CN113981940B

CN113981940B - Assembled geotechnique's check room

Info

Publication number: CN113981940B
Application number: CN202111330763.9A
Authority: CN
Inventors: 赵双; 程玮; 岳朝辉
Original assignee: Anhui Zhonglu Engineering Materials Co ltd
Current assignee: Anhui Zhonglu Engineering Materials Co ltd
Priority date: 2021-11-11
Filing date: 2021-11-11
Publication date: 2023-04-07
Anticipated expiration: 2041-11-11
Also published as: CN113981940A

Abstract

The invention discloses an assembled geocell, which comprises a first cell, a second cell, a third cell and a fourth cell, wherein the first cell, the second cell, the third cell and the fourth cell are the same in shape and size and/or different in size. According to the invention, the movable rod is moved out of the rotating sleeve by rotating the rotating sleeve and the spiral effect of the rotating sleeve and the movable rod until the end parts of the movable rods of the two connecting devices are contacted with each other, the rubber sleeve can be sleeved at the joint of the two movable rods, the end parts of the two movable rods are prevented from being staggered, the rotating sleeve is continuously rotated, the distance between the two connecting devices is limited by the extending length of the two movable rods, and the volumes of the central spaces of the first cell, the second cell, the third cell, the fourth cell and the four cells are further changed under the matching of the second screw cap, the first frame plate and the second frame plate, so that the whole geocell can be adapted to the building requirements of different working conditions, and the whole geocell is convenient to install.

Description

Assembled geotechnique's check room

Technical Field

The invention belongs to the technical field of building materials, and particularly relates to an assembled geocell.

Background

The geocell is a three-dimensional reticular cell structure formed by high-strength welding of reinforced HDPE sheet materials, is generally formed by ultrasonic needle type welding, and some of the geocell are punched on a membrane according to engineering requirements.

The geocell structure that prior art adopted is comparatively fixed, can not select the geocell structure of adaptation according to the construction area of different earth's surfaces, and traditional geocell structure scope is comparatively single to the storage occupation space is big, lacks the flexibility of structural arrangement, and the installation is used inconveniently.

Therefore, there is a need for an assembled geocell to solve the above problems.

Disclosure of Invention

In view of the above problems, the present invention provides an assembled geocell to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: an assembled geocell comprises a first cell, a second cell, a third cell and a fourth cell, wherein the first cell, the second cell, the third cell and the fourth cell are the same in shape and size and/or different in size, the first cell and the second cell are fixedly connected through a connecting device, and the third cell and the fourth cell are also fixedly connected through a connecting device;

the first grid chamber, the second grid chamber, the third grid chamber and the fourth grid chamber are all composed of a first grid plate and a second grid plate, the first grid plate of the first grid chamber is correspondingly attached to the second grid plate of the third grid chamber through an adjusting device, and the first grid plate of the second grid chamber is correspondingly attached to the second grid plate of the fourth grid chamber through an adjusting device.

Further, adjusting device includes first card frame and second card frame, first card frame is cup jointed on first check board surface, second card frame is cup jointed on second check board surface, first card frame and second card frame all set up to half opening square frame structure, and the opening of first card frame and second card frame corresponds the setting, first check board and second check board are in between first card frame and the second card frame.

Furthermore, first card frame side center department through connection has a restriction pole, the restriction pole runs through first check board, second check board and second card frame side center department in proper order, first nut is all cup jointed at restriction pole both ends, and two first nuts are in the first card frame and the second card frame outside respectively.

Furthermore, strip grooves are formed in the centers of the inner sides of the first grating plate and the second grating plate, connecting plates are arranged at two ends of the first grating plate and two ends of the second grating plate, and the thicknesses of the first grating plate and the second grating plate are equal to the lengths of the strip grooves;

the limiting rod penetrates through the strip grooves of the first grid plate and the second grid plate.

Furthermore, connecting device includes the frame, frame both sides limit all is provided with the draw-in groove, inside four connecting plate tip half-and-half are in the draw-in groove of frame both sides, and the connecting plate of two first check boards corresponds the setting each other, and the connecting plate of two second check boards corresponds the setting each other.

Furthermore, the end surfaces of the connecting plates are attached to the circumferential side surface of the central column, the central column is positioned on the inner side of the outer frame, and two ends of the central column are respectively integrated with two side walls on the inner side of the outer frame;

two movable rods are arranged on the central line of the outer frame, the movable rods are positioned in the central column, the outer side ends of the movable rods penetrate through the two side ends of the outer frame, the two side ends of the outer frame are rotatably connected with rotating sleeves, and the rotating sleeves are in threaded connection with the movable rods.

Further, connecting plate both sides are provided with first frame plate and second frame plate respectively, and first frame plate and second frame plate all cup joint at the center post surface, and just first frame plate and second frame plate all pass through draw-in groove and center post sliding connection, first frame plate and second frame plate outside all are provided with the second nut, second nut and center post threaded connection.

Further, the top surface and the bottom surface of first frame plate and second frame plate all are provided with the nose bar, the inside spout that corresponds the matching with the nose bar that is provided with of draw-in groove, first frame plate and second frame plate all through nose bar and spout sliding connection.

The invention has the technical effects and advantages that:

1. according to the invention, the movable rod is moved out of the rotating sleeve by rotating the rotating sleeve and the spiral effect of the rotating sleeve and the movable rod until the ends of the movable rods of the two connecting devices are contacted with each other, the rubber sleeve can be sleeved at the joint of the two movable rods, the end parts of the two movable rods are prevented from being staggered, the rotating sleeve is continuously rotated, the distance between the two connecting devices is limited by the extending length of the two movable rods, and the volumes of the first grid chamber, the second grid chamber, the third grid chamber, the fourth grid chamber and the central space of the four grid chambers are further changed under the matching of the second nut, the first frame plate and the second frame plate, so that the whole geocell can adapt to the building requirements of different working conditions, and the whole geocell is convenient to install.

2. According to the invention, one group of second nuts are rotated, one group of second nuts can drive the connecting plate of the first grid plate to slide in the clamping groove through the first frame plate and the second frame plate, the other group of second nuts can drive the connecting plate of the second grid plate to slide in the clamping groove through the first frame plate and the second frame plate, the space between the first grid plate and the second grid plate can be properly adjusted according to the building requirements, and the distance between the connecting plate at the end part of the first grid plate and the connecting plate at the end part of the second grid plate can be adjusted through the mutual matching of the second nuts, the first frame plate and the second frame plate, so that the purpose of adjusting the space between the first grid plate and the second grid plate is achieved, and the appearances of the first grid chamber, the second grid chamber, the third grid chamber and the fourth grid chamber can be adjusted at will according to the actual working condition.

3. According to the invention, the positions of the first clamping frame and the second clamping frame on the surfaces of the first grid plate and the second grid plate are adjusted, so that the central positions of the first grid chamber and the third grid chamber as well as the central positions of the second grid chamber and the fourth grid chamber are relatively determined, and then the first grid chamber, the second grid chamber, the third grid chamber and the fourth grid chamber with different and/or same shapes are assembled together, so that the diversity of assembly and matching of the whole geocell is ensured, and the whole geocell is not limited to the same first grid chamber, second grid chamber, third grid chamber and fourth grid chamber.

4. According to the clamping device, when the first frame plate and the second frame plate slide on the inner sides of the clamping grooves, the first frame plate and the second frame plate stably slide in the sliding grooves through the convex rods, so that the first frame plate and the second frame plate are prevented from inclining in the sliding process, the inner side surfaces of the first frame plate and the second frame plate are always flush with the two side edges of the connecting plate correspondingly, and the clamping stabilizing effect of the first frame plate and the second frame plate on the connecting plate can be guaranteed through the spiral effect of the second nut and the central column.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and drawings.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 shows a schematic view of the overall structure of an assembled geocell according to an embodiment of the present invention;

fig. 2 shows a schematic view of an overall top-down cross-sectional structure of an assembled geocell of an embodiment of the invention;

FIG. 3 is a schematic diagram illustrating a combined structure of a first card frame and a second card frame according to an embodiment of the present invention;

FIG. 4 shows an enlarged view of the portion A of FIG. 2 according to an embodiment of the present invention;

FIG. 5 is a schematic diagram showing a cross-sectional structure of an outer frame according to an embodiment of the present invention;

in the figure: 1. a first cell; 2. a second cell; 3. a third cell; 4. a fourth cell; 5. a first grid; 6. a second grid; 7. a first card frame; 8. a second card frame; 9. a restraining bar; 10. a first nut; 11. a strip groove; 12. a connecting plate; 13. an outer frame; 14. a card slot; 15. a central column; 16. a movable rod; 17. rotating the sleeve; 18. a first frame plate; 19. a second frame plate; 20. a second nut; 21. a nose bar; 22. a chute.

Detailed description of the preferred embodiments

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present invention and simplicity in description, but do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first", "second", "third", "fourth" 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.

The invention provides an assembled geocell, which comprises a first cell 1, a second cell 2, a third cell 3 and a fourth cell 4, wherein the first cell 1, the second cell 2, the third cell 3 and the fourth cell 4 have the same and/or different shapes and sizes, the first cell 1 and the second cell 2 are fixedly connected through a connecting device, and the third cell 3 and the fourth cell 4 are also fixedly connected through a connecting device; the whole geocell needs to be assembled, and proper first cells 1, second cells 2, third cells 3 and fourth cells 4 are selected, wherein the first cells 1, the second cells 2, the third cells 3 and the fourth cells 4 can be the same or different, different first cells 1 and third cells 3 can be assembled together by using a connecting device, the same first cells 1 and third cells 3 can also be assembled together by using a connecting device, and the second cells 2 can also be assembled by using a connecting device.

The first cell 1, the second cell 2, the third cell 3 and the fourth cell 4 are all composed of a first grid 5 and a second grid 6, the first grid 5 of the first cell 1 is correspondingly jointed with the second grid 6 of the third cell 3 through an adjusting device, and the first grid 5 of the second cell 2 is correspondingly jointed with the second grid 6 of the fourth cell 4 through an adjusting device.

As shown in fig. 1-3, the adjusting device includes a first clamping frame 7 and a second clamping frame 8, the first clamping frame 7 is sleeved on the surface of the first grid plate 5, the second clamping frame 8 is sleeved on the surface of the second grid plate 6, the first clamping frame 7 and the second clamping frame 8 are both set to be a half-open square frame structure, the openings of the first clamping frame 7 and the second clamping frame 8 are correspondingly set, and the first grid plate 5 and the second grid plate 6 are located between the first clamping frame 7 and the second clamping frame 8. First card frame 7 side center department through connection has a restriction pole 9, restriction pole 9 runs through first check board 5,

second check board

6 and 8 side center departments of second card frame in proper order, first nut 10 is all cup jointed at restriction pole 9 both ends, and two first nuts 10 are in the first card frame 7 and the 8 outsides of second card frame respectively. Sleeving a first clamping frame 7 on the surface of a first grid plate 5 of a third grid chamber 3, sleeving a second clamping frame 8 on the surface of a second grid plate 6, enabling openings of the first clamping frame 7 and the second clamping frame 8 to correspond to each other, sequentially penetrating a limiting rod 9 through the first clamping frame 7, a strip groove 11 of the first grid plate 5 and the second grid plate 6 and the second clamping frame 8, and spirally sleeving a first screw cap 10 at two ends of the limiting rod 9; the first nut 10 is tightened, and the first clamping frame 7 and the second clamping frame 8 are tightly limited on the outer side surfaces of the first lattice plate 5 and the second lattice plate 6 by utilizing the spiral effect of the first nut 10 and the limiting rod 9. Can select suitable first card frame 7 and second card frame 8 according to the appearance of first check 5 and second check 6 for the whole geotechnological check room of cooperation that adjusting device can the adaptation makes things convenient for first check 1, second check 2, third check 3 and fourth check 4 to choose for use suitable first check 5 and second check 6.

In fig. 1-3, a strip groove 11 is arranged at the center of the inner side of each of the first grid plate 5 and the second grid plate 6, connecting plates 12 are arranged at both ends of each of the first grid plate 5 and the second grid plate 6, and the thickness of each of the first grid plate 5 and the second grid plate 6 is equal to the length of the strip groove 11; the limiting rod 9 extends through the grooves 11 of the first and

second panels

5, 6. The positions of the first clamping frame 7 and the second clamping frame 8 on the surfaces of the first grid 5 and the second grid 6 can be adjusted, the central positions of the first grid 1 and the third grid 3 and the central positions of the second grid 2 and the fourth grid 4 are correspondingly determined, and then the first grid 1, the second grid 2, the third grid 3 and the fourth grid 4 with different and/or same shapes are assembled together, so that the diversity of assembly matching of the whole geocell is ensured, and the whole geocell is not limited to the same first grid 1, second grid 2, third grid 3 and fourth grid 4.

As shown in fig. 4, the connecting device includes an outer frame 13, two side edges of the outer frame 13 are provided with slots 14, end portions of four connecting plates 12 are half-and-half located inside the slots 14 at two sides of the outer frame 13, the connecting plates 12 of the two first grids 5 are arranged correspondingly, and the connecting plates 12 of the two second grids 6 are arranged correspondingly. Rotating a set of second nut 20, a set of second nut 20 can drive the connecting plate 12 of first check board 5 inside draw-in groove 14 through first frame board 18 and second frame board 19, another group of second nut 20 can drive the connecting plate 12 of second check board 6 inside draw-in groove 14 through first frame board 18 and second frame board 19 and slide, can be according to the space between first check board 5 and the second check board 6 of the appropriate adjustment of building demand, through second nut 20, mutually supporting of first frame board 18 and second frame board 19, can adjust the distance between the connecting plate 12 of first check board 5 tip and the connecting plate 12 of second check board 6 tip, thereby reach the purpose of adjusting the space between first check board 5 and the second check board 6, make whole geocell can adapt to the building demand of different operating modes.

In fig. 4, the end surfaces of the connecting plates 12 are attached to the circumferential side surfaces of the central column 15, the central column 15 is located inside the outer frame 13, and two ends of the central column 15 are respectively integrated with two side walls inside the outer frame 13; connecting plate 12 tip is provided with the recess that corresponds the matching with center post 15, carry out the centre gripping to connecting plate 12 through first frame board 18 and second frame board 19, thereby prescribe a limit to connecting plate 12's terminal surface through center post 15 and recess cooperation, guarantee connecting plate 12 at the inside stability of connecting device, avoid

first check board

5 and 6 tip of second check board to rock in draw-in groove 14 inboard, and utilize first card frame 7, second card frame 8, the cooperation of gag lever post 9 and first nut 10, and then guarantee the stability of whole geocell, and then increase the bulk strength of whole geocell.

Two movable rods 16 are arranged on the central line of the outer frame 13, the movable rods 16 are positioned inside the central column 15, the outer side ends of the movable rods 16 penetrate through the two side ends of the outer frame 13, the two side ends of the outer frame 13 are rotatably connected with rotating sleeves 17, and the rotating sleeves 17 are in threaded connection with the movable rods 16. The rotating sleeve 17 is rotated, the movable rod 16 is moved out from the inside of the rotating sleeve 17 by the spiral effect of the rotating sleeve 17 and the movable rod 16 until the ends of the movable rods 16 of the two connecting devices are contacted with each other, a rubber sleeve can be sleeved at the joint of the two movable rods 16, the ends of the two movable rods 16 are prevented from being staggered with each other, the rotating sleeve 17 is continuously rotated, the distance between the two connecting devices is limited by the extending length of the two movable rods 16, and the volumes of the central spaces of the first grid chamber 1, the second grid chamber 2, the third grid chamber 3, the fourth grid chamber 4 and the four grid chambers are further changed under the matching of the second screw cap 20, the first frame plate 18 and the second frame plate 19, so that the whole geocell can be adapted to the building requirements of different working conditions.

In fig. 4 and 5, a first frame plate 18 and a second frame plate 19 are respectively arranged on two sides of the connecting plate 12, the first frame plate 18 and the second frame plate 19 are both sleeved on the surface of the center post 15, the first frame plate 18 and the second frame plate 19 are both slidably connected with the center post 15 through a clamping groove 14, second screw nuts 20 are respectively arranged on the outer sides of the first frame plate 18 and the second frame plate 19, and the second screw nuts 20 are in threaded connection with the center post 15. The top surface and the bottom surface of first frame plate 18 and second frame plate 19 all are provided with nose bar 21, draw-in groove 14 is inside to be provided with the spout 22 that corresponds the matching with nose bar 21, and first frame plate 18 and second frame plate 19 all pass through nose bar 21 and spout 22 sliding connection. First frame plate 18 and second frame plate 19 are when draw-in groove 14 inboard slides, and first frame plate 18 and second frame plate 19 are all through the inside stable slip of nose bar 21 at spout 22, avoid first frame plate 18 and second frame plate 19 the situation that the slope appears at gliding in-process for first frame plate 18 and second frame plate 19 medial surface correspond with connecting plate 12 both sides limit all the time and flush, through the spiral effect of second nut 20 with center post 15, can guarantee first frame plate 18 and second frame plate 19 and stabilize the effect to the centre gripping of connecting plate 12.

The working principle of the invention is as follows:

referring to the attached drawings 1-4 of the specification, before the whole geocell is used, the whole geocell needs to be assembled, and proper first cells 1, second cells 2, third cells 3 and fourth cells 4 are selected, wherein the first cells 1, the second cells 2, the third cells 3 and the fourth cells 4 can be the same or different, different first cells 1 and third cells 3 can be assembled together by using connecting devices, the same first cells 1 and third cells 3 can also be assembled together, and the second cells 2 can also be assembled by using connecting devices.

When the first grid chamber 1 and the third grid chamber 3 need to be limited, the first clamping frame 7 is sleeved on the surface of the first grid plate 5 of the third grid chamber 3, the second clamping frame 8 is sleeved on the surface of the second grid plate 6, openings of the first clamping frame 7 and the second clamping frame 8 correspond to each other, the limiting rod 9 sequentially penetrates through the strip grooves 11 of the first clamping frame 7, the first grid plate 5 and the second grid plate 6 and the second clamping frame 8, the first screw cap 10 is spirally sleeved at two ends of the limiting rod 9, after the first clamping frame 1, the second grid chamber 2, the third grid chamber 3 and the fourth grid chamber 4 are assembled with each other, the first clamping frame 7 and the second clamping frame 8 are pushed to slide on the surfaces of the first grid plate 5 and the second grid plate 6, at the moment, the first clamping frame 7 and the second clamping frame 8 both slide inside the strip grooves 11 through the limiting rod 9 until the first clamping frame 7 and the second clamping frame 8 run to the outer side surfaces of the first grid plate 5 and the second grid plate 6, the first clamping frame 7 and the second clamping frame 8 are screwed tightly by the limiting rod 9, and the first clamping rod 9 are tightly screwed on the outer side of the first grid plate 6, and the second clamping frame 6, and the first clamping rod 9. The second cell 2 and the fourth cell 4 can be defined according to the procedure described above.

The positions of the first clamping frame 7 and the second clamping frame 8 on the surfaces of the first grid plate 5 and the second grid plate 6 can be adjusted, the central positions of the first grid chamber 1 and the third grid chamber 3 and the central positions of the second grid chamber 2 and the fourth grid chamber 4 are relatively determined, and then the first grid chamber 1, the second grid chamber 2, the third grid chamber 3 and the fourth grid chamber 4 with different and/or same shapes are assembled together, so that the diversity of assembly matching of the whole geocell is ensured, and the whole geocell is not limited to the same first grid chamber 1, second grid chamber 2, third grid chamber 3 and fourth grid chamber 4.

The first grid chamber 1 and the second grid chamber 2 are connected through a connecting device, one side connecting plate 12 of the first grid plate 5 and one side connecting plate 12 of the second grid plate 6 of the first grid chamber 1 are inserted into the clamping groove 14 on one side of the outer frame 13, one side connecting plate 12 of the first grid plate 5 and one side connecting plate 12 of the second grid plate 6 of the second grid chamber 2 are inserted into the clamping groove 14 on the other side of the outer frame 13, the end part of the connecting plate 12 is attached to the surface of the center post 15, the first frame plate 18 and the second frame plate 19 are pushed to move, one group of the first frame plate 18 and the second frame plate 19 are respectively clamped on two sides of the connecting plate 12 on the end part of the two first grid plates 5, the other group of the first frame plate 18 and the second frame plate 19 are respectively clamped on two sides of the connecting plate 12 on the end part of the two second grid plates 6, the second nut 20 is rotated, and the two groups of the first frame plate 18 and the second frame plate 19 are limited through the two groups of the second nut 20.

First frame plate 18 and second frame plate 19 are when draw-in groove 14 inboard slides, and first frame plate 18 and second frame plate 19 are all through the inside stable slip of nose bar 21 at spout 22, avoid first frame plate 18 and second frame plate 19 the situation that the slope appears at gliding in-process for first frame plate 18 and second frame plate 19 medial surface correspond with connecting plate 12 both sides limit all the time and flush, through the spiral effect of second nut 20 with center post 15, can guarantee first frame plate 18 and second frame plate 19 and stabilize the effect to the centre gripping of connecting plate 12.

Rotating a set of second nut 20, a set of second nut 20 can drive the connecting plate 12 of first check board 5 inside draw-in groove 14 through first frame board 18 and second frame board 19, another group of second nut 20 can drive the connecting plate 12 of second check board 6 inside draw-in groove 14 through first frame board 18 and second frame board 19 and slide, can be according to the space between first check board 5 and the second check board 6 of the appropriate adjustment of building demand, through second nut 20, mutually supporting of first frame board 18 and second frame board 19, can adjust the distance between the connecting plate 12 of first check board 5 tip and the connecting plate 12 of second check board 6 tip, thereby reach the purpose of adjusting the space between first check board 5 and the second check board 6, make whole geocell can adapt to the building demand of different operating modes.

When the distance between two connecting devices needs to be adjusted, the rotating sleeve 17 is rotated, the movable rod 16 is moved out of the rotating sleeve 17 due to the spiral effect of the rotating sleeve 17 and the movable rod 16 until the ends of the movable rods 16 of the two connecting devices are contacted with each other, the rubber sleeve can be sleeved at the joint of the two movable rods 16 to prevent the ends of the two movable rods 16 from being staggered with each other, the rotating sleeve 17 continues to be rotated, the distance between the two connecting devices is limited by the extending length of the two movable rods 16, and the volumes of the central spaces of the first grid 1, the second grid 2, the third grid 3, the fourth grid 4 and the four grids are further changed under the matching of the second nut 20, the first frame plate 18 and the second frame plate 19, so that the whole geocell can be adapted to the building requirements of different working conditions, and the whole geocell is convenient to install.

Although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. An assembled geocell, comprising: the device comprises a first grid chamber (1), a second grid chamber (2), a third grid chamber (3) and a fourth grid chamber (4), wherein the first grid chamber (1), the second grid chamber (2), the third grid chamber (3) and the fourth grid chamber (4) are identical and/or different in shape and size, the first grid chamber (1) is fixedly connected with the second grid chamber (2) through a connecting device, and the third grid chamber (3) is fixedly connected with the fourth grid chamber (4) through a connecting device;

the first grid chamber (1), the second grid chamber (2), the third grid chamber (3) and the fourth grid chamber (4) are formed by a first grid plate (5) and a second grid plate (6), the first grid plate (5) of the first grid chamber (1) is correspondingly attached to the second grid plate (6) of the third grid chamber (3) through an adjusting device, and the first grid plate (5) of the second grid chamber (2) is correspondingly attached to the second grid plate (6) of the fourth grid chamber (4) through an adjusting device;

the connecting device comprises an outer frame (13), connecting plates (12) are arranged at two ends of the first grating (5) and the second grating (6), clamping grooves (14) are arranged at two side edges of the outer frame (13), the end parts of the four connecting plates (12) are half-and-half positioned in the clamping grooves (14) at two sides of the outer frame (13), the connecting plates (12) of the two first gratings (5) are arranged correspondingly to each other, and the connecting plates (12) of the two second gratings (6) are arranged correspondingly to each other;

the end surfaces of the connecting plates (12) are attached to the circumferential side surfaces of the central columns (15), the central columns (15) are positioned on the inner sides of the outer frames (13), and the two ends of each central column (15) are respectively integrated with the two side walls on the inner sides of the outer frames (13);

two movable rods (16) are arranged on the central line of the outer frame (13), the movable rods (16) are positioned in the central column (15), the outer side ends of the movable rods (16) penetrate through the two side ends of the outer frame (13), the two side ends of the outer frame (13) are rotatably connected with rotating sleeves (17), and the rotating sleeves (17) are in threaded connection with the movable rods (16);

the improved structure of the automobile seat is characterized in that a first frame plate (18) and a second frame plate (19) are arranged on two sides of the connecting plate (12) respectively, the first frame plate (18) and the second frame plate (19) are sleeved on the surface of the center column (15), the first frame plate (18) and the second frame plate (19) are connected with the center column (15) in a sliding mode through clamping grooves (14), second screw caps (20) are arranged on the outer sides of the first frame plate (18) and the second frame plate (19), and the second screw caps (20) are in threaded connection with the center column (15).

2. The assembled geocell of claim 1, wherein:

adjusting device includes first card frame (7) and second card frame (8), first card frame (7) is cup jointed on first check board (5) surface, second card frame (8) is cup jointed on second check board (6) surface, first card frame (7) and second card frame (8) all set up to half open-ended square frame structure, and the opening of first card frame (7) and second card frame (8) corresponds the setting, first check board (5) and second check board (6) are in between first card frame (7) and second card frame (8).

3. The assembled geocell of claim 2, wherein:

first card frame (7) side center department through connection has limit pole (9), limit pole (9) run through first check board (5), second check board (6) and second card frame (8) side center department in proper order, first nut (10) are all cup jointed at limit pole (9) both ends, and two first nut (10) are in first card frame (7) and second card frame (8) outside respectively.

4. The assembled geocell of claim 3, wherein:

the centers of the inner sides of the first grid plate (5) and the second grid plate (6) are respectively provided with a strip groove (11), and the thicknesses of the first grid plate (5) and the second grid plate (6) are equal to the length of the strip groove (11);

the limiting rod (9) penetrates through the strip grooves (11) of the first grid plate (5) and the second grid plate (6).

5. The assembled geocell of claim 1, wherein:

protruding rods (21) are arranged on the top surface and the bottom surface of the first frame plate (18) and the second frame plate (19), sliding grooves (22) which are correspondingly matched with the protruding rods (21) are formed in the clamping grooves (14), and the first frame plate (18) and the second frame plate (19) are connected with the sliding grooves (22) in a sliding mode through the protruding rods (21).