CN116623840B

CN116623840B - Assembled partition wall

Info

Publication number: CN116623840B
Application number: CN202310867405.4A
Authority: CN
Inventors: 王翔; 葛齐顺; 陈其春; 万文全; 鲁鹏飞
Original assignee: Gmanlin Nanjing New Material Technology Co ltd
Current assignee: Gmanlin Nanjing New Material Technology Co ltd
Priority date: 2023-07-15
Filing date: 2023-07-15
Publication date: 2023-10-03
Anticipated expiration: 2043-07-15
Also published as: CN116623840A

Abstract

The application discloses an assembled partition wall, which relates to the partition wall field, and comprises a ceiling joist, two upright posts and earthworm bones, wherein an assembling mechanism is arranged on the upright posts and comprises a spliced mother board and a spliced male board component, the top of each I-shaped column is provided with an extrusion board, the bottom of each I-shaped column is provided with a bottom board, an intermediate strip is arranged between the extrusion board and a movable groove of each I-shaped column, a support strip is arranged between the bottom board and a C-shaped column, the intermediate strip and the support strip are of hollow structures, a hydraulic tank is arranged at the top of each C-shaped column, a one-way valve is arranged between the hydraulic tank and the intermediate strip, and a one-way extrusion pump is arranged between the intermediate strip and the support strip.

Description

Assembled partition wall

Technical Field

The application relates to the technical field of partition walls, in particular to an assembled partition wall.

Background

The partition is a vertical face for dividing a room into a plurality of spaces, and can enable decoration styles to be more changeable, such as partition walls, partitions, movable display boards, movable screens, movable partitions, movable screens, movable sound insulation walls and the like, and the partition originates in japan, is reformed and is introduced into China after being opened, and is widely applied in 90 s. The movable partition has the characteristics of easy installation, reusability, industrialized production, fire prevention, environmental protection and the like, and is widely applied to civil furniture and industrial factory building construction. The assembled partition wall is a partition wall structure formed by splicing a plurality of independent partition walls end to end.

After the head and tail of the existing fabricated partition wall are spliced, the joints of the partition wall are assembled by screws or are connected by buckles, the gaps of the joints are generally filled by sealant, but after the partition wall is extruded by human collision for a long time, the joints are repeatedly extruded, metal stress deformation causes loosening of the joints, and the joint strip is gradually aged and contracted, so that the joints of the partition wall are lack of support and are loosened, and therefore the joints of the traditional partition wall need to be maintained frequently.

Disclosure of Invention

The present application aims to solve at least one of the technical problems in the related art to some extent.

Therefore, a first object of the present application is to provide an assembled partition wall, in which the joints of adjacent partition walls are extruded each time by adding an assembling mechanism, the pressure in the supporting bar is increased once, so that the joints of the adjacent partition walls are more compact, the metal stress extrusion deformation of the joints is reduced, and the joints between the partition walls are more stable.

In order to achieve the above object, an embodiment of the first aspect of the present application provides an assembled partition wall, including a ceiling joist, two upright posts and a ground joist, wherein the ceiling joist and the earthworm joist are respectively disposed at the upper and lower ends of the two upright posts, the ceiling joist, the earthworm joist and the two upright posts enclose a rectangular frame structure together, an assembling mechanism for assembling and connecting a plurality of partition walls from head to tail is disposed on the upright posts, the assembling mechanism comprises a spliced motherboard and a spliced male plate assembly, wherein the spliced male plate assembly comprises a C-shaped column and an i-shaped column, the spliced motherboard is disposed on one of the upright posts, the C-shaped column is disposed on the other upright post, an i-shaped column movable groove is disposed on the inner side of the C-shaped column, the i-shaped column is pivotably disposed in the i-shaped column movable groove, an extrusion plate is disposed at the top of the i-shaped column, a bottom plate is disposed at the bottom of the i-shaped column, a middle strip is disposed between the extrusion plate and the i-shaped column movable groove, a middle strip is disposed between the bottom plate and the C-shaped column, the middle strip and the C-shaped column is twisted, the middle strip is disposed between the bottom plate and the C-shaped column, and the middle strip is in a reverse connection when the middle strip is in a hydraulic pressure tank, and the middle strip is disposed in the middle strip, and the middle strip is in the middle tank, and the middle tank is in the tank, and the middle tank, and the tank is in the tank, and the tank.

According to the assembled partition wall provided by the embodiment of the application, the assembling mechanism is added, and the pressure in the supporting bar is increased once every time the joints of the adjacent partition walls are mutually extruded, so that the joints of the adjacent partition walls are more compact, the metal stress extrusion deformation of the joints is reduced, and the joints between the partition walls are more stable.

In addition, the assembled partition wall proposed in the application can also have the following additional technical characteristics:

in one embodiment of the application, two middle strips are arranged, two extrusion lugs are arranged on two sides of the extrusion plate, the two middle strips are respectively arranged in the extrusion lugs on two sides of the extrusion plate, and a rotating shaft is arranged in the extrusion plate in a penetrating way.

In one embodiment of the application, a movable adhesive tape for the pivoting movement of the I-shaped column is arranged at the C-shaped notch of the C-shaped column, the C-shaped column and the bottom plate are both provided with a baffle strip movable groove, a baffle strip is movably arranged in the baffle strip movable groove, and the support strip is arranged at the inner side of the baffle strip.

In one embodiment of the application, the assembled partition wall further comprises a vertical push-pull mechanism arranged between the two upright posts, the vertical push-pull mechanism comprises an upper push-pull plate, a lower push-pull plate and a push-pull mother plate, wherein the push-pull mother plate is arranged between the two upright posts, the upper push-pull plate and the lower push-pull plate can be vertically pushed and pulled on the inner side of the push-pull mother plate, a synchronous traction assembly is arranged between the push-pull mother plate and the upper push-pull plate and between the push-pull mother plate and the lower push-pull plate, the synchronous traction assembly comprises a tension spring, a fixed pulley, a traction rope and an electric push rod, the fixed pulley is arranged in the push-pull mother plate, the traction rope is wound on the fixed pulley, one end of the traction rope is connected with the bottom of the upper push-pull plate, the other end of the traction rope is connected with one end of the tension spring, the other end of the tension spring is connected with the top of the lower push-pull plate, the electric push rod is arranged in the push-pull mother plate, and the power shaft of the electric push rod is connected with the lower plate.

In one embodiment of the application, a motherboard adjusting component for adjusting the position of the push-pull motherboard up and down is arranged between the push-pull motherboard and the two upright posts, and comprises a screw, a wire seat and a screw motor, wherein the screw motor is arranged in a ceiling keel, a power shaft of the screw motor is connected with the screw, the wire seat is arranged on one side of the push-pull motherboard, and screw threads penetrate through the wire seat.

In one embodiment of the application, a motherboard locking assembly is arranged on one side of the push-pull motherboard, which is away from the screw rod, and comprises a lock pin and a positioning tooth slot, wherein the positioning tooth slot is arranged on the upright post, and the lock pin and the positioning tooth slot are mutually matched.

In one embodiment of the application, the lock pin is an electric lock, an unlocking controller is arranged on the push-pull motherboard, the unlocking controller is electrically connected with the lock pin, a protection folded plate is hinged on the upright post, a folded plate bayonet lock is arranged between the protection folded plate and the earthworm bone, and a rotatable guide guard plate is arranged outside the screw rod.

In one embodiment of the application, a foot pedal is arranged on the lower push-pull plate, a storage box is arranged at the top of the upper push-pull plate, an opening of the storage box faces upwards, and a circulating fan is arranged at the bottom of the ceiling joist.

In one embodiment of the application, the insides of the upper push-pull plate and the lower push-pull plate are both in a vacuumizing structure, the bottom of the upper push-pull plate and the top of the lower push-pull plate are both provided with limiting pull blocks, the bottom of the upper push-pull plate is connected with one end of a traction rope through the limiting pull blocks, and the top of the lower push-pull plate is connected with a tension spring through the limiting pull blocks.

In one embodiment of the application, one side of the push-pull motherboard is provided with a shielding assembly, the shielding assembly comprises a shielding plate, a shutter plate and a shutter motor, wherein the shielding plate is of a transparent internal vacuumizing structure, the shutter plate is arranged in the shielding plate, and a power shaft of the shutter motor is connected with the shutter plate.

Additional aspects and advantages of the application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the application.

Drawings

The foregoing and/or additional aspects and advantages of the application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic view showing the overall structure of an assembled partition wall according to an embodiment of the present application;

FIG. 2 is a schematic top cross-sectional view of a middle splice male plate assembly of a fabricated partition wall according to one embodiment of the present application;

FIG. 3 is a top cross-sectional view of a middle spool of an assembled partition wall according to one embodiment of the present application;

FIG. 4 is a top cross-sectional view of a middle C-shaped column of a fabricated partition wall according to one embodiment of the present application;

FIG. 5 is a schematic view of an assembly mechanism of an assembled partition wall according to an embodiment of the present application;

FIG. 6 is a right side cross-sectional view of a middle vertical push-pull mechanism of an assembled partition wall according to one embodiment of the present application;

FIG. 7 is a front cross-sectional view of a middle vertical push-pull mechanism of an assembled partition wall according to one embodiment of the application;

FIG. 8 is an enlarged view of A in FIG. 7;

FIG. 9 is an enlarged view of B in FIG. 7;

FIG. 10 is a schematic diagram of ventilation flow of a middle vertical push-pull mechanism of an assembled partition wall according to one embodiment of the application;

FIG. 11 is a schematic view of a middle storage box of an assembled partition wall according to an embodiment of the present application in a closed state;

fig. 12 is a schematic view of an assembled partition wall according to an embodiment of the present application in a state in which a middle storage box is opened.

As shown in the figure: 1. a ceiling keel; 2. a ground keel; 3. a column; 31. a protective flap; 311. a folded plate bayonet lock; 4. a vertical push-pull mechanism; 41. an upper push-pull plate; 411. limiting pull blocks; 42. a storage box; 43. pushing and pulling the mother board; 431. a handle; 44. a lower push-pull plate; 441. a foot pedal; 45. a motherboard locking assembly; 451. a locking pin; 452. positioning tooth grooves; 46. a shielding assembly; 461. a shielding plate; 462. a louver board; 463. a shutter motor; 47. a synchronous traction assembly; 471. a tension spring; 472. a fixed pulley; 473. a traction rope; 48. an electric push rod; 5. a motherboard adjusting assembly; 51. a guide guard board; 52. a screw; 521. a wire seat; 53. a screw motor; 6. a circulation fan; 7. an assembly mechanism; 71. splicing mother boards; 72. a C-shaped column; 721. an I-shaped column movable groove; 73. an I-shaped column; 731. splicing screws; 732. an extrusion plate; 733. a bottom plate; 734. a rotation shaft; 74. a hydraulic tank; 741. a one-way valve; 75. a support bar; 76. a baffle strip; 761. a baffle strip movable groove; 77. an intermediate strip; 771. a one-way extrusion pump; 78. a movable adhesive tape; 79. and splicing the male plate components.

Description of the embodiments

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present application and should not be construed as limiting the application. On the contrary, the embodiments of the application include all alternatives, modifications and equivalents as may be included within the spirit and scope of the appended claims.

The assembled partition wall according to the embodiment of the present application is described below with reference to the accompanying drawings.

As shown in fig. 1-5, the assembled partition wall of the embodiment of the application comprises a ceiling joist 1, two upright posts 3 and earthworm bones 2, wherein the ceiling joist 1 and the earthworm bones 2 are respectively arranged at the upper end and the lower end of the two upright posts 3, and the ceiling joist 1, the earthworm bones 2 and the two upright posts 3 jointly form a rectangular frame structure.

The upright posts 3 are provided with an assembly mechanism 7 for head-to-tail assembly connection of a plurality of partition walls, the assembly mechanism 7 comprises a spliced mother plate 71 and a spliced male plate assembly 79, the spliced male plate assembly 79 comprises a C-shaped post 72 and an I-shaped post 73, the spliced mother plate 71 is arranged on one upright post 3, the C-shaped post 72 is arranged on the other upright post 3, the inner side of the C-shaped post 72 is provided with an I-shaped post movable groove 721, and the I-shaped post 73 is pivotally arranged in the I-shaped post movable groove 721.

The top of I-shaped post 73 is provided with extrusion plate 732, and the bottom of I-shaped post 73 is provided with bottom plate 733, is provided with middle strip 77 between extrusion plate 732 and the I-shaped post movable groove 721, is provided with support bar 75 between bottom plate 733 and the C-shaped post 72, and middle strip 77 and support bar 75 are hollow structure, and the top of C-shaped post 72 is provided with hydraulic pressure jar 74, is provided with check valve 741 between hydraulic pressure jar 74 and the middle strip 77, is provided with unidirectional extrusion pump 771 between middle strip 77 and the support bar 75.

The middle strip 77 is provided with two, and the both sides of stripper plate 732 are provided with extrusion ear protectors, and two middle strips 77 set up respectively in the extrusion ear protectors inboard of stripper plate 732 both sides, run through in the stripper plate 732 and be provided with rotation axis 734.

The C-shaped notch of the C-shaped column 72 is provided with a movable adhesive tape 78 for the pivoting movement of the I-shaped column 73, the C-shaped column 72 and the bottom plate 733 are both provided with a baffle strip movable groove 761, a baffle strip 76 is movably arranged in the baffle strip movable groove 761, and a support bar 75 is arranged on the inner side of the baffle strip 76.

Specifically, firstly, the ceiling joist 1 is installed on the ceiling, the earthworm bone 2 is installed on the floor, when the adjacent assembled partition walls are connected end to end, firstly, the right side upright post 3 is provided with the spliced mother board 71 in advance (the surface of the spliced mother board 71 is provided with a threaded hole), the left side upright post 3 is provided with the spliced male board assembly 79 in advance, before splicing, the supporting bar 75, the middle bar 77 and the top bar are hollow (the hollow middle bar 77 is convenient for inserting and installing the splicing screw 731, the supporting bar 75 and the middle bar 77 are hollow adhesive tapes), at this time, the I-shaped column 73 can move left and right (move up and down in the same way as in fig. 5) in the I-shaped column 721, a worker can penetrate the spliced screw to be connected with the threaded hole on the spliced mother board 71 through the bottom plate 733, then the baffle bar 76 is clamped into the baffle bar moving groove 761, and then a plurality of partition walls are connected end to end.

After the partition walls are connected, hydraulic oil is filled in the support bars 75, the middle bars 77 and the top bars in advance, the hydraulic tank 74 at the top of the C-shaped column 72 is filled with hydraulic oil, when the adjacent partition wall is extruded, the i-shaped column 73 can twist along the rotating shaft 734 in the C-shaped column 72 (as understood as the i-shaped column 73 swings up and down along the rotating shaft 734 in the C-shaped column 72 in fig. 5), at the moment, the middle bars 77 are subjected to negative pressure when being twisted and extruded (the upper and lower middle bars 77 are not communicated independently), and excessive pressure is generated when the middle bars 77 are subjected to excessive pressure (as understood, because the two middle bars 77 are relatively long in length, a large amount of hydraulic pressure in the middle bars 77 can be transferred when the long extrusion plate 732 is extruded slightly due to inclination change), when the middle strip 77 is negative in pressure, hydraulic oil in the hydraulic tank 74 is supplemented from the one-way valve 741 to enter the middle strip 77, when the middle strip 77 is over-pressurized, hydraulic oil in the middle strip 77 enters the supporting strips 75 (the two supporting strips 75 are communicated with each other as in the figure 2) through the one-way extrusion pump 771 (the principle of the one-way extrusion pump 771 is similar to that of a manual hydraulic pump), so that when the joint of the adjacent partition walls is manually extruded and pivoted (loosened) each time, the pressure in the supporting strips 75 is increased once, the joint of the adjacent partition walls is more compact, and the problems that when a plurality of partition walls are connected in the past, the joint of the partition walls is pivoted after a long time, the joint of the partition walls is unstable due to ageing of adhesive tapes are solved.

In addition, a spacer 76 which can move left and right is provided between the bottom plate 733 of the i-shaped column 73 and the C-shaped column 72, so that the support bar 75 is guided and supported on the one hand, and the torsion movement of the i-shaped column 73 is not limited.

In addition, after the partition walls are installed, the splicing screws 731 are extruded and hidden between the I-shaped columns 73 and the C-shaped columns 72 by the middle strips 77, so that a certain anti-theft and anti-disassembly effect is achieved.

In one embodiment of the application, as shown in fig. 6-12, the assembled partition wall of the application further comprises a vertical push-pull mechanism 4 arranged between the two uprights 3, the vertical push-pull mechanism 4 comprising an upper push-pull plate 41, a lower push-pull plate 44 and a push-pull motherboard 43.

Wherein, push-and-pull mother board 43 sets up between two stand 3, and upper push-and-pull board 41 and lower push-and-pull board 44 can push and pull from top to bottom and set up in push-and-pull mother board 43 inboard, are provided with synchronous traction assembly 47 between push-and-pull mother board 43 and upper push-and-pull board 41 and the lower push-and-pull board 44, and synchronous traction assembly 47 includes extension spring 471, fixed pulley 472, haulage rope 473 and electric putter 48.

The fixed pulley 472 is disposed inside the push-pull motherboard 43, the traction rope 473 is wound on the fixed pulley 472, one end of the traction rope 473 is connected with the bottom of the upper push-pull board 41, the other end of the traction rope 473 is connected with one end of the tension spring 471, the other end of the tension spring 471 is connected with the top of the lower push-pull board 44, the electric push rod 48 is disposed inside the push-pull motherboard 43, and a power shaft of the electric push rod 48 is connected with the lower push-pull board 44.

Specifically, when ventilation is required, as shown in fig. 6 and 10, the electric push rod 48 is contracted to drive the lower push-pull plate 44 to move upwards, and meanwhile, since the lower push-pull plate 44 is connected with the upper push-pull plate 41 by bypassing the fixed pulley 472 through the traction rope 473, the upper push-pull plate 41 moves downwards synchronously, the upper push-pull plate 41 and the lower push-pull plate 44 are accommodated in the push-pull mother plate 43, and two upper and lower ventilation openings are formed on the upper and lower sides of the push-pull mother plate 43.

When the room is more stuffy, the air is discharged to the outside through the upper vent, and the outdoor relatively cool air is introduced into the room from the lower vent, so that the indoor and outdoor air are circulated, and the indoor ventilation and cooling effects are achieved.

In one embodiment of the present application, as shown in fig. 6 to 12, a motherboard adjusting component 5 for adjusting the position of the push-pull motherboard 43 up and down is provided between the push-pull motherboard 43 and the two upright posts 3, the motherboard adjusting component 5 comprises a screw 52, a screw seat 521 and a screw motor 53, wherein the screw motor 53 is provided inside the ceiling grid 1, a power shaft of the screw motor 53 is connected with the screw 52, the screw seat 521 is provided at one side of the push-pull motherboard 43, and the screw 52 threads through the screw seat 521.

The side of the push-pull mother plate 43 facing away from the screw 52 is provided with a mother plate locking assembly 45, and the mother plate locking assembly 45 comprises a lock pin 451 and a positioning tooth groove 452, wherein the positioning tooth groove 452 is arranged on the upright 3, and the lock pin 451 is mutually matched with the positioning tooth groove 452.

Wherein the lock pin 451 is an electric lock, an unlocking controller is arranged on the push-pull motherboard 43, the unlocking controller is electrically connected with the lock pin 451, the upright post 3 is hinged with a protection folded plate 31, a folded plate bayonet lock 311 is arranged between the protection folded plate 31 and the earthworm bone 2, a rotatable guide guard plate 51 is arranged outside the screw 52, and a handle 431 is arranged on the push-pull motherboard 43 for conveniently opening the push-pull motherboard 43.

Specifically, as shown in connection with fig. 1, 7-10, when it is desired to fully open the entire fabricated partition wall (e.g., to facilitate access to a number of large items), the operations according to the above embodiments first stow the upper and lower push-pull panels 41, 44 into the push-pull motherboard 43, then open the flap bayonet 311, then open the protective flap 31, drag the push-pull motherboard 43 outwardly through the handle 431, and rotate the push-pull motherboard 43 open along the screw 52 (similar to rotating a switch door).

When the height of the housed push-pull mother board 43 needs to be adjusted up and down (it can be understood that the push-pull mother board 43 mainly plays roles of shielding and privacy), firstly, the unlocking controller controls the lock pin 451 to be separated from the positioning tooth slot 452, then the screw motor 53 drives the screw 52 to rotate, the screw 52 and the screw seat 521 with internal threads move relatively downwards, the upper and lower heights of the push-pull mother board 43 are adjusted, and after the heights are adjusted, the lock pin 451 is reinserted into the positioning tooth slot 452 to lock the left side of the push-pull mother board 43.

In one embodiment of the present application, as shown in fig. 2, the inside of the upper push-pull plate 41 and the inside of the lower push-pull plate 44 are both in a vacuum pumping structure, the bottom of the upper push-pull plate 41 and the top of the lower push-pull plate 44 are both provided with a limiting pull block 411, the bottom of the upper push-pull plate 41 is connected with one end of a traction rope 473 through the limiting pull block 411, and the top of the lower push-pull plate 44 is connected with a tension spring 471 through the limiting pull block 411.

Specifically, after the height of the push-pull motherboard 43 is adjusted, due to the change of the vertical position of the push-pull motherboard 43, when the upper push-pull board 41 reaches the ceiling position first, the pull rope 473 is tightened, but the lower push-pull board 44 does not reach the bottommost part yet, at this time, the lower push-pull board 44 continues to pull the tension spring 471 to deform, so that the lower push-pull board 44 still can smoothly descend to the bottommost point under the condition of the height adjustment of the push-pull motherboard 43.

The pull block can also play a role in receiving the pulling force of the pulling rope 473 and limiting the movement of the upper push-pull plate 41 and the lower push-pull plate 44.

In one embodiment of the present application, as shown in fig. 2, 11 and 12, a foot pedal 441 is disposed on the lower push-pull plate 44, and a storage box 42 is disposed on top of the upper push-pull plate 41, where an opening of the storage box 42 faces upward.

Specifically, as shown in fig. 11, a storage box 42 is disposed at the top of the upper push-pull plate 41, the opening of the storage box 42 faces upwards, when the upper push-pull plate 41 is completely closed with the ceiling, the storage box 42 is closed, and the storage box 42 is located higher at this time, so that some secret files can be stored.

As shown in fig. 12, when the storage box 42 needs to be removed, the upper push-pull plate 41 and the lower push-pull plate 44 are stored into the push-pull mother plate 43 according to the above operation, at this time, the upper push-pull plate 41 is lowered, then the foot pedal 441 is opened, and a person stands on the foot pedal 441, and can take out the articles in the storage box 42 smoothly with help of the handle 431.

In one embodiment of the present application, as shown in fig. 2, a shutter assembly 46 is disposed on one side of the push-pull motherboard 43, and the shutter assembly 46 includes a shutter 461, a shutter 462, and a shutter motor 463, wherein the shutter 461 is a transparent and internal vacuum-pumping structure, the shutter 462 is disposed inside the shutter 461, and a power shaft of the shutter motor 463 is connected with the shutter 462.

Specifically, the shutter plate 462 is opened or closed under the driving action of the shutter motor 463, and the upper push-pull plate 41, the lower push-pull plate 44 and the shielding plate 461 are all in a vacuum-pumping and transparent structure, so that a sound insulation effect is achieved.

In summary, the assembly type partition wall of the embodiment of the application has the advantages that the assembly mechanism is added, the pressure in the supporting bar is increased once when the joints of the adjacent partition walls are extruded each other, so that the joints of the adjacent partition walls are more compact, the metal stress extrusion deformation of the joints is reduced, the joints between the partition walls are more stable, and the trafficability and ventilation effect of the partition walls are improved by adding the vertical push-pull mechanism.

In the description of this specification, the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" means at least two, for example, two, three, etc., unless specifically defined otherwise.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. In this specification, schematic representations of the above terms are not necessarily directed to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

While embodiments of the present application have been shown and described above, it will be understood that the above embodiments are illustrative and not to be construed as limiting the application, and that variations, modifications, alternatives, and variations may be made to the above embodiments by one of ordinary skill in the art within the scope of the application.

Claims

1. The utility model provides an assembled partition wall, includes sky fossil fragments (1), two stand (3) and earthworm bone (2), wherein, sky fossil fragments (1) and earthworm bone (2) set up respectively at the upper and lower both ends of two stand (3), rectangle frame structure, its characterized in that are enclosed jointly to sky fossil fragments (1), earthworm bone (2) and two stand (3):

the assembly mechanism (7) for assembling and connecting a plurality of partition walls end to end is arranged on each upright (3), each assembly mechanism (7) comprises a spliced mother board (71) and a spliced male board assembly (79), each spliced male board assembly (79) comprises a C-shaped column (72) and an I-shaped column (73), each spliced mother board (71) is arranged on one upright (3), each C-shaped column (72) is arranged on the other upright (3), an I-shaped column movable groove (721) is formed in the inner side of each C-shaped column (72), and each I-shaped column (73) is pivotably arranged in each I-shaped column movable groove (721);

the top of the I-shaped column (73) is provided with a squeezing plate (732), the bottom of the I-shaped column (73) is provided with a bottom plate (733), an intermediate strip (77) is arranged between the squeezing plate (732) and the I-shaped column movable groove (721), and a supporting strip (75) is arranged between the bottom plate (733) and the C-shaped column (72);

the middle strip (77) and the support strip (75) are of hollow structures, a hydraulic tank (74) is arranged at the top of the C-shaped column (72), a one-way valve (741) is arranged between the hydraulic tank (74) and the middle strip (77), and a one-way extrusion pump (771) is arranged between the middle strip (77) and the support strip (75); when extrusion occurs at the joint of adjacent partition walls, the I-shaped column (73) is twisted in the C-shaped column (72), at the moment, the middle strip (77) is subjected to negative pressure and overpressure when being twisted and extruded, hydraulic oil in the hydraulic tank (74) is supplemented into the middle strip (77) from the one-way valve (741) when the middle strip (77) is subjected to negative pressure, and hydraulic oil in the middle strip (77) is fed into the supporting strip (75) from the one-way extrusion pump (771) when the middle strip (77) is subjected to overpressure, so that the adjacent partition walls are connected more tightly.

2. The fabricated partition wall according to claim 1, wherein the middle strip (77) is provided with two strips, two sides of the extrusion plate (732) are provided with extrusion lugs, and the two middle strips (77) are respectively arranged at inner sides of the extrusion lugs at two sides of the extrusion plate (732);

the bottom plate (733) is provided with concatenation screw (731) in a penetrating way, concatenation screw (731) is connected with concatenation mother board (71) screw thread adaptation, run through in stripper plate (732) and be provided with rotation axis (734).

3. The fabricated partition wall according to claim 1, wherein a movable adhesive tape (78) for pivotally moving the i-shaped column (73) is arranged at a C-shaped notch of the C-shaped column (72), barrier strip movable grooves (761) are formed in both the C-shaped column (72) and the bottom plate (733), barrier strips (76) are movably arranged in the barrier strip movable grooves (761), and the supporting strips (75) are arranged on the inner sides of the barrier strips (76).

4. The fabricated partition wall according to claim 1, further comprising a vertical push-pull mechanism (4) arranged between the two uprights (3), the vertical push-pull mechanism (4) comprising an upper push-pull plate (41), a lower push-pull plate (44) and a push-pull motherboard (43), wherein,

the push-pull mother plate (43) is arranged between the two upright posts (3), the upper push-pull plate (41) and the lower push-pull plate (44) can be arranged on the inner side of the push-pull mother plate (43) in an up-down push-pull manner, a synchronous traction assembly (47) is arranged between the push-pull mother plate (43) and the upper push-pull plate (41) and the lower push-pull plate (44), the synchronous traction assembly (47) comprises a tension spring (471), a fixed pulley (472), a traction rope (473) and an electric push rod (48),

the fixed pulley (472) is arranged inside the push-pull mother board (43), the traction rope (473) is wound on the fixed pulley (472), one end of the traction rope (473) is connected with the bottom of the upper push-pull board (41), the other end of the traction rope (473) is connected with one end of a tension spring (471), the other end of the tension spring (471) is connected with the top of the lower push-pull board (44), the electric push rod (48) is arranged inside the push-pull mother board (43), and a power shaft of the electric push rod (48) is connected with the lower push-pull board (44).

5. The fabricated partition wall according to claim 4, wherein a motherboard adjusting assembly (5) for adjusting the position of the push-pull motherboard (43) up and down is provided between the push-pull motherboard (43) and the two upright posts (3), the motherboard adjusting assembly (5) comprising a screw (52), a wire holder (521) and a screw motor (53), wherein,

the screw motor (53) is arranged inside the ceiling joist (1), a power shaft of the screw motor (53) is connected with the screw (52), the screw seat (521) is arranged on one side of the push-pull motherboard (43), and threads of the screw (52) penetrate through the screw seat (521).

6. The fabricated partition wall according to claim 5, wherein a side of the push-pull motherboard (43) facing away from the screw (52) is provided with a motherboard locking assembly (45), the motherboard locking assembly (45) comprising a locking pin (451) and a positioning slot (452), wherein the positioning slot (452) is provided on the upright (3), the locking pin (451) and the positioning slot (452) being mutually adapted.

7. The fabricated partition wall according to claim 6, wherein the locking pin (451) is an electric lock, and the push-pull motherboard (43) is provided with an unlocking controller, and the unlocking controller is electrically connected with the locking pin (451);

the stand (3) is hinged to be provided with protection folded plate (31), be provided with folded plate bayonet lock (311) between protection folded plate (31) and earthworm bone (2), the outside of screw rod (52) is provided with rotatable direction backplate (51).

8. The fabricated partition wall according to claim 4, wherein a foot pedal (441) is provided on the lower push-pull plate (44), a storage box (42) is provided on top of the upper push-pull plate (41), and an opening of the storage box (42) faces upwards;

the bottom of the ceiling joist (1) is provided with a circulating fan (6).

9. The fabricated partition wall according to claim 4, wherein the insides of the upper push-pull plate (41) and the lower push-pull plate (44) are of a vacuumizing structure, a limiting pull block (411) is arranged at the bottom of the upper push-pull plate (41) and at the top of the lower push-pull plate (44), the bottom of the upper push-pull plate (41) is connected with one end of a traction rope (473) through the limiting pull block (411), and the top of the lower push-pull plate (44) is connected with a tension spring (471) through the limiting pull block (411).

10. The fabricated partition wall according to claim 4, wherein a shielding assembly (46) is provided on one side of the push-pull motherboard (43), the shielding assembly (46) comprises a shielding plate (461), a shutter plate (462) and a shutter motor (463), wherein the shielding plate (461) is of a transparent and internal vacuumizing structure, the shutter plate (462) is arranged inside the shielding plate (461), and a power shaft of the shutter motor (463) is connected with the shutter plate (462).