CN215324767U - Integrated optimized device bearing structure - Google Patents

Abstract

An integrated optimized device bearing structure comprises a left side plate, a right side plate, a left bearing portion, a right bearing portion, a bearing device and a supporting device, wherein the left side plate and the right side plate are provided with the left bearing portion and the right bearing portion, the bearing device comprises a front, middle and rear cross rod telescopic assembly, a front, middle and rear movable member is respectively and transversely movable on the front, middle and rear cross rod telescopic assembly, an upper connecting rod is detachably arranged at the upper part of the front, middle and rear movable member, a gap portion is respectively arranged at the lower part of the front, middle and rear movable member, and a lower connecting rod is detachably penetrated through the gap portion; the middle cross rod telescopic component and the middle moving part synchronously and longitudinally slide between the front cross rod telescopic component and the rear cross rod telescopic component through the matching of the upper connecting rod and the lower connecting rod; the front, middle and rear cross bar telescopic components and the front, middle and rear movable parts form at least one placeable device and a bearing area capable of adjusting the longitudinal and/or transverse dimensions when moving; the device is placed on the bearing area, the bottom bearing type positioning support of the device is supported on the lower connecting rod, and the side part front and back and/or left and right positioning function is/are realized on the upper connecting rod, and/or the front and back cross rod telescopic assembly and/or the middle cross rod telescopic assembly.

Description

Integrated optimized device bearing structure

Technical Field

The utility model relates to an integrated optimized device bearing structure.

Background

Chinese patent document No. CN111086803A discloses a drawer-type hidden trash can in 5/1/2020, which comprises a trash can, a flat plate, a drawer guide rail and a connecting device, wherein the connecting device is either an L-shaped corner brace or a batten. The structure is characterized in that the garbage can, the flat plate and the drawer guide rail are combined into a whole, and the garbage can is hidden in an empty space below a bottom plate of the furniture and is pulled out when in use, so that two defects of stumbling and unsightly of the garbage can placed in a room to people are eliminated; however, the space in the kitchen is not of uniform size, the size of drawer all designs according to the space in the kitchen, the size of garbage bin is not of uniform size simultaneously, the drawer size of above-mentioned structure is fixed, can only be used for single size garbage bin to conceal, its use limitation is great, simultaneously the garbage bin is fixed a position at the flat board through the extension limit of top lateral part when placing, not only the flexibility is relatively poor, and the garbage bin can all be used in the extension limit of portion above that when atress, lead to extending the limit fracture damage, still can appear the problem of dropping when serious, influence the stability of holding of garbage bin, and the inside very big space of drawer has been taken again after the garbage bin is placed, lead to the inside usable space of drawer extremely few, can't satisfy user's user demand. Therefore, further improvements are necessary.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an integrated and optimized device bearing structure, which overcomes the defects that in the prior art, a drawer is fixed in size, only a device with a single size can be borne, the space utilization rate is low, and meanwhile, the vessel bearing stability is poor.

The device bearing structure designed according to the purpose comprises a left side plate and a right side plate, and is characterized in that: the lower parts of the left side plate and the right side plate are respectively provided with a left supporting part and a right supporting part, a bearing device is arranged between the left supporting part and the right supporting part, and the bearing device comprises at least three front, middle and rear cross rod telescopic assemblies which are arranged in a front, middle and rear manner and can be transversely positioned and moved.

The front and rear cross rod telescopic assemblies are respectively provided with a front movable piece and a rear movable piece in a transverse moving mode, the middle cross rod telescopic assembly is provided with a middle movable piece in a transverse moving mode, the upper portions of the front, middle and rear movable pieces are detachably provided with upper connecting rods, the lower portions of the front, middle and rear movable pieces are respectively provided with a notch portion, and a lower connecting rod is detachably arranged through the notch portions in a penetrating mode.

The middle cross rod telescopic component and the middle moving part synchronously and longitudinally slide between the front cross rod telescopic component and the rear cross rod telescopic component through the matching of the upper connecting rod and the lower connecting rod.

The front, middle and rear cross bar telescopic assembly and the front, middle and rear movable pieces form at least one placeable device and a bearing area with adjustable longitudinal and/or transverse dimensions when moving.

The device is placed on the bearing area, the bottom of the device is supported on the lower connecting rod in a bearing type positioning mode, and the side parts of the device are positioned front and back and/or left and right to act on the upper connecting rod and/or the front and back cross rod telescopic assembly and/or the middle cross rod telescopic assembly.

The lower parts of the front and rear movable pieces are respectively provided with a front gap part and a rear gap part, and the lower part of the middle movable piece is provided with a middle gap part; the lower connecting rod longitudinally penetrates through the lower parts of the front, middle and rear movable pieces in a detachable and detachable mode through the matching of the front, middle and rear notch parts.

The front and the rear notch parts and the middle notch part are longitudinally arranged correspondingly.

A front bearing part and a rear bearing part are respectively arranged below the front gap part and the rear gap part, and a middle bearing part is arranged below the middle moving part; the lower connecting rod longitudinally penetrates through the front, middle and rear movable pieces and then is vertically placed on the front, middle and rear bearing parts.

The outer sides of the front and rear bearing parts are respectively provided with a lower front and rear limiting part; when the lower connecting rod is vertically placed on the front, middle and rear bearing parts, the front end and the rear end of the lower connecting rod respectively limit the position of the lower connecting rod on the lower front and rear limiting parts.

The upper parts of the front and rear movable pieces are respectively provided with a front clamping part and a rear clamping part, and the upper part of the middle movable piece is provided with a middle clamping part; the front clamping part and the rear clamping part are longitudinally arranged correspondingly to the middle clamping part; the outer sides of the front and rear clamping parts are respectively provided with an upper front and rear limiting part; the upper connecting rod is detachably and longitudinally clamped on the front, middle and rear clamping parts, the front end and the rear end of the upper connecting rod are respectively limited on the upper front limiting part and the rear limiting part, and an upper space and a lower space are formed between the upper connecting rod and the lower connecting rod.

At least two side positioning parts are respectively arranged at the upper and lower positions of the front side, the rear side and/or the outer side of the front and rear movable pieces at intervals; and at least two middle positioning parts are respectively arranged at the upper and lower positions of the front side, the rear side and/or the outer side of the middle moving part at intervals, and the at least two middle positioning parts synchronously and longitudinally slide along with the middle moving part.

When the device is placed in the bearing area, the bottom of the device is supported on the lower connecting rod in a bearing type positioning mode, the upper position and the lower position of the front side part and the lower position of the rear side part are respectively positioned and acted on the at least two side positioning parts and/or the at least two middle positioning parts in a front-back mode, and the left side part and the right side part are respectively positioned and acted on the upper connecting rod in a left-right mode, and/or the at least two side positioning parts and/or the at least two middle positioning parts in a left-right mode.

And a middle positioning piece is arranged on the middle cross bar telescopic component.

The middle cross bar telescopic component, the middle positioning piece and the middle moving piece synchronously and longitudinally slide between the front cross bar telescopic component and the rear cross bar telescopic component through the matching of the upper connecting rod and the lower connecting rod, and are positioned and supported on the left supporting part and the right supporting part through the middle positioning piece and/or the middle moving piece at least when stressed, so that the longitudinal size of the bearing area is positioned and/or adjusted.

The front, middle and rear movable pieces transversely slide on the front, middle and rear cross rod telescopic assemblies and drive the upper connecting rod, the lower connecting rod, the at least two side positioning parts and the at least two middle positioning parts to synchronously transversely slide on the front, middle and rear cross rod telescopic assemblies when transversely sliding so as to adjust the transverse size of the bearing area.

The front and rear cross rod telescopic assemblies respectively comprise a middle cross rod and side cross rods arranged on the left and right sides; the outer ends of the left and right cross rods are respectively provided with a side positioning piece and are respectively fixedly supported on the left and right supporting parts through the side positioning pieces, and the inner ends of the left and right cross rods are respectively in positioning type sliding sleeve joint with the two ends of the middle cross rod.

The middle cross rod telescopic assembly comprises a middle movable rod and side movable rods arranged on the left and right; the outer ends of the left and right movable rods are respectively provided with a middle positioning piece and are respectively supported on the left and right supporting parts through the middle positioning piece in a longitudinal sliding and/or positioning way, and the inner ends of the left and right movable rods are respectively sleeved with the two ends of the middle movable rod in a positioning way in a sliding way.

The structure also comprises a sliding rail component; the lower parts of the left and right supporting parts are respectively provided with a depending part; the left side plate and the right side plate are detachably arranged on the sliding rail assembly, and the sliding rail assembly depends on the inner side of the depending part when the sliding rail assembly and the sliding rail assembly are assembled.

The left and right supporting parts are respectively provided with a left base and a right base, and the left base and the right base are respectively supported on the left and right supporting parts and the sliding rail assembly; the left and right lateral cross rods are respectively and fixedly supported on the left and right bases through lateral positioning pieces; the left and right movable rods are respectively supported on the left and right bases through the middle positioning piece in a longitudinally sliding and/or positioning manner.

After being positioned, the device is positioned and acted on the left base and the right base through the side positioning piece, the middle positioning piece and/or the front movable piece and/or the back movable piece and/or the middle movable piece, and then is supported on the left supporting part, the right supporting part and the sliding rail assembly through the left base and the right base.

Through the improvement of the structure, compared with the prior art, the utility model has the following advantages:

1. the left and right supporting parts are respectively arranged at the lower parts of the left and right side plates, a left base and a right base are placed between the left and right supporting parts, at least three front, middle and rear cross rod telescopic assemblies are arranged on the left and right bases, positioning parts are respectively arranged at two ends of the front, middle and rear cross rod telescopic assemblies and are respectively positioned and/or longitudinally slide on the left and right bases, the left and right bases are respectively supported on the left and right supporting parts and the left and right slide rail assemblies, so that the bearing and placing device can be conveniently, efficiently and flexibly placed between the left and right side plates, meanwhile, the bearing and placing device can well apply bearing and placing force to the left and right side plates and the left and right slide rail assemblies when bearing and placing devices, bearing and placing stability of the bearing and placing device is improved, and users can also freely detach or place the bearing and placing device according to actual use requirements, and use experience of users is improved.

2. The front, middle and rear cross bar telescopic components are respectively provided with a movable part which moves transversely, the upper and lower positions of the movable part are respectively provided with an upper connecting rod and a lower connecting rod, wherein the front, middle and rear cross bar telescopic components and the movable part mutually form at least one bearing area with adjustable longitudinal and transverse dimensions when in movement, so that a user can adjust the transverse and longitudinal dimensions of the bearing area when in use, thereby enabling devices with different sizes and/or the same size to be randomly positioned and placed on the placing areas with different sizes and/or the same size and/or different positions so as to meet various placing requirements of various devices, thereby effectively avoiding the problems that the drawer in the prior art has fixed size and can only carry or fix the carrying position of a device with single size, the flexibility of bearing and placing the device is improved, and great convenience is provided for bearing and placing the device by a user.

3. When the device is placed in the bearing area, the upper and lower positions of the front and rear side parts of the device are respectively positioned front and back and act on at least two side positioning parts of the front and rear moving parts and/or at least two middle positioning parts of the middle moving part, and the left and right side parts of the device are respectively positioned left and right and act on the upper connecting rod and/or at least two side positioning parts and/or at least two middle positioning parts, so that effective supporting and positioning are provided for the outer side parts of the device, and the phenomenon of side tilting during working is prevented. The device bottom is then bearing formula location supporting under on the connecting rod, because the device has adopted the reason that bearing formula location was held, consequently it can be with all strength effects about the base when the atress, about the bearing and about on the slide rail set spare to carry out effectual bearing to the device and place, not only can improve the bearing capacity of device, still avoid it to appear the problem that the fracture damaged or dropped at the during operation, in order to guarantee the stability is put in holding of device.

4. The upper connecting rod is detachably connected in a clamping mode, the lower connecting rod is detachably connected in a longitudinal penetrating mode and a self-weight reusing mode, the dismounting process of the upper connecting rod and the dismounting process of the lower connecting rod are effectively simplified, and meanwhile, the daily dismounting and the maintenance of the upper connecting rod and the lower connecting rod can be facilitated for users.

5. The two ends of the front and rear cross rod telescopic assemblies are fixedly connected with the left and right bases respectively, and the front and rear cross rod telescopic assemblies can slide transversely, so that the transverse size of the whole bearing and placing device can be adjusted, the bearing and placing device can be suitable for drawers with different inner widths to use, and the use flexibility and the application range of the bearing and placing device are improved.

6. Well horizontal pole subassembly that stretches out and draws back can longitudinal sliding between the subassembly that stretches out and draws back in the front and back horizontal pole, not only makes the device of putting that can adapt to the different degree of depth place, can also carry out longitudinal sliding to the flexible subassembly of centering horizontal pole when a plurality of devices dismouting simultaneously to the position of transferring out supplies all the other devices to carry out the dismouting, convenience of customers' use.

Comprehensively, it has simple structure reasonable, and the assembly is swift, convenient, low in manufacturing cost, and the device is put characteristics such as disguise good, stability is good, and application range is wide, the flexibility height, and the practicality is strong.

Drawings

Fig. 1 and fig. 2 are schematic views of an assembly structure of a side plate, a slide rail assembly, a bearing device and a device according to an embodiment of the utility model.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic view of an assembly structure of a device and a supporting device according to an embodiment of the present invention.

Fig. 5 and 6 are schematic cross-sectional views illustrating positioning and placing of a device according to an embodiment of the present invention.

Fig. 7 is a schematic view of an assembly structure of a supporting device according to an embodiment of the present invention.

Fig. 8 is an exploded view of a supporting device according to an embodiment of the present invention.

Fig. 9 is an exploded view of the front, middle, rear cross bar telescoping assembly and the front, middle, rear movable member according to an embodiment of the present invention.

Fig. 10 and 11 are schematic structural views of a front movable member and a rear movable member according to an embodiment of the present invention.

Fig. 12 and 13 are schematic structural views of a middle movable member according to an embodiment of the present invention.

Detailed Description

The utility model is further described with reference to the following figures and examples.

Referring to fig. 1-13, the integrated optimized device bearing structure comprises a left side plate 1 and a right side plate 1, wherein a left supporting part 2 and a right supporting part 2 are respectively arranged at the lower parts of the left side plate 1 and the right side plate 1, a bearing device is arranged between the left supporting part 2 and the right supporting part, and the bearing device comprises at least three front, middle and rear cross rod telescopic assemblies which are arranged in a front-middle-rear manner and can be transversely positioned and moved.

The front and rear cross rod telescopic assemblies X are respectively provided with a front movable piece 3 and a rear movable piece 3 in a transverse movable manner, the middle cross rod telescopic assembly Y is provided with a middle movable piece 4 in a transverse movable manner, wherein the upper parts of the front, middle and rear movable pieces are detachably provided with an upper connecting rod 5, the lower parts of the front, middle and rear movable pieces are respectively provided with a notch part, and a lower connecting rod 6 is detachably arranged through the notch part in a penetrating manner.

The middle cross rod telescopic component Y and the middle movable part 4 synchronously and longitudinally slide between the front cross rod telescopic component X and the rear cross rod telescopic component X through the matching of the upper connecting rod and the lower connecting rod.

The front, middle and rear cross bar telescopic components and the front, middle and rear movable parts form at least one placeable device Z and a bearing area with adjustable longitudinal and/or transverse dimensions when moving.

The device Z is placed on the bearing area, the bottom bearing type positioning support of the device Z is supported on the lower connecting rod 6, and the side front-back and/or left-right positioning function is acted on the upper connecting rod 5, and/or the front-back cross rod telescopic assembly X and/or the middle cross rod telescopic assembly Y.

Specifically, the lower parts of the front and rear movable pieces 3 are respectively provided with a front and rear notch part 7, and the lower part of the middle movable piece 4 is provided with a middle notch part 8; the lower connecting rod 6 can be longitudinally penetrated through the lower parts of the front, middle and rear movable pieces in a detachable and detachable way through the matching of the front, middle and rear gap parts.

The front and rear cutout portions 7 and the middle cutout portion 8 are disposed to correspond to each other in the longitudinal direction.

A front supporting part and a rear supporting part 9 are respectively arranged below the front gap part and the rear gap part 7, and a middle supporting part 10 is arranged below the middle movable part 4; the lower connecting rod 6 longitudinally penetrates through the front, middle and rear movable pieces and then is vertically placed on the front, middle and rear bearing parts.

The outer sides of the front and rear bearing parts 9 are respectively provided with a lower front and rear limiting part 11; when the lower connecting rod 6 is vertically placed on the front, middle and rear bearing parts, the front end and the rear end of the lower connecting rod respectively limit the position of the lower front and rear limiting parts 11.

More specifically, the upper parts of the front and rear movable members 3 are respectively provided with a front and rear clamping part 12, and the upper part of the middle movable member 4 is provided with a middle clamping part 13; the front clamping part 12 and the rear clamping part 13 are longitudinally arranged correspondingly to each other; the outer sides of the front and rear clamping parts 12 are respectively provided with an upper front and rear limiting part 30; the upper connecting rod 5 is detachably and longitudinally clamped on the front, middle and rear clamping parts, the front end and the rear end of the upper connecting rod are respectively limited on the upper front limiting part 30 and the rear limiting part 30, and an upper space and a lower space are formed between the upper connecting rod 5 and the lower connecting rod 6.

At least two side positioning parts 14 are respectively arranged at the upper and lower positions of the front side, the rear side and/or the outer side of the front and rear movable pieces 3 at intervals; the front side, the rear side and/or the outer side of the middle moving part 4 are respectively provided with at least two middle positioning parts 15 at intervals, and the at least two middle positioning parts 15 synchronously and longitudinally slide along with the middle moving part 4.

When the device Z is placed in the placement area, the bottom of the device Z is supported on the lower link 6 in a bearing type positioning manner, the upper and lower positions of the front and rear side parts respectively act on the at least two side positioning parts 14 and/or the at least two middle positioning parts 15 in a front and rear positioning manner, and the left and right side parts respectively act on the upper link 5 in a left and right positioning manner and/or act on the at least two side positioning parts 14 and/or the at least two middle positioning parts 15 in a left and right positioning manner.

Further, a middle positioning piece 16 is arranged on the middle cross bar telescopic assembly Y.

The middle cross bar telescopic component Y, the middle positioning piece 16 and the middle movable piece 4 synchronously slide longitudinally between the front cross bar telescopic component X and the rear cross bar telescopic component X through the matching of the upper connecting rod and the lower connecting rod, and are positioned and supported on the left supporting part 2 and the right supporting part 2 through the middle positioning piece 16 and/or the middle movable piece 4 at least when stressed, so as to position and/or adjust the longitudinal size of the bearing area.

The front, middle and rear movable members transversely slide on the front, middle and rear cross bar telescopic assemblies and drive the upper connecting rod 5, the lower connecting rod 6, the at least two side positioning parts 14 and the at least two middle positioning parts 15 to synchronously transversely slide on the front, middle and rear cross bar telescopic assemblies when transversely sliding so as to adjust the transverse size of the bearing area.

The front and rear cross bar telescopic assemblies X respectively comprise a middle cross bar 17 and side cross bars 18 arranged left and right; the outer ends of the left and right cross rods 18 are respectively provided with a side positioning piece 19 and are respectively fixedly supported on the left and right supporting parts 2 through the side positioning pieces 19, and the inner ends of the left and right cross rods 18 are respectively in positioning type sliding sleeve joint with the two ends of the middle cross rod 17.

The middle cross bar telescopic component Y comprises a middle movable bar 20 and side movable bars 21 arranged at the left and the right; the outer ends of the left and right movable rods 21 are respectively provided with a middle positioning piece 16, and are respectively supported on the left and right supporting parts 2 through the middle positioning piece 16 in a longitudinal sliding and/or positioning way, and the inner ends of the left and right movable rods 21 are respectively sleeved with the two ends of the middle movable rod 20 in a positioning way in a sliding way.

The structure further includes a slide rail assembly 22; the lower parts of the left and right supporting parts 2 are respectively provided with a depending part 23; the left side plate 1 and the right side plate 1 are detachably arranged on the slide rail assembly 22, and when the slide rail assembly 22 and the slide rail assembly 22 are assembled, the slide rail assembly 22 is leaned on the inner side of the leaning part 23.

The left and right supporting parts 2 are respectively provided with a left and right base 24, and the left and right bases 24 are respectively supported on the left and right supporting parts 2 and the slide rail assembly 22; the left and right cross bars 18 are respectively and fixedly supported on left and right bases 24 through side positioning pieces 19; the left and right movable rods 21 are supported on the left and right bases 24 by the middle positioning member 16 in a longitudinally sliding and/or positioning manner, respectively.

After positioning, the device Z is positioned by the side positioning members 19, and/or the middle positioning member 16, and/or the front and rear movable members 3, and/or the middle movable member 4 to act on the left and right bases 24, and is supported by the left and right supports 2 and the slide rail assembly 22 through the left and right bases 24.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the utility model are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the present invention, but various changes and modifications may be made without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (9)

1. The utility model provides an integrated optimized device holds puts structure, includes left and right sides curb plate (1), its characterized in that: the lower parts of the left side plate and the right side plate (1) are respectively provided with a left supporting part and a right supporting part (2), a bearing device is arranged between the left supporting part and the right supporting part (2), and the bearing device comprises at least three front, middle and rear cross rod telescopic assemblies which are arranged in a front-middle-rear manner and can be transversely positioned and moved;

the front and rear cross bar telescopic assemblies (X) are respectively provided with a front and rear moving part (3) in a transverse moving way, the middle cross bar telescopic assembly (Y) is provided with a middle moving part (4) in a transverse moving way, wherein the upper parts of the front, middle and rear moving parts are respectively provided with an upper connecting rod (5) in a detachable way, the lower parts of the front, middle and rear moving parts are respectively provided with a gap part, and a lower connecting rod (6) is arranged in a detachable and penetrating way through the gap parts;

the middle cross rod telescopic component (Y) and the middle moving part (4) synchronously and longitudinally slide between the front cross rod telescopic component (X) and the rear cross rod telescopic component (X) through the matching of the upper connecting rod and the lower connecting rod;

the front, middle and rear cross bar telescopic assembly and the front, middle and rear movable parts form at least one placeable device (Z) and a bearing area with adjustable longitudinal and/or transverse dimensions when moving;

the device (Z) is placed on a bearing area, the bottom of the device is positioned and supported on a lower connecting rod (6), and the front and back and/or left and right positioning of the side part acts on an upper connecting rod (5), and/or a front and back transverse rod telescopic assembly (X) and/or a middle transverse rod telescopic assembly (Y);

the lower parts of the front and rear moving pieces (3) are respectively provided with a front and rear gap part (7), and the lower part of the middle moving piece (4) is provided with a middle gap part (8); the lower connecting rod (6) can be longitudinally penetrated through the lower parts of the front, middle and rear movable pieces in a detachable and detachable mode through the matching of the front, middle and rear gap parts.

2. The integrated optimized device bearing structure according to claim 1, wherein: the front and the rear notch parts (7) and the middle notch part (8) are longitudinally arranged correspondingly.

3. The integrated optimized device bearing structure according to claim 1, wherein: a front supporting part and a rear supporting part (9) are respectively arranged below the front gap part and the rear gap part (7), and a middle supporting part (10) is arranged below the middle moving part (4); the lower connecting rod (6) longitudinally penetrates through the front, middle and rear movable pieces and then is vertically placed on the front, middle and rear bearing parts.

4. The integrated optimized device bearing structure according to claim 3, wherein: the outer sides of the front and rear bearing parts (9) are respectively provided with a lower front and rear limiting part (11); when the lower connecting rod (6) is vertically placed on the front, middle and rear bearing parts, the front end and the rear end of the lower connecting rod respectively limit the position of the lower front and rear limiting parts (11).

5. The integrated optimized device bearing structure according to claim 1, wherein: the upper parts of the front and rear moving parts (3) are respectively provided with a front and rear clamping part (12), and the upper part of the middle moving part (4) is provided with a middle clamping part (13); the front clamping part and the rear clamping part (12) and the middle clamping part (13) are longitudinally arranged correspondingly; the outer sides of the front and rear clamping parts (12) are respectively provided with a front and rear limiting part (30); the upper connecting rod (5) is detachably and longitudinally clamped on the front, middle and rear clamping parts, the front end and the rear end of the upper connecting rod are respectively limited on the upper front limiting part and the rear limiting part (30), and an upper space and a lower space are formed between the upper connecting rod (5) and the lower connecting rod (6).

6. The integrated optimized device bearing structure of claim 5, wherein: at least two side positioning parts (14) are respectively arranged at the upper and lower positions of the front side, the rear side and/or the outer side of the front and rear movable pieces (3) at intervals; at least two middle positioning parts (15) are respectively arranged at the upper and lower positions of the front side, the rear side and/or the outer side of the middle moving part (4) at intervals, and the at least two middle positioning parts (15) synchronously and longitudinally slide along with the middle moving part (4);

when the device (Z) is placed in the bearing area, the bottom of the device is supported on the lower connecting rod (6) in a bearing type positioning mode, the upper positions and the lower positions of the front side part and the rear side part are respectively positioned on the at least two side positioning parts (14) and/or the at least two middle positioning parts (15) in the front-back mode, and the left side part and the right side part are respectively positioned on the upper connecting rod (5) in the left-right mode, and/or the at least two side positioning parts (14) and/or the at least two middle positioning parts (15) in the left-right mode.

7. The integrated optimized device bearing structure of claim 6, wherein: a middle positioning piece (16) is arranged on the middle cross bar telescopic component (Y);

the middle cross bar telescopic component (Y), the middle positioning piece (16) and the middle moving piece (4) synchronously and longitudinally slide between the front cross bar telescopic component (X) and the rear cross bar telescopic component (X) through the matching of the upper connecting rod and the lower connecting rod, and are positioned and supported on the left supporting part and the right supporting part (2) through the middle positioning piece (16) and/or the middle moving piece (4) at least when stressed, so as to position and/or adjust the longitudinal size of the bearing area;

the front, middle and rear movable pieces transversely slide on the front, middle and rear cross rod telescopic assemblies and drive the upper connecting rod (5), the lower connecting rod (6), the at least two side positioning parts (14) and the at least two middle positioning parts (15) to synchronously transversely slide on the front, middle and rear cross rod telescopic assemblies when transversely sliding so as to adjust the transverse size of the bearing area.

8. The integrated optimized device bearing structure according to any one of claims 1-7, wherein: the front and rear cross bar telescopic assemblies (X) respectively comprise a middle cross bar (17) and side cross bars (18) arranged on the left and right; the outer ends of the left and right lateral cross rods (18) are respectively provided with lateral positioning pieces (19) and are respectively fixedly supported on the left and right supporting parts (2) through the lateral positioning pieces (19), and the inner ends of the left and right lateral cross rods (18) are respectively in positioning type sliding sleeve joint with the two ends of the middle cross rod (17);

the middle cross bar telescopic component (Y) comprises a middle movable bar (20) and side movable bars (21) arranged on the left and right; the outer ends of the left and right movable rods (21) are respectively provided with a middle positioning piece (16) and are respectively supported on the left and right supporting parts (2) through the middle positioning piece (16) in a longitudinal sliding and/or positioning way, and the inner ends of the left and right movable rods (21) are respectively sleeved with the two ends of the middle movable rod (20) in a positioning way in a sliding way.

9. The integrated optimized device containment structure of claim 8, wherein: further comprising a slide rail assembly (22); the lower parts of the left and right supporting parts (2) are respectively provided with a depending part (23); the left side plate and the right side plate (1) are detachably arranged on the sliding rail assembly (22), and when the sliding rail assembly and the sliding rail assembly are assembled, the sliding rail assembly (22) is leaned on the inner side of the leaning part (23);

the left and right supporting parts (2) are respectively provided with a left base (24) and a right base (24), and the left and right bases (24) are respectively supported on the left and right supporting parts (2) and the sliding rail assembly (22); the left and right lateral cross bars (18) are respectively and fixedly supported on the left and right bases (24) through lateral positioning pieces (19); the left and right movable rods (21) are respectively supported on the left and right bases (24) through the middle positioning piece (16) in a longitudinally sliding and/or positioning way;

after the device (Z) is positioned, the device is positioned and acted on the left base (24) and the right base (24) through the side positioning piece (19), and/or the middle positioning piece (16), and/or the front movable piece (3), and/or the middle movable piece (4), and then the device is supported on the left supporting part (2) and the right supporting part (22) through the left base (24) and the right base (24).

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