CN112006426A

CN112006426A - Hidden linkage desk

Info

Publication number: CN112006426A
Application number: CN202010923769.6A
Authority: CN
Inventors: 杨辉; 杨明明; 赵巢阳; 黄鲁卿; 韩宇钧; 孙杰
Original assignee: Changzhou Institute of Technology
Current assignee: Changzhou Institute of Technology
Priority date: 2020-09-04
Filing date: 2020-09-04
Publication date: 2020-12-01
Anticipated expiration: 2040-09-04
Also published as: CN112006426B

Abstract

The invention discloses a hidden linkage office table, which comprises a rack, a working table top and a hidden working table top hidden in the rack, wherein a liftable middle-layer frame is arranged between a top-layer frame and a bottom-layer frame of the rack, and a left middle sliding plate and a right middle sliding plate are slidably arranged between a left middle edge beam and a right middle edge beam in the middle-layer frame; a lifting driving mechanism is arranged between the middle layer frame and the bottom layer frame; the working table top is divided into a left half working table top and a right half working table top, and the left half working table top and the right half working table top are both connected with the middle layer frame through the left-right swinging assembly; the hidden working table surface is connected with the middle layer frame through a shear type lifting mechanism; the left middle sliding plate and the right middle sliding plate drive two groups of left-right swinging assemblies and the shear type lifting mechanism to work together through the linkage mechanism. The invention has simple structure, convenient connection, stable placement, compact structure, full utilization of idle space and small occupied space, and can be simultaneously suitable for standing and sitting work.

Description

Hidden linkage desk

Technical Field

The invention relates to an office table, in particular to a hidden linkage office table.

Background

At present, computers play a very important role in the life of people. Because the height of the computer can not be adjusted after the computer is placed on an office table, when people sit and use the computer, the sub-health of the wrist, the arm, the shoulder, the lumbar and the like of a user can be caused, and fatigue or injury can also be caused.

In order to solve the above problems, there is a need for a desk that is adjustable in height and even capable of allowing an operator to work while standing. The improvement of the current market on the office table, namely, the area for placing the computer in the office table is designed to be lifted, and through retrieval, a technical scheme for improving the defects is disclosed, for example, a Chinese patent No. 2015200423133, the granted announcement date is 2015, 7 and 29 days, the invention creates a name: over-and-under type computer desk, this application relates to an over-and-under type computer desk, including elevating gear, elevating gear sets up in desktop rear end below, and elevating gear includes lift base, lift hydraulic cylinder and lift bracket, and the lifter of lift bracket below passes lift base opening and lift hydraulic cylinder's hydraulic stem fixed connection, and the lift bracket top is fixed with the display layer board parallel with the desktop, and the desktop is the fretwork form with the corresponding position of display layer board, makes the display layer board go up and down from the desktop. The height of the part for placing the computer display can be adjusted according to the needs of a user, so that the user can avoid head lowering work, the health condition of the body cannot be influenced due to head lowering work and sedentary immobility in work, but the lifting device only considers the adjustment in office sitting and neglects the influence on the health of the user due to long-time office sitting;

or the desk is designed to be liftable, and through retrieval, an improved technical scheme aiming at the defects is disclosed, for example, the Chinese patent number ZL2017109549855, the publication date is 2020, 1 and 3 days, and the name of the invention creation is as follows: the utility model provides a liftable desk, this application relates to a liftable desk, including table, display bracket, locking mechanism and alternately elevating system, display bracket sliding connection is in the front side of table, and locking mechanism is connected with the alternately elevating system who locates the table bottom, realizes the table lift and stably is fixed in not co-altitude through adjusting locking mechanism. The lifting of the table plate in the application is controlled by the cross lifting mechanism, although the lifting range of the cross lifting mechanism is large, the cross lifting mechanism can be used for standing and sitting at the same time, but in practical use, the table plate is easy to be knocked down due to 'heavy head and light feet' after being lifted to a certain height, and the placement stability is poor;

or place liftable ground desk on the desk, like this though can satisfy can stand the official working also can sit the mesh of official working, but the time of work of standing after all occupies the proportion in whole office time little, therefore the desk accomodates at ordinary times and is a problem.

Disclosure of Invention

1. Technical problem to be solved by the invention

The invention aims to provide a hidden linkage office table, and by adopting the technical scheme of the invention, the hidden linkage office table is simple in structure, convenient to connect, stable to place, compact in structure, capable of being simultaneously suitable for standing and sitting work, fully utilizes idle space and occupies small space.

2. Technical scheme

In order to achieve the purpose, the technical scheme provided by the invention is as follows:

the invention discloses a hidden linkage office table which comprises a rack, a working table top and a hidden working table top hidden in the rack, wherein a liftable middle-layer frame is arranged between a top-layer frame and a bottom-layer frame of the rack, a left middle sliding plate and a right middle sliding plate are arranged between a left middle edge beam and a right middle edge beam in the middle-layer frame, third guide sleeves on the front end and the rear end of the left middle sliding plate are respectively sleeved on two third guide rods, and the left end and the right end of each of the two third guide rods are respectively supported on the left middle edge beam and the left middle cross beam; the fourth guide sleeves on the front end and the rear end of the right middle sliding plate are respectively sleeved on the two fifth guide rods, and the left end and the right end of each of the two fifth guide rods are respectively supported on the right middle edge beam and the right middle cross beam; a lifting driving mechanism for driving the middle layer frame to lift and the left middle sliding plate and the right middle sliding plate to simultaneously slide in the left-right direction in an opposite or back-to-back manner is arranged between the middle layer frame and the bottom layer frame;

the working table is divided into a left half working table and a right half working table, and the left half working table and the right half working table are both connected with the middle layer frame through the left-right swinging assembly; the hidden working table surface is connected with the middle layer frame through a shear type lifting mechanism; the left middle sliding plate and the right middle sliding plate drive two groups of left-right swinging assemblies and the shear type lifting mechanism to work together through the linkage mechanism, so that the hidden working table is driven to ascend or descend while the left half working table surface and the right half working table surface are separated or combined.

Furthermore, the lifting driving mechanism comprises a linear sliding driving mechanism, a left X-shaped lifting frame and a right X-shaped lifting frame, the linear sliding driving mechanism comprises a left lower sliding plate, a right lower sliding plate and a double-shaft worm gear speed reduction motor, and the left lower sliding plate is arranged between a left lower side beam and a left lower cross beam in the first bottom layer frame; the left lower sliding plate is fixedly provided with a left ball nut and a first guide sleeve; the left ball nut is sleeved on the left screw rod, and the left end and the right end of the left screw rod are respectively and rotatably supported on the left lower side beam and the left lower cross beam; the first guide sleeve is sleeved on the first guide rod, and the left end and the right end of the first guide rod are respectively supported on the left lower beam and the left lower beam;

the right lower sliding plate is arranged between the right lower edge beam and the right lower cross beam in the first bottom layer frame; the right lower sliding plate is fixedly provided with a right ball nut and a second guide sleeve; the right ball nut is sleeved on the right screw rod, and the left end and the right end of the right screw rod are respectively and rotatably supported on the right lower side beam and the right lower cross beam; the second guide sleeve is sleeved on a second guide rod, and the left end and the right end of the second guide rod are respectively supported on the right lower edge beam and the right lower cross beam;

the spiral directions of the right screw rod and the left screw rod are opposite, and the left end of the right screw rod and the right end of the left screw rod are respectively connected with two output shafts of the double-shaft worm gear speed reduction motor; the double-shaft worm gear speed reducing motor is fixedly arranged on a transverse mounting plate between a right lower cross beam and a left lower cross beam, and the front end and the rear end of the transverse mounting plate are fixedly arranged on a front lower boundary beam and a rear lower boundary beam in the first bottom layer frame respectively;

the left X-shaped lifting frame and the right X-shaped lifting frame respectively comprise at least one first X-shaped support rod group arranged along the front-back direction, each first X-shaped support rod group comprises a first support rod and a second support rod which are hinged in a crossed mode, the lower end of the first support rod in the left X-shaped lifting frame is hinged to the left lower side beam, and the upper end of the first support rod in the left X-shaped lifting frame is hinged to the left middle sliding plate; the lower ends of second support rods in the left X-shaped lifting frames are hinged to the left lower sliding plate, and the upper ends of the second support rods in the left X-shaped lifting frames are hinged to the left middle side beam; the lower end of a first support rod in the right X-shaped lifting frame is hinged to the right lower side beam, and the upper end of the first support rod in the right X-shaped lifting frame is hinged to the right middle sliding plate; the lower end of a second support rod in the right X-shaped lifting frame is hinged to the right lower sliding plate, and the upper end of the second support rod in the right X-shaped lifting frame is hinged to the right middle side beam.

Furthermore, the left-right swinging assembly comprises at least one group of swinging rod assemblies arranged along the left-right direction, each group of swinging rod assemblies comprises at least one swinging rod arranged along the front-back direction, the upper end of the swinging rod is rotatably sleeved on the third mounting rod, and the front end and the rear end of the third mounting rod are respectively supported on two fifth supporting blocks fixedly arranged on the lower surface of the left half worktable surface or the lower surface of the right half worktable surface; the lower end of the swinging rod is fixedly sleeved on a fourth mounting rod, the front end and the rear end of the fourth mounting rod are respectively supported on two bearing blocks, and the two bearing blocks are respectively and fixedly arranged on the upper surface of the front middle boundary beam and the upper surface of the rear middle boundary beam in the middle layer frame.

Furthermore, the scissor type lifting mechanism comprises two groups of second X-shaped support rod groups which are oppositely arranged at the left and the right; each second X-shaped support rod group comprises a third support rod and a fourth support rod which are hinged in a crossed mode, the upper end of the third support rod is rotatably sleeved on a third sliding rod, the left end and the right end of the third sliding rod are respectively slidably arranged in a front sliding groove formed in a top movable frame, and the top movable frame is fixedly arranged on the lower surface of the hidden workbench; the upper end of the fourth supporting rod is rotatably sleeved on the fourth sliding rod, and the left end and the right end of the fourth sliding rod are respectively slidably arranged in a rear sliding chute arranged on the top frame; a fifth mounting rod is fixedly arranged on the top movable frame and positioned between the third sliding rod and the fourth sliding rod, and the upper end of the first connecting rod and the upper end of the second connecting rod are rotatably sleeved on the fifth mounting rod; the lower end of the first connecting rod is hinged with the upper parts of the third supporting rods in the two groups of second X-shaped supporting rod groups, and the lower end of the second connecting rod is hinged with the upper parts of the fourth supporting rods in the two groups of second X-shaped supporting rod groups; the lower end of the third supporting rod is rotatably sleeved on the fifth sliding rod, and the left end and the right end of the fifth sliding rod are respectively supported on two sixth supporting blocks fixedly arranged on the upper surface of the rear sliding plate; the lower end of the fourth supporting rod is rotatably sleeved on the sixth sliding rod, and the left end and the right end of the sixth sliding rod are respectively supported on two seventh supporting blocks fixedly arranged on the upper surface of the front sliding plate; the left end and the right end of the rear sliding plate are respectively fixedly provided with a fifth guide sleeve, and the two fifth guide sleeves are respectively sleeved on the two fourth guide rods in a sliding manner; the front end and the rear end of each of the two fourth guide rods are respectively supported on two eighth supporting blocks, and the two eighth supporting blocks are respectively fixedly arranged on the upper surface of the front middle edge beam and the upper surface of the rear middle edge beam; and the left end and the right end of the front sliding plate are respectively fixedly provided with a sixth guide sleeve, and the two sixth guide sleeves are respectively sleeved on the two fourth guide rods in a sliding manner.

Furthermore, the linkage mechanism comprises two groups of push-pull assemblies which are oppositely arranged left and right, the two groups of push-pull assemblies respectively comprise a first push-pull rod, a connecting rod fixing seat, a second push-pull rod and a third push-pull rod, and the upper ends of the second push-pull rods of the two groups of push-pull assemblies are respectively hinged to the middle parts of the swing rods of the two groups of left and right swinging assemblies; the lower ends of the second push-pull rods in the two groups of push-pull assemblies are respectively hinged on the right middle sliding plate and the left middle sliding plate; one end of a first push-pull rod in the two groups of push-pull assemblies is respectively hinged on the right middle sliding plate and the left middle sliding plate; the other end of the first push-pull rod in the two groups of push-pull assemblies is respectively hinged with the left end and the right end of the front sliding plate; one end of a third push-pull rod in the two groups of push-pull assemblies is respectively hinged on the right middle sliding plate and the left middle sliding plate; the other end of the third push-pull rod in the two groups of push-pull assemblies is respectively hinged with the left end and the right end of the rear sliding plate.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

(1) according to the hidden type linkage office table, under a normal condition, the hidden working table top is hidden in the rack below the working table top, a user can sit on the working table top for working, when the hidden type linkage office table needs to stand for working, the left half working table top and the right half working table top are separated through one-key driving, the hidden working table top extends out from the space between the left half working table top and the right half working table top, and the lifting stroke of the hidden working table top is divided into two sections, namely the lifting stroke of the middle-layer frame driven by the lifting driving mechanism and the lifting stroke of the hidden working table top driven by the scissor type lifting mechanism, so that the lifting stroke completely meets the height required by standing for different heights; the left half working table surface and the right half working table surface are respectively controlled by the two groups of left-right swinging assemblies, so that the left half working table surface and the right half working table surface are swung and separated, after the hidden working table surface is lifted out, the height difference exists between the hidden working table surface and the working table surface, and thus, a user can move a computer to sit on the left half working table surface or the right half working table surface for office work and also move the computer to stand on the hidden working table surface for office work, the hidden working table surface can be driven by one key when one-day office work is finished or the situation of the office work needs to be noticed, the hidden working table surface descends and retracts into the rack, and the left half working table surface and the right half working table surface are combined, so that the operation is convenient;

(2) according to the hidden linkage office table, the hidden working table top, the lifting driving mechanism, the middle layer frame and the scissor type lifting mechanism are all arranged in the frame, so that the space below the working table top is fully utilized, the structure is compact, and the occupied space is small;

(3) according to the hidden linkage office table, the lifting of the layer frame is realized in a mode that the ball screw nut pair drives the two X-shaped lifting frames, and the lifting and the placement are stable.

Drawings

FIG. 1 is a three-dimensional schematic view of a hidden type linkage desk according to the present invention;

FIG. 2 is a schematic structural view of a hidden type linkage desk of the present invention without a lifting driving mechanism and a frame;

fig. 3 is a schematic structural diagram of a linkage mechanism and a scissor lift mechanism in a hidden linkage desk according to the present invention.

The reference numerals in the schematic drawings illustrate: 1-1, left half of the working table; 1-2, right half working table; 2. hiding the working table top; 3-1, a left middle sliding plate; 3-2, right middle sliding plate; 3-3, a third guide rod; 3-4, a fifth guide rod; 4. a middle layer frame; 5-1, a left lower sliding plate; 5-2, a right lower sliding plate; 5-3, a double-shaft worm gear speed reducing motor; 5-4, a left screw rod; 5-5, a first guide rod; 5-6, right screw rod; 5-7, a second guide rod; 6-1, a first support rod; 6-2, a second support bar; 6-3, a first mounting rod; 6-4, a first sliding rod; 6-5, a second sliding rod; 6-6, a second mounting rod; 7-1, a swing rod; 7-2, a fourth mounting rod; 7-3, a third mounting rod; 8-1, a third support bar; 8-2, a fourth support bar; 8-3, a third sliding rod; 8-4, a top movable frame; 8-5, a fourth sliding rod; 8-6, a rear sliding plate; 8-7, a sixth sliding rod; 8-8, a front sliding plate; 8-9, a fourth guide rod; 8-10, a fifth slide bar; 8-11, a fifth mounting rod; 8-12, a first connecting rod; 8-13, a second connecting rod; 9-1, a first push-pull rod; 9-2, a third push-pull rod; 9-3, a second push-pull rod; 10. and a frame.

Detailed Description

For a further understanding of the invention, reference should be made to the following detailed description taken in conjunction with the accompanying drawings and examples.

Examples

With reference to fig. 1, the hidden linkage office table of the embodiment includes a rack 10, a work table top and a hidden work table top hidden in the rack 10, a liftable middle layer frame 4 is arranged between a top layer frame and a bottom layer frame of the rack 10, a left middle sliding plate 3-1 and a right middle sliding plate 3-2 are arranged between a left middle edge beam and a right middle edge beam in the middle layer frame 4, third guide sleeves at the front and rear ends of the left middle sliding plate 3-1 are respectively sleeved on two third guide rods 3-3, and the left and right ends of the two third guide rods 3-3 are respectively supported on the left middle edge beam and the left middle cross beam; fourth guide sleeves on the front end and the rear end of the right middle sliding plate 3-2 are respectively sleeved on the two fifth guide rods 3-4, and the left end and the right end of each of the two fifth guide rods 3-4 are respectively supported on the right middle edge beam and the right middle cross beam; a lifting driving mechanism for driving the middle layer frame 4 to lift and the left middle sliding plate 3-1 and the right middle sliding plate 3-2 to simultaneously slide in the left-right direction in a reverse direction or in a reverse direction is arranged between the middle layer frame 4 and the bottom layer frame;

the working table is divided into a left half working table surface 1-1 and a right half working table surface 1-2, and the left half working table surface 1-1 and the right half working table surface 1-2 are both connected with the middle layer frame 4 through the left-right swinging assembly; the hidden working table surface 2 is connected with the middle layer frame 4 through a shear type lifting mechanism; the left middle sliding plate 3-1 and the right middle sliding plate 3-2 drive two groups of left-right swinging assemblies and the shear type lifting mechanism to work together through a linkage mechanism, so that the hidden working table 2 is driven to ascend or descend while the left half working table 1-1 and the right half working table 1-2 are separated or combined;

under the normal condition, the hidden working table is hidden in the machine frame 10 below the working table, at the moment, a user can sit on the working table for working, when the user needs to stand for working, the hidden working table is driven by one key, the left half working table and the right half working table are separated, and the hidden working table extends out from the space between the left half working table and the right half working table; and because the left half working table surface and the right half working table surface are respectively controlled by the two groups of left-right swinging assemblies, the left half working table surface and the right half working table surface are swung and separated, and after the hidden working table surface is lifted out, the height difference exists between the hidden working table surface and the working table surface, so that a user can carry a computer to sit on the left half working table surface or the right half working table surface for office work and can also carry the computer to stand on the hidden working table surface for office work, the hidden working table surface can be driven by one key when the office work is finished for one day or the situation of the office work needs to be noticed, the hidden working table surface is descended and retracted into the rack, the left half working table surface and the right half working table surface are combined, and the operation is convenient.

Continuing to fig. 1, the lifting driving mechanism comprises a linear sliding driving mechanism, a left X-shaped lifting frame and a right X-shaped lifting frame, the linear sliding driving mechanism comprises a left lower sliding plate 5-1, a right lower sliding plate 5-2 and a double-shaft worm and gear speed reducing motor 5-3, and the left lower sliding plate 5-1 is arranged between a left lower side beam and a left lower cross beam in the first bottom layer frame; a left ball nut and a first guide sleeve are fixedly arranged on the left lower sliding plate 5-1; the left ball nut is sleeved on the left screw rod 5-4, and the left end and the right end of the left screw rod 5-4 are respectively and rotatably supported on the left lower side beam and the left lower cross beam; the first guide sleeve is sleeved on the first guide rod 5-5, and the left end and the right end of the first guide rod 5-5 are respectively supported on the left lower beam and the left lower beam;

the right lower sliding plate 5-2 is arranged between a right lower edge beam and a right lower cross beam in the first bottom layer frame; a right ball nut and a second guide sleeve are fixedly arranged on the right lower sliding plate 5-2; the right ball nut is sleeved on the right screw rod 5-6, and the left end and the right end of the right screw rod 5-6 are respectively and rotatably supported on the right lower edge beam and the right lower cross beam; the second guide sleeve is sleeved on a second guide rod 5-7, and the left end and the right end of the second guide rod 5-7 are respectively supported on the right lower side beam and the right lower cross beam;

the spiral directions of the right screw rod 5-6 and the left screw rod 5-4 are opposite, and the left end of the right screw rod 5-6 and the right end of the left screw rod 5-4 are respectively connected with two output shafts of a double-shaft worm and gear speed reduction motor 5-3; the double-shaft worm and gear speed reducing motor 5-3 is fixedly arranged on a transverse mounting plate between the right lower cross beam and the left lower cross beam, and the front end and the rear end of the transverse mounting plate are respectively fixedly arranged on a front lower boundary beam and a rear lower boundary beam in the first bottom layer frame;

the left X-shaped lifting frame and the right X-shaped lifting frame respectively comprise at least one first X-shaped support rod group arranged along the front-back direction, each first X-shaped support rod group comprises a first support rod 6-1 and a second support rod 6-2 which are hinged in a crossed mode, the lower end of the first support rod 6-1 in the left X-shaped lifting frame is hinged to the left lower side beam, and specifically, the lower end of the first support rod 6-1 in the left X-shaped lifting frame is rotatably sleeved with a first mounting rod 6-3 fixedly arranged on the upper surface of the left lower side beam; the upper ends of first support rods 6-1 in the left X-shaped lifting frame are hinged to the left middle sliding plate 3-1, and particularly the upper ends of the first support rods 6-1 in the left X-shaped lifting frame are rotatably sleeved on second sliding rods 6-5 fixedly arranged on the lower surface of the left middle sliding plate 3-1; the lower ends of second support rods 6-2 in the left X-shaped lifting frame are hinged to the left lower sliding plate 5-1, and particularly the lower ends of the second support rods 6-2 in the left X-shaped lifting frame are rotatably sleeved with first sliding rods 6-4 fixedly arranged on the upper surface of the left lower sliding plate 5-1; the upper ends of second support rods 6-2 in the left X-shaped lifting frame are hinged to the left middle boundary beam, and particularly the upper ends of the second support rods 6-2 in the left X-shaped lifting frame are rotatably sleeved on second mounting rods 6-6 fixedly arranged on the lower surface of the left middle boundary beam;

the lower ends of the first supporting rods 6-1 in the right X-shaped lifting frame are hinged to the right lower side beam, and particularly the lower ends of the first supporting rods 6-1 in the right X-shaped lifting frame are rotatably sleeved with first mounting rods 6-3 fixedly arranged on the upper surface of the right lower side beam; the upper ends of first support rods 6-1 in the right X-shaped lifting frame are hinged to the right middle sliding plate 3-2, and particularly the upper ends of the first support rods 6-1 in the right X-shaped lifting frame are rotatably sleeved on second sliding rods 6-5 fixedly arranged on the lower surface of the right middle sliding plate 3-2; the lower ends of second support rods 6-2 in the right X-shaped lifting frame are hinged to the right lower sliding plate 5-2, and particularly the lower ends of the second support rods 6-2 in the right X-shaped lifting frame are rotatably sleeved with first sliding rods 6-4 fixedly arranged on the upper surface of the right lower sliding plate 5-2; the upper ends of the second support rods 6-2 in the right X-shaped lifting frame are hinged to the right middle side beam, and particularly the upper ends of the second support rods 6-2 in the right X-shaped lifting frame are rotatably sleeved with second mounting rods 6-6 fixedly arranged on the lower surface of the right middle side beam;

continuing to and in conjunction with fig. 2, the yaw assembly includes at least one set of swing rod assemblies disposed in a left-right direction, and the yaw assembly includes two sets of swing rod assemblies in this embodiment; each group of swing rod assemblies comprises at least one swing rod 7-1 arranged along the front-back direction, the upper end of the swing rod 7-1 is rotatably sleeved on a third mounting rod 7-3, and the front end and the rear end of the third mounting rod 7-3 are respectively supported on two fifth supporting blocks fixedly arranged on the lower surface of the left half worktable 1-1 or the lower surface of the right half worktable 1-2; the lower end of the swinging rod 7-1 is fixedly sleeved on a fourth mounting rod 7-2, the front end and the rear end of the fourth mounting rod 7-2 are respectively supported on two bearing seats, and the two bearing seats are respectively and fixedly arranged on the upper surface of a front middle boundary beam and the upper surface of a rear middle boundary beam in the middle layer frame;

continuing and combining with the figure 3, the scissor type lifting mechanism comprises two second X-shaped support rod groups which are oppositely arranged left and right; each second X-shaped support rod group comprises a third support rod 8-1 and a fourth support rod 8-2 which are hinged in a crossed manner, the upper end of the third support rod 8-1 is rotatably sleeved on the third sliding rod 8-3, the left end and the right end of the third sliding rod 8-3 are respectively slidably arranged in a front sliding groove arranged on the top movable frame 8-4, and the top movable frame 8-4 is fixedly arranged on the lower surface of the hidden working table top 2; the upper end of the fourth support rod 8-2 is rotatably sleeved on the fourth sliding rod 8-5, and the left end and the right end of the fourth sliding rod 8-5 are respectively slidably arranged in a rear sliding chute arranged on the top frame 8-4; a fifth installation rod 8-11 is fixedly arranged on the top movable frame 8-4 and positioned between the third sliding rod 8-3 and the fourth sliding rod 8-5, and the upper end of a first connecting rod 8-12 and the upper end of a second connecting rod 8-13 are rotatably sleeved on the fifth installation rod; the lower end of the first connecting rod 8-12 is hinged with the upper part of a third supporting rod 8-1 in the two groups of second X-shaped supporting rod groups, and the lower end of the second connecting rod 8-13 is hinged with the upper part of a fourth supporting rod 8-2 in the two groups of second X-shaped supporting rod groups;

the lower end of the third support rod 8-1 is rotatably sleeved on the fifth sliding rod 8-10, and the left end and the right end of the fifth sliding rod 8-10 are respectively supported on two sixth support blocks fixedly arranged on the upper surface of the rear sliding plate 8-6; the lower end of the fourth support bar 8-2 is rotatably sleeved on the sixth sliding bar 8-7, and the left and right ends of the sixth sliding bar 8-7 are respectively supported on two seventh support blocks fixedly arranged on the upper surface of the front sliding plate 8-8; the left end and the right end of the rear sliding plate 8-6 are respectively fixedly provided with a fifth guide sleeve, and the two fifth guide sleeves are respectively sleeved on the two fourth guide rods 8-9 in a sliding manner; the front end and the rear end of each of the two fourth guide rods 8-9 are respectively supported on two eighth supporting blocks, and the two eighth supporting blocks are respectively fixedly arranged on the upper surface of the front middle edge beam and the upper surface of the rear middle edge beam; the left end and the right end of the front sliding plate 8-8 are respectively fixedly provided with a sixth guide sleeve, and the two sixth guide sleeves are respectively sleeved on the two fourth guide rods 8-9 in a sliding manner;

the linkage mechanism comprises two groups of push-pull assemblies which are oppositely arranged left and right, the two groups of push-pull assemblies respectively comprise a first push-pull rod 9-1, a second push-pull rod 9-3 and a third push-pull rod 9-2, and the upper ends of the second push-pull rods 9-3 in the two groups of push-pull assemblies are respectively hinged to the middle parts of swing rods 7-1 in the two groups of left and right swinging assemblies; the lower ends of the second push-pull rods 9-3 in the two groups of push-pull assemblies are respectively hinged on the right middle sliding plate 3-2 and the left middle sliding plate 3-1; one end of a first push-pull rod 9-1 in the two groups of push-pull assemblies is respectively hinged on the right middle sliding plate 3-2 and the left middle sliding plate 3-1; the other end of a first push-pull rod 9-1 in the two groups of push-pull assemblies is respectively hinged with the left end and the right end of a front sliding plate 8-8; one end of a third push-pull rod 9-2 in the two groups of push-pull assemblies is respectively hinged on the right middle sliding plate 3-2 and the left middle sliding plate 3-1; the other end of the third push-pull rod 9-2 in the two groups of push-pull assemblies is respectively hinged with the left end and the right end of the rear sliding plate 8-6.

The working process is as follows: the double-shaft worm and gear speed reducing motor 5-3 works to drive the right screw rod 5-6 and the left screw rod 5-4 to rotate together, and the left lower sliding plate 5-1 and the right lower sliding plate 5-2 can be driven to move in opposite directions or back to back due to the fact that the spiral rotating directions of the right screw rod 5-6 and the left screw rod 5-4 are opposite; when the left lower sliding plate 5-1 and the right lower sliding plate 5-2 move back to back, the left middle sliding plate 3-1 and the right middle sliding plate 3-2 are respectively driven by the two X-shaped lifting frames to move back to back, and then the two linkage mechanisms are driven to work, namely the second push-pull rod 9-3 in the two linkage mechanisms respectively drives the swinging rods 7-1 on the left side and the right side to swing, so that the left half working table surface and the right half working table surface are separated, meanwhile, the first push-pull rod 9-1 and the third push-pull rod 9-2 in the two linkage mechanisms respectively pull the front sliding plate 8-8 and the rear sliding plate 8-6, so that the front sliding plate 8-8 and the rear sliding plate 8-6 move oppositely, and then the scissor type lifting mechanism is driven to lift the hidden working table surface 2, and the double-shaft worm gear speed reduction motor 5-3, until the hidden working table 2 is lifted to a proper position; when the left lower sliding plate 5-1 and the right lower sliding plate 5-2 move oppositely, the hidden working table top 2 can be folded, and the left half working table top and the right half working table top are combined.

The hidden linkage office table is simple in structure, convenient to connect, stable to place, compact in structure, capable of being suitable for standing and sitting at the same time, capable of fully utilizing idle space and small in occupied space.

The present invention and its embodiments have been described above schematically, without limitation, and what is shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. Therefore, if the person skilled in the art receives the teaching, without departing from the spirit of the invention, the person skilled in the art shall not inventively design the similar structural modes and embodiments to the technical solution, but shall fall within the scope of the invention.

Claims

1. The utility model provides a hidden linkage desk, includes frame (10) and table surface, its characterized in that: the hidden worktable is characterized by further comprising a hidden worktable surface (2) hidden in the rack (10), a liftable middle layer frame (4) is arranged between a top layer frame and a bottom layer frame of the rack (10), a left middle sliding plate (3-1) and a right middle sliding plate (3-2) are arranged between a left middle edge beam and a right middle edge beam in the middle layer frame (4), third guide sleeves at the front end and the rear end of the left middle sliding plate (3-1) are respectively sleeved on the two third guide rods (3-3), and the left end and the right end of the two third guide rods (3-3) are respectively supported on the left middle edge beam and the left middle cross beam; fourth guide sleeves at the front end and the rear end of the right middle sliding plate (3-2) are respectively sleeved on the two fifth guide rods (3-4), and the left end and the right end of each of the two fifth guide rods (3-4) are respectively supported on the right middle edge beam and the right middle cross beam; a lifting driving mechanism for driving the middle layer frame (4) to lift and driving the left middle sliding plate (3-1) and the right middle sliding plate (3-2) to simultaneously slide in the left-right direction in an opposite or back-to-back manner is arranged between the middle layer frame (4) and the bottom layer frame;

the working table is divided into a left half working table (1-1) and a right half working table (1-2), and the left half working table (1-1) and the right half working table (1-2) are connected with the middle layer frame (4) through a left-right swinging assembly; the hidden working table top (2) is connected with the middle layer frame (4) through a shear type lifting mechanism; the left middle sliding plate (3-1) and the right middle sliding plate (3-2) drive two groups of left-right swinging assemblies and the shear type lifting mechanism to work together through the linkage mechanism, so that the hidden working table (2) is driven to ascend or descend while the left half working table (1-1) and the right half working table (1-2) are separated or combined.

2. The hidden type linked desk as claimed in claim 1, wherein: the lifting driving mechanism comprises a linear sliding driving mechanism, a left X-shaped lifting frame and a right X-shaped lifting frame, the linear sliding driving mechanism comprises a left lower sliding plate (5-1), a right lower sliding plate (5-2) and a double-shaft worm gear speed reduction motor (5-3), and the left lower sliding plate (5-1) is arranged between a left lower side beam and a left lower cross beam in the first bottom layer frame; the left lower sliding plate (5-1) is fixedly provided with a left ball nut and a first guide sleeve; the left ball nut is sleeved on the left screw rod (5-4), and the left end and the right end of the left screw rod (5-4) are respectively and rotatably supported on the left lower side beam and the left lower cross beam; the first guide sleeve is sleeved on the first guide rod (5-5), and the left end and the right end of the first guide rod (5-5) are respectively supported on the left lower beam and the left lower beam;

the right lower sliding plate (5-2) is arranged between the right lower edge beam and the right lower cross beam in the first bottom layer frame; the right lower sliding plate (5-2) is fixedly provided with a right ball nut and a second guide sleeve; the right ball nut is sleeved on the right screw rod (5-6), and the left end and the right end of the right screw rod (5-6) are respectively and rotatably supported on the right lower side beam and the right lower cross beam; the second guide sleeve is sleeved on a second guide rod (5-7), and the left end and the right end of the second guide rod (5-7) are respectively supported on the right lower edge beam and the right lower cross beam;

the spiral directions of the right screw rod (5-6) and the left screw rod (5-4) are opposite, and the left end of the right screw rod (5-6) and the right end of the left screw rod (5-4) are respectively connected with two output shafts of a double-shaft worm and gear speed reduction motor (5-3); the double-shaft worm and gear speed reducing motor (5-3) is fixedly arranged on a transverse mounting plate between the right lower cross beam and the left lower cross beam, and the front end and the rear end of the transverse mounting plate are fixedly arranged on a front lower edge beam and a rear lower edge beam in the first bottom layer frame respectively;

the left X-shaped lifting frame and the right X-shaped lifting frame respectively comprise at least one first X-shaped support rod group arranged along the front-back direction, each first X-shaped support rod group comprises a first support rod (6-1) and a second support rod (6-2) which are hinged in a crossed mode, the lower end of the first support rod (6-1) in the left X-shaped lifting frame is hinged to the left lower side beam, and the upper end of the first support rod (6-1) in the left X-shaped lifting frame is hinged to the left middle sliding plate (3-1); the lower ends of second support rods (6-2) in the left X-shaped lifting frame are hinged to the left lower sliding plate (5-1), and the upper ends of the second support rods (6-2) in the left X-shaped lifting frame are hinged to the left middle side beam; the lower ends of first support rods (6-1) in the right X-shaped lifting frames are hinged to the right lower side beam, and the upper ends of the first support rods (6-1) in the right X-shaped lifting frames are hinged to the right middle sliding plate (3-2); the lower ends of second support rods (6-2) in the right X-shaped lifting frames are hinged to the right lower sliding plate (5-2), and the upper ends of the second support rods (6-2) in the right X-shaped lifting frames are hinged to the right middle side beam.

3. The hidden type linked desk as claimed in claim 2, wherein: the left-right swinging assembly comprises at least one group of swinging rod assemblies arranged along the left-right direction, each group of swinging rod assemblies comprises at least one swinging rod (7-1) arranged along the front-back direction, the upper end of each swinging rod (7-1) is rotatably sleeved on a third mounting rod (7-3), and the front end and the rear end of each third mounting rod (7-3) are respectively supported on two fifth supporting blocks fixedly arranged on the lower surface of the left half working table top (1-1) or the lower surface of the right half working table top (1-2); the lower end of the swinging rod (7-1) is fixedly sleeved on a fourth mounting rod (7-2), the front end and the rear end of the fourth mounting rod (7-2) are respectively supported on two bearing seats, and the two bearing seats are respectively and fixedly arranged on the upper surface of a front middle boundary beam and the upper surface of a rear middle boundary beam in the middle layer frame.

4. The hidden linkage desk of claim 3, wherein: the scissor type lifting mechanism comprises two groups of second X-shaped support rod groups which are oppositely arranged at the left and the right; each second X-shaped support rod group comprises a third support rod (8-1) and a fourth support rod (8-2) which are hinged in a crossed mode, the upper end of the third support rod (8-1) is rotatably sleeved on the third sliding rod (8-3), the left end and the right end of the third sliding rod (8-3) are respectively slidably arranged in a front sliding groove formed in the top movable frame (8-4), and the top movable frame (8-4) is fixedly arranged on the lower surface of the hidden workbench surface (2); the upper end of the fourth supporting rod (8-2) is rotatably sleeved on the fourth sliding rod (8-5), and the left end and the right end of the fourth sliding rod (8-5) are respectively slidably arranged in a rear sliding groove formed in the top frame (8-4); a fifth installation rod (8-11) is fixedly arranged on the top movable frame (8-4) and between the third sliding rod (8-3) and the fourth sliding rod (8-5), and the upper end of the first connecting rod (8-12) and the upper end of the second connecting rod (8-13) are rotatably sleeved on the fifth installation rod; the lower end of the first connecting rod (8-12) is hinged with the upper part of a third supporting rod (8-1) in the two groups of second X-shaped supporting rod groups, and the lower end of the second connecting rod (8-13) is hinged with the upper part of a fourth supporting rod (8-2) in the two groups of second X-shaped supporting rod groups;

the lower end of the third support rod (8-1) is rotatably sleeved on the fifth sliding rod (8-10), and the left end and the right end of the fifth sliding rod (8-10) are respectively supported on two sixth support blocks fixedly arranged on the upper surface of the rear sliding plate (8-6); the lower end of the fourth supporting rod (8-2) is rotatably sleeved on the sixth sliding rod (8-7), and the left end and the right end of the sixth sliding rod (8-7) are respectively supported on two seventh supporting blocks fixedly arranged on the upper surface of the front sliding plate (8-8); the left end and the right end of the rear sliding plate (8-6) are respectively fixedly provided with a fifth guide sleeve, and the two fifth guide sleeves are respectively sleeved on the two fourth guide rods (8-9) in a sliding manner; the front end and the rear end of each of the two fourth guide rods (8-9) are respectively supported on two eighth supporting blocks, and the two eighth supporting blocks are respectively fixedly arranged on the upper surface of the front middle edge beam and the upper surface of the rear middle edge beam; and the left end and the right end of the front sliding plate (8-8) are respectively fixedly provided with a sixth guide sleeve, and the two sixth guide sleeves are respectively sleeved on the two fourth guide rods (8-9) in a sliding manner.

5. The hidden linkage desk of claim 4, wherein: the linkage mechanism comprises two groups of push-pull assemblies which are oppositely arranged left and right, the two groups of push-pull assemblies respectively comprise a first push-pull rod (9-1), a second push-pull rod (9-3) and a third push-pull rod (9-2), and the upper ends of the second push-pull rods (9-3) in the two groups of push-pull assemblies are respectively hinged to the middle parts of swing rods (7-1) in the two groups of left and right swinging assemblies; the lower ends of second push-pull rods (9-3) in the two groups of push-pull assemblies are respectively hinged on the right middle sliding plate (3-2) and the left middle sliding plate (3-1); one end of a first push-pull rod (9-1) in the two groups of push-pull assemblies is respectively hinged on the right middle sliding plate (3-2) and the left middle sliding plate (3-1); the other end of a first push-pull rod (9-1) in the two groups of push-pull assemblies is respectively hinged with the left end and the right end of a front sliding plate (8-8); one end of a third push-pull rod (9-2) in the two groups of push-pull assemblies is respectively hinged on the right middle sliding plate (3-2) and the left middle sliding plate (3-1); the other end of the third push-pull rod (9-2) in the two groups of push-pull assemblies is respectively hinged with the left end and the right end of the rear sliding plate (8-6).