CN109990180A - A kind of Display support mechanism - Google Patents

Abstract

The invention discloses a kind of Display support mechanisms, including bottom plate and are connected to the bracket of bottom plate, bracket is connected with sliding rail mould group, the connection mould group for connecting display is slidably connected in sliding rail mould group；Sliding rail mould group includes guide rail, and the sliding block mutually chimeric with guide rail；Guide rail includes slide rail body, and is symmetrically disposed on two briquette structures of slide rail body opposite sides；The gap for sliding block sliding is reserved between two briquette structures and slide rail body；Interior slide plate is embedded in gap, and when sliding block is slided relative to guide rail, interior slide plate contacts the briquette structure or slide rail body in guide rail.Sliding rail mould group in the supporting mechanism is using embedded structure design, so that sliding function can be realized without ball auxiliary in sliding block, so that sliding rail mould group can have more slim design feature, be conducive to reduce the integral thickness of supporting mechanism, material needed for production can be reduced, achievees the purpose that energy-saving and emission-reduction, reduces cost.

Description

A kind of Display support mechanism

Technical field

The present invention relates to the technical field of support frame more particularly to a kind of Display support mechanisms.

Background technique

In order to facilitate user adjust display height, general display bracket all have bracket and for realizing The sliding rail of elevating function, the sliding rail include the linear guide being fixed to each other with bracket, and the sliding block connecting with display；Its In, sliding block mainly realizes moving back and forth in guide rail by ball, to realize the up and down adjustment function of display.

As it can be seen that sliding rail used by existing display bracket generally has ball, assisted using ball as sliding The sliding rail of part, since ball has certain volume, sliding rail must just reserve certain space conduct when manufacturing and designing The accommodating area of ball causes the thickness of display bracket will be because of the width of sliding rail so that entire sliding rail becomes very thick It limits and can not effectively reduce again, and this sliding rail containing ball, it is with high costs, lead to the production of display bracket Cost is high.

Therefore, the production cost and its thickness of existing display bracket how to be reduced, it has also become those skilled in the art Important subject.

Summary of the invention

The technical problem to be solved in the present invention is that in view of the deficiencies of the prior art, a kind of Display support mechanism is provided, To solve the problems, such as existing display bracket due to using the sliding rail with ball can not effective reduction technology so as to cause thickness.

To achieve the above object, the present invention provides technical solution below:

A kind of Display support mechanism including bottom plate and is connected to the bracket of the bottom plate, and the bracket is far from described One end of bottom plate is connected with sliding rail mould group, and the connection mould group for connecting display is slidably connected in the sliding rail mould group；

The sliding rail mould group includes the guide rail being fixed to each other with the bottom plate or bracket, and mutually chimeric with the guide rail Sliding block；The guide rail includes slide rail body, and is symmetrically disposed on two briquette structures of the slide rail body opposite sides； The slide rail body includes substrate, and there are two link block, the connections towards the connection of the side of the briquette structure for the substrate Briquette structure described in side of the block far from the substrate is connected；The briquette structure include briquetting main body and with the briquetting The first extension block that main body is connected；It is reserved between two briquette structures and slide rail body between sliding block sliding Gap；

The sliding block includes for the connecting component with the connection mould group connection, the connecting component opposite sides difference It is connected with linking arm, the linking arm is respectively connected with interior slide plate far from the side of the connecting component；The interior slide plate is embedded in In gap, when the sliding block is slided relative to the guide rail, the interior slide plate contacts the briquette structure or cunning in the guide rail Rail main body；

The connection mould group includes the connection frame being fixed to each other with the sliding block, and is rotationally connected with the connection frame Steering component, the steering component is for connecting display.

Optionally, the guide rail is respectively arranged with limiting section, the limit in the opposite end of the glide direction of the sliding block Position portion is extended outwardly by the side of the substrate to be formed by bending.

Optionally, the connection mould group further includes steering shaft, and the steering component is connected to by the steering axes The connection frame；And torsional spring is arranged in the steering shaft, two opposite force sides of the torsional spring respectively with the connection frame It is connected with steering component.

Optionally, the slide rail body includes at least four link blocks, and the link block is divided into two column and is set to institute Substrate is stated towards the side of the briquette structure, and the multiple link blocks respectively arranged are equally spacedly arranged；The two column connections Block has been removably installed the briquette structure respectively.

Optionally, the sliding rail mould group further includes several fasteners, the connector and briquette structure offer with The matched mounting hole of fastener；The fastener penetrates the mounting hole, and the briquette structure is removably installed In on the connector.

Optionally, there are two the torsional spring is arranged altogether, two torsional springs are sheathed on the opposite end of the steering shaft respectively.

Optionally, the sliding block further includes two the second extension blocks, and two second extension blocks are connected to two institutes State interior slide plate；Second extension block and the interior slide plate have mutually formed the first arcuation protrusion, when the sliding block is relative to institute When stating guide rail sliding, the first arcuation protrusion is contacted in the link block.

Optionally, the opposite end of glide direction of the interior slide plate in the sliding block is separately connected there are two third Extension block；The third extension block and the interior slide plate have mutually formed the second arcuation protrusion, when the sliding block is relative to described When guide rail slides, the third extension block is contacted in the substrate.

Optionally, the sliding block, slide rail body, briquette structure are structure as a whole respectively.

Optionally, the Display support mechanism includes two sliding rail mould groups, and the two sliding rail Mo Zu are located at described respectively The left and right sides of mould group is connected, and the sliding block of two sliding rail mould groups is fixed with the left and right sides of the connection frame connect respectively It connects.

Compared with prior art, the invention has the following advantages:

The present invention provides a kind of Display support mechanism, the sliding rail mould group in the supporting mechanism is set using embedded structure Meter, so that sliding function can be realized without ball auxiliary in sliding block, so that sliding rail mould group can have more slim structure Feature is conducive to the integral thickness for reducing supporting mechanism, and material needed for can reducing production reaches energy-saving and emission-reduction, reduces cost Purpose.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention without any creative labor, may be used also for those of ordinary skill in the art To obtain other attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram of the Display support mechanism in embodiment one；

Fig. 2 is the installation diagram of the Display support mechanism in embodiment one；

Fig. 3 is the partial enlarged view of the Display support mechanism in embodiment one；

Fig. 4 is the cross-sectional view of the sliding rail mould group in embodiment one；

Fig. 5 is the cross-sectional view of the sliding rail mould group in embodiment two；

Fig. 6 is the installation diagram of the sliding rail mould group in embodiment three；

Fig. 7 is the cross-sectional view of the sliding rail mould group in embodiment three；

Fig. 8 is the cross-sectional view of the sliding rail mould group in example IV；

Fig. 9 is the cross-sectional view of the sliding rail mould group in embodiment five；

Figure 10 is the sectional view of the sliding rail mould group in embodiment six；

Figure 11 is the structural schematic diagram of the sliding rail mould group in embodiment seven；

Figure 12 is the structural schematic diagram of the sliding block in embodiment seven；

Figure 13 is the structural schematic diagram of the sliding block in embodiment eight；

Figure 14 is the structural schematic diagram of the supporting mechanism in embodiment nine.

It illustrates:

10, bottom plate；

20, bracket；

30, sliding rail mould group；31, guide rail；311, slide rail body；3111, substrate；3112, link block；312, briquette structure； 3121, briquetting main body；3122, the first extension block；313, limiting section；32, sliding block；321, connecting component；322, linking arm；323, Interior slide plate；324, the second extension block；3241, the first arcuation protrusion；325, third extension block；3251, the second arcuation protrusion；

40, mould group is connected；41, connection frame；42, steering component；43, steering shaft；44, torsional spring.

Specific embodiment

To enable the purpose of the present invention, feature, advantage more obvious and understandable, implement below in conjunction with the present invention Attached drawing in example, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that reality disclosed below Applying example is only a part of the embodiment of the present invention, and not all embodiment.Based on the embodiments of the present invention, this field is common Technical staff's all other embodiment obtained without making creative work belongs to the model that the present invention protects It encloses.

In the description of the present invention, it is to be understood that, when a component is considered as " connection " another component, it can To be directly to another component or may be simultaneously present the component being centrally located.When a component is considered as " setting Set " another component, it, which can be, is set up directly on another component or may be simultaneously present the component being centrally located.

In addition, the indicating positions such as term " length " " short " "inner" "outside" or positional relationship for the orientation that is shown based on attached drawing or Person's positional relationship is merely for convenience of the description present invention, rather than the device or original part of indication or suggestion meaning must have this Specific orientation is operated with specific orientation construction, should not be understood as limitation of the invention with this.

To further illustrate the technical scheme of the present invention below with reference to the accompanying drawings and specific embodiments.

Its Fig. 1 is the structural schematic diagram of the Display support mechanism in embodiment one referring to FIG. 1 to FIG. 4, and Fig. 2 is real The installation diagram of the Display support mechanism in example one is applied, Fig. 3 is the partial enlarged view of the Display support mechanism in embodiment one, Fig. 4 is the cross-sectional view of the sliding rail mould group in embodiment one；

As shown in Figure 1, present embodiments provide a kind of Display support mechanism, including bottom plate 10 and it is connected to bottom plate 10 Bracket 20, bracket 20 is connected with sliding rail mould group 30 far from one end of bottom plate 10, slidably connects in sliding rail mould group 30 for connecting Connect the connection mould group 40 of display；Wherein, bottom plate 10 is basic supporting element, and specific shape and structure can be according to practical application need Depending on asking, bottom plate 10 is used to support entire mechanism, this supporting mechanism is enable to be placed in plane；One end of bracket 20 is fixedly connected In the top surface of bottom plate 10, sliding rail mould group 30 is then arranged in the other end of bracket 20；

Sliding rail mould group 30 includes the guide rail 31 being fixed to each other with bottom plate 10 or bracket 20, and mutually chimeric with guide rail 31 Sliding block 32；Specifically, guide rail 31, which can be, is directly fixedly connected on bottom plate 10, it can also be by way of being connected to bracket 20 It is fixed to each other indirectly with bottom plate 10；

As shown in Figures 2 and 3, connection mould group 40 includes the connection frame 41 being fixed to each other with sliding block 32, and rotation connection In the steering component 42 of connection frame 41, steering component 42 is for connecting display.Specifically, the supporting mechanism in the present embodiment is only It include a sliding rail mould group 30, as long as and display is upper and lower on bracket 20 by connection mould group 40 and the realization of sliding block 32 It is mobile；As it can be seen that the auxiliary member that the sliding rail mould group 30 in the present embodiment does not use ball to slide as sliding block 32, thus the sliding rail mould Furthermore the structure of group 30, which can be designed more slim slim structure, can save material, space, thus have production cost Low advantage.

Fig. 2 and Fig. 4 are please referred to, guide rail 31 includes slide rail body 311, and is symmetrically disposed on slide rail body 311 opposite two Two briquette structures 312 of side；Slide rail body 311 and briquette structure 312 are structure as a whole respectively；

Slide rail body 311 includes substrate 3111, and there are two link blocks towards the connection of the side of briquette structure 312 for substrate 3111 3112, link block 3112 is connected far from the side briquette structure 312 of substrate 3111；Specifically, link block 3112 is by substrate 3111 opposite end is extended to form towards briquette structure 312, which can also put blocky knot with laminated structure Structure primarily serves the effect to form a boss, make between briquette structure 312 and substrate 3111 formed one can accommodate in The accommodating space of slide plate 323；

Briquette structure 312 includes briquetting main body 3121 and the first extension block 3122 being connected with briquetting main body 3121； Specifically, first extension block 3122 can play the role of reinforcement structure to briquetting main body 3121, there is briquette structure 312 More preferably structural strength, and then enhance stability when sliding rail mould group 30 operates；Further, the first extension block 3122 is by briquetting Main body 3121 extends outwardly and is formed by bending, and briquette structure 312 is structure as a whole；Further, 3111, two link blocks of substrate 3112, two briquetting main bodys, 3121, two the first extension blocks 3122, four are collectively formed the semicircular knot with gap Structure is to be reserved with gap between two briquette structures 312 and slide rail body 311, and the gap for sliding block 32 for being slided；

Sliding block 32 is structure as a whole comprising for connect mould group 40 connection connecting component 321, connecting component 321 Opposite sides is connected separately with linking arm 322, and linking arm 322 is respectively connected with interior slide plate 323 far from the side of connecting component 321； Specifically, interior slide plate 323 extends to form outward from linking arm 322 to far from the side of connecting component 321, and interior slide plate 323 with Connecting component 321 is to be arranged in parallel, and linking arm 322 is to be vertically arranged with interior slide plate 323；Further, interior slide plate 323 is embedded in In the gap of guide rail 31, when sliding block 32 is slided by external force relative to guide rail 31, interior slide plate 323 is contacted in guide rail 31 Briquette structure 312 or slide rail body 311；As shown in figure 4, alloing sliding block 32 along guide rail 31 due to embedded design feature It is slided；

As it can be seen that a kind of Display support mechanism is present embodiments provided, in the use of sliding rail mould group 30 in the supporting mechanism Embedding structure design, so that sliding function can be realized without ball auxiliary in sliding block 32, so that sliding rail mould group 30 can have There is more slim design feature, be conducive to the integral thickness for reducing supporting mechanism, material needed for can reducing production reaches energy conservation Emission reduction, the purpose for reducing cost.

Further, Fig. 2 and Fig. 3 are please referred to, connection mould group 40 further includes steering shaft 43, and steering component 42 passes through steering shaft 43 are rotationally connected with connection frame 41；And torsional spring 44 is arranged in steering shaft 43, two opposite force sides of torsional spring 44 respectively and even It connects frame 41 and steering component 42 connects.It is understood that torsional spring 44 is that steering component 42 provides elastic potential energy, when display or Steering component 42 relative to connection frame 41 by external force and when rotating, and torsional spring 44 discharges elastic potential energy for corresponding, to make to prop up Support mechanism is realized to display angle with tune with the function of stopping；Specifically, two torsional springs 44 cover respectively there are two the total settings of torsional spring 44 Set on the opposite end of steering shaft 43.Two torsional springs 44 are symmetrical arranged, can be further improved steady when steering component 42 rotates It is qualitative；

Further, referring to Fig. 3, guide rail 31 is respectively arranged with limiting section in the opposite end of the glide direction of sliding block 32 313, limiting section 313 is extended outwardly by the side of substrate 3111 to be formed by bending.It is understood that the limiting section 313 is for limiting The moving range of sliding block 32 processed, can anti-limited slip block 32 slid from guide rail 31；

Embodiment two

Referring to Fig. 5, this is illustrated as the cross-sectional view of the sliding rail mould group in embodiment two；The present embodiment and embodiment one are not It is with place, the first extension block 3122 of briquette structure 312 can be formed by the way of being different from embodiment one, this implementation The joint face of the first extension block 3122 and briquette structure 312 in example is bigger, which can be and briquetting knot 312 one of structure, which is directly formed, to be obtained.

Embodiment three

Fig. 6 and Fig. 7 are please referred to, wherein Fig. 6 is the installation diagram of the sliding rail mould group in embodiment three, and Fig. 7 is in embodiment three Sliding rail mould group cross-sectional view；Slide rail body 311 includes at least four link blocks 3112, and link block 3112 is divided into two column and sets Substrate 3111 is placed in towards the side of briquette structure 312, and the multiple link blocks 3112 respectively arranged are equally spacedly arranged；Two column connections Block 3112 has been removably installed briquette structure 312 respectively.

Wherein, the first extension block 3122 of briquette structure 312 can be through such as embodiment one, by extending curved side Formula obtains, and is also possible to obtain by integrally formed mode direct in such as embodiment two；It is understood that two briquetting knots Structure 312 and slide rail body 311 are designed using the structure detachably installed, and can reduce the whole assembling difficulty of sliding rail mould group 30, To improving production efficiency, lower production cost.

As shown in fig. 6, sliding rail mould group 30 further includes several fasteners, connector and briquette structure 312 offer with The matched mounting hole of fastener；Fastener penetrates mounting hole, and briquette structure 312 is removably installed on connector.Tool Body, fastener can be screw or bolt etc. using the component being threadedly coupled, and can be further decreased using the design of this structure The whole assembling difficulty of sliding rail mould group 30, so that improving production efficiency, lowers production cost.

Example IV

Referring to Fig. 8, this is illustrated as the cross-sectional view of the sliding rail mould group in example IV；As shown, in the present embodiment Sliding rail mould group 30, sliding block 32 further include two the second extension blocks 324, and two second extension blocks 324 are connected in two sliding Piece 323；Two the second extension blocks 324 are by two interior slide plates 323 in contrast to the side with linking arm 322, to far from linking arm 322 direction, which extends, to be bent, moreover, the second extension block 324 and interior slide plate 323 have mutually formed the first arcuation protrusion 3241, when sliding block 32 is slided relative to guide rail 31, the first arcuation protrusion 3241 is contacted in link block 3112.

Specifically, second extension block 324 be bent towards 3111 direction of substrate, i.e., the second extension block 324 contacts In substrate 3111, interior slide plate 323 is mutually contacted with briquette structure 312；Second extension block 324 can internally slide plate 323 play plus The effect of strong structure makes interior slide plate 323 have more preferably structural strength, and then enhances stability when sliding rail mould group 30 operates.

Embodiment five

Referring to Fig. 9, this is illustrated as the cross-sectional view of the sliding rail mould group in embodiment five；

As shown, the sliding rail mould group 30 in the present embodiment, sliding block 32 further includes two the second extension blocks 324, two Two extension blocks 324 are connected to two interior slide plates 323；Two the second extension blocks 324 be by two interior slide plates 323 in contrast to The side of linking arm 322 extends to the direction far from linking arm 322 and is bent, moreover, the second extension block 324 and interior slide plate 323 have mutually formed the first arcuation protrusion 3241, and when sliding block 32 is slided relative to guide rail 31, the first arcuation protrusion 3241 is contacted In link block 3112.

In the present embodiment sliding rail mould group 30 and example IV maximum the difference is that, this in the present embodiment second extends The direction of block 324 towards briquette structure 312 is bent, i.e. the second extension block 324 is contacted in briquette structure 312, interior slide plate 323 It is mutually contacted with substrate 3111；Second extension block 324 internally can play the role of reinforcement structure by slide plate 323, make interior slide plate 323 With more preferably structural strength, and then enhance stability when sliding rail mould group 30 operates.

Embodiment six

Referring to Fig. 10, this is illustrated as the sectional view of the sliding rail mould group in embodiment six, the present embodiment and above-described embodiment Four, five maximum the difference is that, the second extension block 324 of interior slide plate 323 can be using different from curved in example IV, five Bent mode forms gained, and the joint face of the second extension block 324 and interior slide plate 323 in the present embodiment is bigger, second extension Block 324 can be directly to be formed with interior 323 one of slide plate and obtain, using obtained by this kind of mode, it is possible to reduce curved processing Process, to improve production efficiency.

Embodiment seven

Figure 11 and Figure 12 are please referred to, wherein Figure 11 is the structural schematic diagram of the sliding rail mould group in embodiment seven, and Figure 12 is real Apply the structural schematic diagram of the sliding block in example seven；

In this present embodiment, slide plate 323 is separately connected in the opposite end of the glide direction of sliding block 32 in the one of sliding block 32 There are two third extension blocks 325；Third extension block 325 and interior slide plate 323 have mutually formed the second arcuation protrusion 3251, work as sliding block 32 relative to guide rail 31 slide when, third extension block 325 is contacted in substrate 3111.Specifically, two of an interior slide plate 323 Three extension blocks 325 are formed by bending from the interior slide plate 323 to the extension of the opposite end of 32 glide direction of sliding block；

As shown, the third extension block 325 be bent towards 3111 direction of substrate, i.e., third extension block 325 pushes up It touches in substrate 3111, interior slide plate 323 is mutually contacted with briquette structure 312；Third extension block 325 can be played internally slide plate 323 The effect of reinforcement structure makes interior slide plate 323 have more preferably structural strength, and then enhances stabilization when sliding rail mould group 30 operates Property.

Embodiment eight

Figure 13 is please referred to, this is illustrated as the structural schematic diagram of the sliding block in embodiment eight；

The present embodiment and above-described embodiment seven it is maximum the difference is that, the third extension block 325 of interior slide plate 323 can be adopted Gained is formed with the curved mode in embodiment seven that is different from；The company of third extension block 325 and interior slide plate 323 in the present embodiment Junction is bigger, which can be directly to be formed with 323 one of interior slide plate and obtain, using obtained by this kind of mode, Curved manufacturing procedure can be reduced, to improve production efficiency.

Embodiment nine

Figure 14 is please referred to, this is illustrated as the structural schematic diagram of the supporting mechanism in embodiment nine；

As shown, the maximum of Display support mechanism in the present embodiment and embodiment one the difference is that, this reality Applying the Display support mechanism in example includes there are two sliding rail mould group 30, and two sliding rail mould groups 30 are located at a left side for connection mould group 40 Right two sides, and the sliding block 32 of two sliding rail mould groups 30 is fixedly connected with the left and right sides of connection frame 41 respectively.Specifically, two cunnings The sliding block 32 of rail mould group 30 is oppositely arranged, and guide rail 31 and the bottom plate 10 or bracket 20 of two sliding rail mould groups 30 are fixed to each other.Using Two symmetrically arranged modes of sliding rail mould group 30, can be improved the stability of entire supporting mechanism, it is ensured that display can be opposite In bracket 20 realize it is more stable, swimmingly move up and down.

A kind of Display support mechanism is present embodiments provided, the sliding rail mould group 30 in the supporting mechanism is using embedded knot Structure design so that sliding block 32 without ball auxiliary sliding function can be realized so that sliding rail mould group 30 can have it is more fine Thin design feature, be conducive to reduce supporting mechanism integral thickness, can reduce production needed for material, reach energy-saving and emission-reduction, Reduce the purpose of cost.

The above, the above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although referring to before Stating embodiment, invention is explained in detail, those skilled in the art should understand that: it still can be to preceding Technical solution documented by each embodiment is stated to modify or equivalent replacement of some of the technical features；And these It modifies or replaces, the spirit and scope for technical solution of various embodiments of the present invention that it does not separate the essence of the corresponding technical solution.

Claims (10)

1. a kind of Display support mechanism, which is characterized in that including bottom plate (10) and be connected to the brackets of the bottom plate (10) (20), the bracket (20) is connected with sliding rail mould group (30) far from the one end of the bottom plate (10), on the sliding rail mould group (30) Slidably connect the connection mould group (40) for connecting display；

The sliding rail mould group (30) includes the guide rail (31) being fixed to each other with the bottom plate (10) or bracket (20), and with it is described The mutually chimeric sliding block (32) of guide rail (31)；The guide rail (31) includes slide rail body (311), and is symmetrically disposed on the cunning Two briquette structures (312) of rail main body (311) opposite sides；The slide rail body (311) includes substrate (3111), the base For part (3111) towards the connection of the side of the briquette structure (312) there are two link block (3112), the link block (3112) is remote Briquette structure described in side from the substrate (3111) (312) is connected；The briquette structure (312) includes briquetting main body (3121) and with the briquetting main body (3121) the first extension block (3122) being connected；Two briquette structures (312) and The gap for the sliding block (32) sliding is reserved between slide rail body (311)；

The sliding block (32) includes for the connecting component (321) with connection mould group (40) connection, the connecting component (321) opposite sides is connected separately with linking arm (322), side of the linking arm (322) far from the connecting component (321) It is respectively connected with interior slide plate (323)；The interior slide plate (323) is embedded in gap, when the sliding block (32) is relative to the guide rail (31) when sliding, the interior slide plate (323) contacts the briquette structure (312) or slide rail body (311) in the guide rail (31)；

Connection mould group (40) includes the connection frame (41) being fixed to each other with the sliding block (32), and is rotationally connected with described The steering component (42) of connection frame (41), the steering component (42) is for connecting display.

2. Display support mechanism according to claim 1, which is characterized in that guide rail (31) the Yu Suoshu sliding block (32) The opposite end of glide direction be respectively arranged with limiting section (313), the limiting section (313) is by the one of the substrate (3111) Epitaxial lateral overgrowth, which is stretched, to be formed by bending.

3. Display support mechanism according to claim 1, which is characterized in that the connection mould group (40) further includes turning to Axis (43), the steering component (42) are rotationally connected with the connection frame (41) by the steering shaft (43)；And the steering Be arranged on axis (43) torsional spring (44), two opposite force sides of the torsional spring (44) respectively with the connection frame (41) and turn to Component (42) connection.

4. Display support mechanism according to claim 1, which is characterized in that the slide rail body (311) includes at least Four link blocks (3112), the link block (3112) are divided into two column and are set to the substrate (3111) towards the briquetting The side of structure (312), and the multiple link blocks (3112) respectively arranged are equally spacedly arranged；The two column link blocks (3112) It has been removably installed the briquette structure (312) respectively.

5. Display support mechanism according to claim 4, which is characterized in that the sliding rail mould group (30) further includes several A fastener, the connector and briquette structure (312) offer and the matched mounting hole of the fastener；The fastener The mounting hole is penetrated, and the briquette structure (312) is removably installed on the connector.

6. Display support mechanism according to claim 3, which is characterized in that there are two the torsional spring (44) is arranged altogether, Two torsional springs (44) are sheathed on the opposite end of the steering shaft (43) respectively.

7. Display support mechanism according to claim 1, which is characterized in that the sliding block (32) further includes two second Extension block (324), two second extension blocks (324) are connected to two interior slide plates (323)；Second extension block (324) and the interior slide plate (323) has mutually formed the first arcuation protrusion (3241), when the sliding block (32) is led relative to described When rail (31) slides, first arcuation raised (3241) is contacted in the link block (3112).

8. Display support mechanism according to claim 1, which is characterized in that an interior slide plate (323) is in the cunning The opposite end of the glide direction of block (32) is separately connected there are two third extension block (325)；The third extension block (325) The second arcuation protrusion (3251) is mutually formed with the interior slide plate (323), when the sliding block (32) is relative to the guide rail (31) when sliding, the third extension block (325) is contacted in the substrate (3111).

9. Display support mechanism according to claim 1, which is characterized in that the sliding block (32), slide rail body (311), briquette structure (312) is structure as a whole respectively.

10. Display support mechanism according to claim 1, which is characterized in that the Display support mechanism includes two A sliding rail mould group (30), the two sliding rail mould groups (30) are located at the left and right sides of connection mould group (40), and two institutes The sliding block (32) for stating sliding rail mould group (30) is fixedly connected at left and right sides of the connection frame (41) respectively.