CN112315236A

CN112315236A - Adjusting structure for device bearing area

Info

Publication number: CN112315236A
Application number: CN202011360017.XA
Authority: CN
Inventors: 伍志勇
Original assignee: Guangdong DTC Hardware Precision Manufacturing Co Ltd
Current assignee: Guangdong DTC Hardware Precision Manufacturing Co Ltd
Priority date: 2020-11-27
Filing date: 2020-11-27
Publication date: 2021-02-05

Abstract

An adjusting structure for a device bearing area comprises a left side plate, a right side plate and a sliding rail assembly, wherein the lower parts of the left side plate and the right side plate are respectively provided with a bearing part and a depending part; the side plate can be disassembled on the slide rail component, and the slide rail component leans against the inner side of the depending part when assembled; a bearing device is arranged between the left and right supporting parts and comprises a left base and a right base, the left base and the right base are respectively supported on the left and right supporting parts and/or the left and right sliding rail assemblies, at least three transverse rod telescopic assemblies which are arranged in a front-middle-rear manner are arranged between the left and right bases, and a longitudinal rod is arranged between the front, middle and rear transverse rod telescopic assemblies; the front, middle and rear transverse rod telescopic assemblies and the longitudinal rods form a bearing area capable of accommodating devices and adjusting the longitudinal and/or transverse dimensions when moving; the front cross bar telescopic assembly, the middle cross bar telescopic assembly, the rear cross bar telescopic assembly and/or the longitudinal bar are/is provided with a positioning adjusting part assembly; the component is placed on the receiving area and its lateral positioning acts on the positioning-adjustment-member assembly when placed.

Description

Adjusting structure for device bearing area

Technical Field

The invention relates to an adjusting structure for a device bearing area.

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, and the size of drawer all designs according to the space in the kitchen, and the size of garbage bin is not of uniform size simultaneously, and the drawer size of above-mentioned structure is fixed, can only be used for single size's garbage bin to conceal, and its use limitation is great, and the flexibility is relatively poor, has taken the inside very big space of drawer again after the garbage bin is placed moreover, leads to the inside usable space of drawer to be few, can't satisfy user's user demand. Therefore, further improvements are necessary.

Disclosure of Invention

The invention aims to provide an adjusting structure for a device bearing area, which overcomes the defects that the size of a hollow space in the prior art is fixed, only a device with a single size can be borne, and the utilization rate of the bearing space is low.

A design according to this purpose is used for device to hold regional regulation structure, including the curb plate and the slide rail set spare of controlling setting, its characterized in that: the lower parts of the left and right side plates are respectively provided with a supporting part, and the left and right supporting parts are respectively provided with a relying part; the side plates are detachably arranged on the sliding rail assembly, and when the side plates and the sliding rail assembly are assembled, the sliding rail assembly depends on the inner side of the depending part.

The bearing device is arranged between the left bearing part and the right bearing part and comprises a left base and a right base, wherein the left base and the right base are respectively supported on the left bearing part and the right bearing part and/or the left sliding rail assembly and the right sliding rail assembly, at least three transverse rod telescopic assemblies which are arranged in the front, the middle and the rear are arranged between the left base and the right base, and a longitudinal rod is arranged between the front transverse rod telescopic assemblies, the middle transverse rod telescopic assemblies and the rear.

The front, middle and rear transverse rod telescopic assemblies and the longitudinal rods form at least one placeable device and a bearing area with adjustable longitudinal and/or transverse dimensions when moving.

And the front cross bar telescopic assembly, the middle cross bar telescopic assembly, the rear cross bar telescopic assembly and/or the longitudinal bar are/is provided with positioning adjusting part assemblies.

The device is placed on the receiving area and its lateral positioning acts on the positioning adjustment assembly when placed.

The positioning adjusting component at least comprises a moving part, the moving part is movably arranged on the front cross rod telescopic component, the middle cross rod telescopic component, the rear cross rod telescopic component and/or the longitudinal rod, and the size of the bearing area is finely adjusted during movement.

The movable part is provided with one and is movably arranged on one side of the front cross rod telescopic component, the middle cross rod telescopic component, the rear cross rod telescopic component and/or the longitudinal rod, and the movable part finely adjusts the size of one side of the bearing area during movement.

Or the two moving parts are respectively movably arranged at two sides of the front cross rod telescopic component, the middle cross rod telescopic component, the rear cross rod telescopic component and/or the longitudinal rod, and the sizes of two sides of the bearing area are finely adjusted during movement.

The positioning adjusting component also comprises an adjusting component which is positioned and rotated on the front cross rod telescopic component, and/or the middle cross rod telescopic component, and/or the rear cross rod telescopic component, and/or the longitudinal rod, and is in driving connection with the moving component when rotating; the movable part is driven by the adjusting part to move on the front cross rod telescopic component, the middle cross rod telescopic component, the rear cross rod telescopic component and/or the longitudinal rod in a telescopic mode, and the size of the bearing area is finely adjusted during movement.

The side part of the moving part extends towards the direction of the bearing area and is provided with at least one positioning part, and the moving part finely adjusts the size of the bearing area through the at least one positioning part when moving; when the device is placed in the bearing area, the side part of the device is positioned and acts on at least one positioning part.

The device is placed on the bearing area in a bearing type positioning mode or in a hanging type positioning mode; the positioning adjusting part assembly is arranged on the middle cross rod telescopic assembly.

The front, middle and rear cross rod telescopic assemblies are respectively provided with a positioning piece and are respectively fixed and/or longitudinally movable between the left base and the right base through the positioning pieces.

The front, middle and rear cross rod telescopic assemblies and the longitudinal rods form an up-down interval with the left and right bases through the positioning pieces; when the device is placed in the bearing area, the front side and/or the rear side of the device is positioned and acts on the front cross rod telescopic component, the positioning adjusting component and/or the rear cross rod telescopic component, the outer side of the device is positioned and acts on the longitudinal rod, and two sides of the bottom of the device are respectively positioned and acted on the left base and the right base and/or the left sliding rail component and the right sliding rail component in a bearing mode.

Alternatively, when the device is placed in the bearing area, the front side and/or the rear side of the device is positioned to act on the front cross rod telescopic assembly and/or the positioning adjusting member assembly and/or the rear cross rod telescopic assembly, and the outer side of the device is suspended to act on the longitudinal rod.

Sliding parts are respectively arranged at two ends of the front, middle and rear cross bar telescopic assemblies in a transverse sliding manner; the longitudinal bars are provided with at least two longitudinal bars and transversely slide between the front transverse bar telescopic assemblies, the middle transverse bar telescopic assemblies and the rear transverse bar telescopic assemblies respectively through the sliding parts so as to realize that the transverse size of the bearing area is adjustable.

The middle cross rod telescopic assembly longitudinally slides between the front cross rod telescopic assembly and the rear cross rod telescopic assembly through the matching of the longitudinal rod and the sliding piece, so that the longitudinal size of the bearing area can be adjusted.

The middle cross bar telescopic component comprises a middle movable bar and left and right movable bars; the outer ends of the left and right movable rods are respectively provided with a positioning piece and are respectively supported on the left and right bases through the longitudinal sliding and/or positioning of the positioning piece, and the inner ends of the left and right movable rods are respectively in positioning type sliding sleeve joint with the two ends of the middle movable rod.

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

The inner sides of the left and right bases extend towards the inner sides of the side plates respectively to be provided with base bearing parts; the left and right bases are supported on the left and right supporting parts and the slide rail assembly through the base receiving parts respectively.

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

1. the bearing parts are respectively arranged at the lower parts of the left side plate and the right side plate, and the bearing device consisting of a left base, a right base, a front transverse rod telescopic component, a middle transverse rod telescopic component and a rear transverse rod telescopic component is arranged between the left bearing part and the right bearing part, wherein two ends of the front transverse rod telescopic component, the middle transverse rod telescopic component and the rear transverse rod telescopic component can be fixed and/or longitudinally slide on the left base and the right base, the left base and the right base are respectively supported on the left bearing part, the right bearing part and the left sliding rail component and the right sliding rail component, so that the bearing device can be conveniently, efficiently and flexibly placed between the left side plate and the right side plate, meanwhile, bearing force can be well applied to the left side plate and the right sliding rail component when the bearing device is placed, bearing stability of the bearing device is improved, and.

2. The front, middle and rear transverse rod telescopic assemblies are transversely provided with longitudinal rods, and at least one bearing area capable of adjusting the longitudinal and transverse sizes is formed between the front, middle and rear transverse rod telescopic assemblies during movement, so that a user can adjust the transverse and longitudinal sizes of the bearing area during use, and further devices with different sizes and/or the same size can be randomly positioned and placed on the bearing areas with different sizes, and/or the same size and/or different positions, so that various bearing requirements of various devices are met, the problem that the drawer in the prior art is fixed in size, and only devices with single size can be supported or placed in fixed positions is effectively solved, the bearing flexibility of the devices is improved, the utilization rate of bearing space is improved, and great convenience is provided for the user to support the devices.

3. The front cross rod telescopic assembly, the middle cross rod telescopic assembly, the rear cross rod telescopic assembly and/or the longitudinal rod are/is provided with a positioning adjusting part assembly, the positioning adjusting part assembly not only can finely adjust the size of a bearing area, so as to compensate the virtual position of a device when the device is placed on the bearing area, the bearing flexibility of the device is further improved, but also can position the side part of the device when the device is placed on the bearing area, so that the side part of the device can be effectively supported and positioned after being placed, the phenomenon that the device shakes and displaces due to inertia when the sliding opening and closing of the sliding rail assembly is prevented, and the bearing stability of the device is guaranteed.

4. 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 device can be adjusted, the bearing device can be suitable for drawers with different inner widths to use, and the use flexibility and the application range of the bearing device are improved.

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

Drawings

Fig. 1 is an exploded view of a slide rail assembly, a side plate and a supporting device according to a first embodiment of the invention.

Fig. 2 is a schematic view of an assembly structure of the slide rail assembly, the side plate and the supporting device according to the first embodiment of the invention.

Fig. 3 is a schematic view (partially enlarged) of the assembly structure of the slide rail assembly, the side plate, the supporting device and the device according to the first embodiment of the invention.

Fig. 4 and 5 are schematic diagrams of a carrying device and a device assembling structure according to a first embodiment of the invention.

Fig. 6 is an enlarged schematic diagram at X in fig. 5.

Fig. 7 and 8 are schematic views of an assembly structure of the supporting device according to the first embodiment of the invention.

Fig. 9 and 10 are exploded structural views of the supporting device according to the first embodiment of the present invention.

Fig. 11 is a schematic view of an assembly structure of the positioning adjustment member according to the first embodiment of the present invention.

Fig. 12 and 13 are exploded structural schematic views of a positioning adjustment component according to a first embodiment of the present invention.

Fig. 14 and 15 are schematic views (sectional views) of the positioning adjusting member assembly according to the first embodiment of the present invention.

Fig. 16 and 17 are schematic diagrams of a carrying device and a device assembly structure according to a second embodiment of the invention.

Fig. 18 is an enlarged view of the structure at Y in fig. 17.

Fig. 19 is a schematic view of an assembly structure of a supporting device according to a second embodiment of the present invention.

Fig. 20 is an exploded view of a second embodiment of the supporting device of the present invention.

Fig. 21 is a schematic view of an assembly structure of a positioning adjustment member according to a second embodiment of the present invention.

Fig. 22 and 23 are exploded structural views of a positioning adjustment member assembly according to a second embodiment of the present invention.

Fig. 24 and 25 are schematic views (sectional views) of the positioning adjusting member assembly according to the second embodiment of the present invention.

Detailed Description

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

First embodiment

Referring to fig. 1-15, the adjusting structure for the device bearing area comprises a side plate 1 and a sliding rail assembly 2 which are arranged on the left and right, wherein the lower parts of the left and right side plates 1 are respectively provided with a bearing part 3, and the left and right bearing parts 3 are respectively provided with a depending part 4; the side plate 1 is detachably arranged on the sliding rail component 2, and when the sliding rail component 2 and the sliding rail component 2 are assembled, the sliding rail component is leaned on the inner side of the leaning part 4.

The bearing device is arranged between the left and right supporting parts 3 and comprises a left base 5 and a right base 5, wherein the left and right bases 5 are respectively supported on the left and right supporting parts 3 and/or the left and right sliding rail assemblies 2, at least three transverse rod telescopic assemblies which are arranged in the front, middle and rear directions are arranged between the left and right bases 5, and a longitudinal rod 6 is also arranged between the front, middle and rear transverse rod telescopic assemblies.

The front, middle and rear crossbar extension assemblies, the longitudinal bars 6, when active, form with each other at least one placeable device 7, and a receiving area D of adjustable longitudinal and/or transverse dimensions.

And positioning adjusting part components are arranged on the front cross bar telescopic component A, the middle cross bar telescopic component B, the rear cross bar telescopic component C and/or the longitudinal bar 6.

The component 7 is placed on the receiving area D and its lateral positioning acts on the positioning-adjustment-member assembly when placed.

Specifically, the positioning adjustment component comprises at least a movable component 8, the movable component 8 is movably arranged on the front cross rod telescopic component A, and/or the middle cross rod telescopic component B, and/or the rear cross rod telescopic component C, and/or the longitudinal rod 6, and the size of the bearing area D is finely adjusted when the movable component is moved.

The positioning adjusting component also comprises an adjusting component 9, and the adjusting component 9 is positioned and rotated on the front cross rod telescopic component A, the middle cross rod telescopic component B, the rear cross rod telescopic component C and/or the longitudinal rod 6 and is in driving connection with the moving component 8 when rotating; the movable piece 8 is driven by the adjusting piece 9 to move on the front cross rod telescopic component A, the middle cross rod telescopic component B, the rear cross rod telescopic component C and/or the longitudinal rod 6 in a telescopic mode, and the size of the bearing area D is finely adjusted during movement.

The side part of the moving part 8 extends towards the direction of the bearing area D and is provided with at least one positioning part 10, and the size of the bearing area D is finely adjusted through the at least one positioning part 10 when the moving part 8 moves; when the device 7 is placed in the receiving area D, the side portions thereof are positioned to act on the at least one positioning portion 10.

One or two movable members 8 are provided.

The two movable members 8 are respectively movably arranged at two sides of the front cross rod telescopic assembly A, the middle cross rod telescopic assembly B, the rear cross rod telescopic assembly C and/or the longitudinal rod 6, and the sizes of two sides of the bearing area D are finely adjusted during movement.

Furthermore, the device 7 is placed on the bearing area D in a bearing type positioning mode, and the positioning adjusting part assembly is arranged on the middle cross rod telescopic assembly B.

Furthermore, the front, middle and rear cross bar telescopic assemblies are respectively provided with a positioning piece 11, and are respectively fixed and/or longitudinally movable between the left and right bases 5 through the positioning pieces 11.

The two movable pieces 8 are respectively arranged on the positioning piece 11 of the middle cross bar telescopic component B, the two movable pieces 8 are respectively provided with two positioning parts 10 towards the two sides of the bearing area D, and an up-down interval is formed between the two positioning parts 10; meanwhile, the two movable pieces 8 are also respectively provided with a rack and a convex part.

The adjusting piece 9 is positioned and rotated on the positioning piece 11 of the middle cross bar telescopic component B and is respectively provided with a gear part and an eccentric part, the adjusting piece 9 is in meshed driving connection with the rack of one of the moving pieces 8 through the gear part, and the adjusting piece 9 is in driving connection with the convex part of the other moving piece 8 through the eccentric part.

The adjusting piece 9 drives the left and right positioning parts 10 to telescopically slide on two sides of the positioning part 11 of the middle cross bar telescopic assembly B when rotating, and the two positioning parts 10 finely adjust the sizes of two sides of the bearing area D when telescopically sliding.

The front, middle and rear cross rod telescopic assemblies and the longitudinal rods 6 form an up-down interval with the left and right bases 5 through the positioning pieces 11; when the device 7 is placed in the bearing area D, the front side and/or the rear side of the device is positioned and acted on the front cross rod telescopic component A, the positioning adjusting component and/or the rear cross rod telescopic component C, the outer side of the device is positioned and acted on the longitudinal rod 6, and two sides of the bottom of the device are respectively positioned and acted on the left base 5 and the right base 5 and/or the left sliding rail component 2 and the right sliding rail component 2 in a bearing mode.

Specifically, the inner sides of the left and right bases 5 are respectively provided with base receiving portions 17 extending toward the inner sides of the side plates 1; the left and right bases 5 are supported by the left and right support portions 3 and the rail assembly 2 through the base receiving portions 17, respectively.

As shown in fig. 3, when the device 7 is placed in the placement area D, both sides of the bottom portion thereof directly support and position the device on the base receiving portion 17, and are supported by the left and right support portions 3 and the rail assembly 2 through the base receiving portion 17.

Sliding parts 12 are respectively transversely slid at two ends of the front, middle and rear cross bar telescopic components; the longitudinal bars 6 are provided with at least two and transversely slide between the front cross bar telescopic assemblies, the middle cross bar telescopic assemblies and the rear cross bar telescopic assemblies through the sliding parts 12 respectively so as to realize that the transverse size of the bearing area D is adjustable.

The middle cross rod telescopic component B longitudinally slides between the front cross rod telescopic component A and the rear cross rod telescopic component C through the matching of the longitudinal rod 6 and the sliding part 12, so that the longitudinal size of the bearing area D can be adjusted.

The middle cross bar telescopic component B comprises a middle movable rod 13 and left and right movable rods 14; wherein, the outer ends of the left and right movable rods 14 are respectively provided with a positioning piece 11 and are respectively supported on the left and right bases 5 through the longitudinal sliding and/or positioning of the positioning piece 11, and the inner ends of the left and right movable rods 14 are respectively sleeved with the two ends of the middle movable rod 13 in a positioning type sliding manner.

The front cross rod telescopic component A and the rear cross rod telescopic component C respectively comprise a middle cross rod 15 and left and right side cross rods 16; the outer ends of the left and right lateral cross bars 16 are respectively provided with a positioning piece 11 and are respectively and fixedly supported on the left and right bases 5 through the positioning pieces 11, and the inner ends of the left and right lateral cross bars 16 are respectively in positioning type sliding sleeve joint with the two ends of the middle cross bar 15.

Second embodiment

Referring to fig. 16-25, the present adjustment structure for a device receiving area differs from the first embodiment in that: the middle movable rod 13 of the middle cross rod telescopic component B is provided with a bracket 20.

The two movable pieces 8 are respectively arranged on the bracket 20, and the two movable pieces 8 are respectively provided with a positioning part 10 towards two sides of the bearing area D; meanwhile, the two movable pieces 8 are also respectively provided with a rack and a convex part.

The adjusting piece 9 is positioned and rotated on the bracket 20 and is provided with a gear portion and an eccentric portion respectively, the adjusting piece 9 is in meshed driving connection with the rack of one of the moving pieces 8 through the gear portion, and the adjusting piece 9 is in driving connection with the convex portion of the other moving piece 8 through the eccentric portion.

The adjusting piece 9 drives the left and right positioning parts 10 to slide on two sides of the bracket 20 in a telescopic way when rotating, and the positioning parts 10 finely adjust the sizes of two sides of the bearing area D when sliding in a telescopic way.

The device 7 is placed in suspended position on the receiving area D.

In particular, when the device 7 is placed in the receiving area D, its front and/or rear positioning acts on the front crossbar retraction assembly a, and/or on the positioning adjustment assembly, and/or on the rear crossbar retraction assembly C, and its outer, suspended positioning acts on the longitudinal bar 6.

The other parts not described are the same as those of the first embodiment.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the invention 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 invention as defined by the appended claims and their equivalents.

Claims

1. The utility model provides an adjust structure for device holds puts region, curb plate (1) and slide rail set spare (2) that set up about including, its characterized in that: the lower parts of the left and right side plates (1) are respectively provided with a supporting part (3), and the left and right supporting parts (3) are respectively provided with a leaning part (4); the side plate (1) is detachably arranged on the sliding rail component (2), and when the sliding rail component and the sliding rail component are assembled, the sliding rail component (2) is leaned on the inner side of the leaning part (4);

a bearing device is arranged between the left supporting part and the right supporting part (3), the bearing device comprises a left base (5) and a right base (5), the left base and the right base (5) are respectively supported on the left supporting part and the right supporting part (3) and/or the left sliding rail assembly and the right sliding rail assembly (2), at least three transverse rod telescopic assemblies which are arranged in a front-middle-rear manner are arranged between the left base and the right base, and a longitudinal rod (6) is also arranged between the front transverse rod telescopic assembly, the middle transverse rod telescopic;

the front, middle and rear transverse rod telescopic assemblies and the longitudinal rods (6) form at least one placeable device (7) and a bearing area (D) with adjustable longitudinal and/or transverse dimensions when moving;

the front cross rod telescopic assembly (A), the middle cross rod telescopic assembly (B), the rear cross rod telescopic assembly (C) and/or the longitudinal rod (6) are/is provided with a positioning adjusting part assembly;

the device (7) is placed on the receiving area (D) and its lateral positioning acts on the positioning adjustment assembly during placement.

2. The tuning structure for a device receiving area of claim 1, wherein: the positioning adjusting piece component at least comprises a moving part (8), the moving part (8) is movably arranged on the front cross rod telescopic component (A), the middle cross rod telescopic component (B), the rear cross rod telescopic component (C) and/or the longitudinal rod (6), and the size of the bearing area (D) is finely adjusted during movement.

3. The tuning structure for a device receiving area of claim 2, wherein: one movable part (8) is movably arranged at one side of the front cross rod telescopic component (A), the middle cross rod telescopic component (B), the rear cross rod telescopic component (C) and/or the longitudinal rod (6), and the movable part (8) finely adjusts the size of one side of the bearing area (D) during movement;

or the two moving parts (8) are respectively movably arranged at two sides of the front cross rod telescopic component (A), the middle cross rod telescopic component (B), the rear cross rod telescopic component (C) and/or the longitudinal rod (6), and the sizes of two sides of the bearing area (D) are finely adjusted during movement.

4. The tuning structure for a device receiving area of claim 2, wherein: the positioning adjusting component also comprises an adjusting component (9), and the adjusting component (9) is positioned and rotated on the front cross rod telescopic component (A), the middle cross rod telescopic component (B), the rear cross rod telescopic component (C) and/or the longitudinal rod (6) and is in driving connection with the moving component (8) when rotating; the movable piece (8) is driven by the adjusting piece (9) to move on the front cross rod telescopic component (A), the middle cross rod telescopic component (B), the rear cross rod telescopic component (C) and/or the longitudinal rod (6) in a telescopic mode, and the size of the bearing area (D) is finely adjusted during movement.

5. The tuning structure for a device receiving area of claim 2, wherein: the side part of the moving part (8) extends towards the direction of the bearing area (D) to form at least one positioning part (10), and the moving part (8) finely adjusts the size of the bearing area (D) through the at least one positioning part (10) during moving; when the device (7) is placed in the bearing area (D), the side part of the device is positioned and acts on at least one positioning part (10).

6. The tuning structure for a device receiving area of claim 1, wherein: the device (7) is placed on the bearing area (D) in a bearing type positioning mode or in a suspension type positioning mode; the positioning adjusting part assembly is arranged on the middle cross rod telescopic assembly (B).

7. The tuning structure for a device receiving area of claim 6, wherein: the front, middle and rear cross bar telescopic components are respectively provided with a positioning piece (11) and are respectively fixed and/or longitudinally movable between the left and right bases (5) through the positioning pieces (11);

the front, middle and rear cross rod telescopic assemblies and the longitudinal rods (6) form an up-down interval with the left and right bases (5) through the positioning pieces (11); when the device (7) is placed in the bearing area (D), the front side and/or the rear side of the device is positioned and acted on the front cross rod telescopic component (A), and/or the positioning adjusting component and/or the rear cross rod telescopic component (C), the outer side of the device is positioned and acted on the longitudinal rod (6), and two sides of the bottom of the device are respectively positioned and acted on the left base (5) and the right base (5) and/or the left sliding rail component and the right sliding rail component (2) in a bearing manner;

or when the device (7) is placed in the bearing area (D), the front side and/or the rear side of the device is positioned and acted on the front cross rod telescopic assembly (A) and/or the positioning adjusting member assembly and/or the rear cross rod telescopic assembly (C), and the outer side of the device is suspended and positioned and acted on the longitudinal rod (6).

8. The tuning structure for a device receiving area of claim 1, wherein: sliding parts (12) are respectively and transversely slid at two ends of the front, middle and rear cross bar telescopic components; the longitudinal rods (6) are provided with at least two and transversely slide among the front, middle and rear transverse rod telescopic assemblies through sliding pieces (12) respectively so as to realize that the transverse size of the bearing area (D) can be adjusted;

the middle cross rod telescopic component (B) longitudinally slides between the front cross rod telescopic component (A) and the rear cross rod telescopic component (C) through the matching of the longitudinal rod (6) and the sliding part (12) so as to realize the adjustability of the longitudinal size of the bearing area (D).

9. The tuning structure for a device receiving area of claim 1, wherein: the middle cross bar telescopic component (B) comprises a middle movable bar (13) and left and right movable bars (14); the outer ends of the left and right movable rods (14) are respectively provided with a positioning piece (11) and are respectively supported on the left and right bases (5) through the longitudinal sliding and/or positioning of the positioning pieces (11), and the inner ends of the left and right movable rods (14) are respectively in positioning type sliding sleeve joint with the two ends of the middle movable rod (13);

the front cross rod telescopic component (A) and the rear cross rod telescopic component (C) respectively comprise a middle cross rod (15) and a left side cross rod and a right side cross rod (16); the outer ends of the left and right lateral cross rods (16) are respectively provided with a positioning piece (11) and are respectively fixedly supported on the left and right bases (5) through the positioning pieces (11), and the inner ends of the left and right lateral cross rods (16) are respectively in positioning type sliding sleeve connection with the two ends of the middle cross rod (15).

10. The tuning structure for a device receiving area of claim 1, wherein: the inner sides of the left and right bases (5) extend towards the inner side of the side plate (1) and are respectively provided with a base bearing part (17); the left and right bases (5) are respectively supported on the left and right supporting parts (3) and the slide rail assembly (2) through base bearing parts (17).