictional force regulator 22 ' rotates to positioning rod 23 positioned in alignment slotted eye 48 relative to vertical type shelf 16, frictional force regulator 22 ' perforation 46 can be run through and touch fixed force spring 18 pull end 26.

In addition, as shown in Figure 8, supporting mechanism 14 ' more can comprise at least one clamping structure 50(and show two in Fig. 8, but do not limit by this), clamping structure 50 can be formed on vertical type shelf 16 and adjacent perforated 46, in more detail, in this embodiment, clamping structure 50 can comprise two prominent ribs 52, two prominent ribs 52 can be arranged in parallel with the positioning rod 23 jointly fixing frictional force regulator 22 ', by this, when frictional force regulator 22 ' contact fixed force spring 18 pull end 26 time, frictional force regulator 22 ' can rotate and this positioning rod 23 is sticked in two prominent ribs 52 and misplaces with location notch hole 48 by user, thus frictional force regulator 22 ' can be firmly fixed on vertical type shelf 16.

Be described in this operation for frictional force regulator 22 ', refer to Fig. 8 and Fig. 9, Fig. 9 is that the frictional force regulator 22 ' of Fig. 8 rotates and to be sticked in clamping structure 50 and the enlarged diagram misplaced with location notch hole 48 to positioning rod 23.When user wants extra carry relevant peripheral element (as external hanging touch-control screen etc.) on display screen 12, user only needs pivoting friction force regulator 22 ' (as used screwdriver etc.) to rotate to positioning rod 23 positioned in alignment slotted eye 48 relative to vertical type shelf 16, and then promote frictional force regulator 22 ' run through perforation 46 and contact fixed force spring 18 pull end 26(as shown in Figure 8).Finally, as long as user again pivoting friction force regulator 22 ' relative to vertical type shelf 16 rotate to be sticked in two prominent ribs 52 to positioning rod 23 as shown in Figure 9 and the position misplaced with location notch hole 48 to locate frictional force regulator 22 ', display unit 10 ' can be completed like this and utilize frictional force regulator 22 ' to provide frictional force to the operation pulling end 26 of fixed force spring 18.

Thus, by the design pulling end 26 of frictional force regulator 22 ' contact fixed force spring 18, frictional force regulator 22 ' can with pull end 26 to produce frictional force jointly to form one with the fixing elastic force provided with fixed force spring 18 and upwards make a concerted effort, what jointly formed with the weight of the peripheral element of the weight and its carry that overcome display screen 12 makes a concerted effort downwards, by this, display screen 12 can be in static balancing state with the peripheral element of its carry and can be located on arbitrary height to allow user still can adjust the relative height of display screen 12 on vertical type shelf 16 being mounted with peripheral element non-section type, thus effectively solve the problem that the function of regulating height thereof of vertical type shelf that prior art mentions lost efficacy because the overall weight of the display screen being mounted with peripheral element is overweight.

On the other hand, if user to want when any peripheral element of not carry the directly relative height of adjustment display screen 12 on vertical type shelf 16, then the rotatable frictional force regulator 22 ' of user rotates to the position of positioning rod 23 positioned in alignment slotted eye 48 as shown in Figure 8 relative to vertical type shelf 16 from position as shown in Figure 9, and then by frictional force regulator 22 ' from perforation 46 pull out and no longer contact fixed force spring 18 pull end 26, thus, the fixing elastic force that display unit 10 ' can only utilize fixed force spring 18 to provide is to carry out the location of display screen 12, thus avoid the frictional force that provides because of frictional force regulator 22 ' excessive and cause sliding seat 20 to slide having some setbacks or situation about even cannot slide along Height Adjustment groove 24 occurs.

Compared to prior art, the present invention adopt frictional force regulator be arranged at movably in vertical type shelf with optionally with the design pulling end to conflict at least partly or be separated of fixed force spring, reach user can flexibly actuating friction force regulator to provide additional friction to the object pulling end of fixed force spring, thus, even if be additionally mounted with the service condition of peripheral element at display screen under, what display unit of the present invention still can utilize frictional force regulator to provide suitable frictional force to fixed force spring pulls end, so that user successfully can carry out the Height Adjustment operation of display screen, thus effectively solve the problem that the function of regulating height thereof of vertical type shelf that prior art mentions lost efficacy because the overall weight of the display screen being mounted with peripheral element is overweight, by this, the present invention can promote the operation ease of display unit on the height of adjustment display screen widely.

The foregoing is only preferred embodiment of the present invention, all equalizations done according to the claims in the present invention change and modify, and all should belong to covering scope of the present invention.

Claims (10)

1. a display unit, is characterized in that, comprises:

Display screen; And

Supporting mechanism, be used for supporting this display screen, this supporting mechanism comprises:

Vertical type shelf, includes at least one Height Adjustment groove;

Fixed force spring, to be arranged in this vertical type shelf and to have and pull end, and this pulls end to be used for driving this fixed force spring to rotate to be positioned on this vertical type shelf by this display screen;

Sliding seat, to be arranged in slidably in this Height Adjustment groove and to connect this and pull end, and this display screen is removably connected to this sliding seat, and this sliding seat is used for adjusting the height of this display screen; And

Frictional force regulator, to be arranged at movably in this vertical type shelf and to pull with this and hold relative, this frictional force regulator is used for optionally this vertical type shelf activity relative pull end conflict at least partly or be separated with this.

2. display unit as claimed in claim 1, it is characterized in that, this vertical type shelf is formed with switching slotted eye, this frictional force regulator comprises friction plate and changer lever, this changer lever protrudes from this friction plate and is arranged in this switching slotted eye movably, and this friction plate optionally moves to pull the first side of end conflict at least partly or be separated with this relative to this vertical type shelf along with this changer lever.

3. display unit as claimed in claim 2, is characterized in that, this friction plate contacts this and pulls on the surface of contact of this first side of end and be formed with point cantact microstructure.

4. display unit as claimed in claim 2, it is characterized in that, this friction plate is extended with bending plate, and this bending plate optionally moves to pull the second side of end conflict at least partly or be separated with this relative to this vertical type shelf along with this changer lever, and this first side is relative with this second side.

5. display unit as claimed in claim 4, is characterized in that, this bending plate contacts this and pulls on the surface of contact of this second side of end and be formed with point cantact microstructure.

6. display unit as claimed in claim 2, is characterized in that, be formed with at least one positioning convex portion to locate this changer lever in this switching slotted eye, make this friction plate and this pull this first side of end conflict at least partly or be separated.

7. display unit as claimed in claim 1, it is characterized in that, this supporting mechanism more comprises:

Perforation, to be formed on this vertical type shelf and with this pull hold relative; And

At least one location notch hole, extends from this perforation;

Wherein, this frictional force regulator is latch and is arranged in this perforation movably, this latch has at least one positioning rod, when this latch relative to this vertical type shelf rotate align the position of this location notch hole to this positioning rod time, this latch runs through this perforation and contacts this and pulls end.

8. display unit as claimed in claim 7, it is characterized in that, this supporting mechanism more comprises:

At least one clamping structure, to be formed on this vertical type shelf and this perforation adjacent;

Wherein, when this latch contact this pull end time, this latch rotatable makes this positioning rod be sticked in this clamping structure and misplaces with this location notch hole.

9. display unit as claimed in claim 8, is characterized in that, this clamping structure comprises two prominent ribs, and this two prominent rib is arranged in parallel jointly to fix this positioning rod.

10. display unit as claimed in claim 1, it is characterized in that, this sliding seat comprises:

Pin-jointed structure, it has anchor portion and pivot joint end, and this anchor portion is fixed on this and pulls on end; And

Land, is articulated in this pivot joint end, this land be used for removably connecting this display screen and relatively this pin-jointed structure pivotable to adjust the angle of relative this vertical type shelf of this display screen.