CN216305262U - Slot floor elevated structure - Google Patents

Abstract

The utility model provides a wire groove floor overhead structure, which comprises a strip-shaped floor main body and an adjusting foot for supporting a bottom plate main body, and is characterized in that: the middle part of the floor main body is downwards sunken to form a wiring groove along the length direction of the floor main body and a lower convex part integrated with the wiring groove; the floor main body is provided with a connecting hole, the adjusting foot comprises a supporting plate and a connecting rod, the connecting rod penetrates through the connecting hole, and the supporting plate supports the floor main body from the lower part. This overhead structure need not additionally to set up the wire casing module and fix wire casing module and floor main body with wire casing and floor main body integrated into one piece, makes the work progress more high-efficient, and because overhead structure only comprises the regulation foot of below and the floor main body of top, overall structure's the also simpler of making level, lays the structural flatness and the structural stability after accomplishing also stronger.

Description

Slot floor elevated structure

Technical Field

The utility model relates to a slot floor overhead structure, and belongs to the technical field of architectural decoration.

Background

As more and more electronic devices are required in modern life, the amount of power lines, data lines, and the like is also increasing. Usually, these lines are buried in walls or floors, and in order to provide space for burying these lines and facilitate construction, people often use a slotted floor as a ground base layer, and wiring channels are arranged between floor units, so that power lines, data lines and the like are buried in the wiring channels and then surface-covered.

Existing trunking floors are typically assembled from three relatively independent structures: the floor comprises supporting legs positioned below, floor main bodies above the supporting legs and wire grooves arranged between adjacent floor main bodies, for example, a network floor with wire grooves disclosed in the patent document with the application number of CN200620073223.1 and a network movable floor with wire grooves disclosed in the patent document with the application number of CN200520074494.4, wherein in the assembling process of the floor, the floor main bodies, the supporting legs and the wire grooves are required to be respectively fixed, the operation is complicated, one wire groove is required to be respectively fixedly installed with two floor main bodies positioned on two sides, the construction difficulty is further increased, meanwhile, certain troubles are caused in leveling and aligning among plates, and the flatness of the whole structure is influenced.

SUMMERY OF THE UTILITY MODEL

The terms of orientation of up, down, left, right, front, back, top, bottom, and the like as referred to or as may be referred to in this specification are defined with respect to the configuration shown in the drawings, and the terms "inner" and "outer" refer to directions toward and away from the geometric center of a particular component, respectively, which are relative terms, and thus may be changed accordingly depending on the position and the use state of the particular component. Therefore, these and other directional terms should not be construed as limiting terms.

The utility model provides a slot floor overhead structure, which integrates a slot with a floor main body, does not need to additionally arrange a slot module and fix the slot module with the floor main body, ensures that the construction process is more efficient, and has simpler leveling of the whole structure and stronger structural flatness and structural stability after the laying because the overhead structure is only composed of a lower adjusting pin and an upper floor main body.

Specifically, in order to achieve the above purpose, the following technical solutions are adopted in the present invention:

the utility model provides a wire groove floor overhead structure, which comprises a strip-shaped floor main body and an adjusting foot for supporting a bottom plate main body, and is characterized in that: the middle part of the floor main body is downwards sunken to form a wiring groove along the length direction of the floor main body and a lower convex part integrated with the wiring groove; the floor main body is provided with a screw hole, the adjusting foot comprises a supporting plate and a connecting rod, the connecting rod penetrates through the screw hole, and the supporting plate supports the floor main body from the lower part.

The utility model adopts the way that the wiring grooves and the floor main body are integrally formed, the middle part of the floor main body is sunken downwards and forms a downward convex part structure, so that the wiring grooves which can contain power lines, data lines and other equipment are naturally formed in the middle part of the floor main body, and when a plurality of floor main bodies are assembled, the wiring grooves of the floor main bodies are connected into a whole, thereby forming a passage. The regulation foot of making level between the floor main part can through adjusting the below, adjusts the foot and has public female thread structure usually, and the backup pad spiral cover that has internal thread structure is established on the connecting rod that has external thread structure, through relative rotation between them, can realize making level. The utility model has another advantage that each floor main body is only required to be adjusted to the same horizontal height, and in the prior art, due to the existence of the independent trunking module, the height of the trunking module is also required to be considered during the leveling process, and the lower bottom surface of the trunking module is generally required to be contacted with the ground to ensure the structural stability, so the operation amount during the construction is additionally increased, and the problem is avoided.

Furthermore, the supporting plate comprises a supporting matching surface arranged horizontally and two clamping matching surfaces which are arranged oppositely and are vertical to the supporting matching surface; the floor main part lower surface be connected with two with the parallel first supporting part of lower boss, two first supporting part distribute in lower boss both sides, every first supporting part include with the parallel first holding surface of floor main part lower surface and with the perpendicular two first joint faces that just face inboard and the outside of floor main part respectively of floor main part lower surface. The term "oppositely arranged" means that the two clamping matching surfaces face each other, for example, the clamping matching surface on the left side faces the right, and the clamping matching surface on the right side faces the left, so that a clamped area is formed between the two surfaces; "inboard" or "outboard" toward the floor body means that the first engagement surface faces toward or opposite the central plane of symmetry of the floor body; the same applies below.

In order to improve the stability between the adjusting foot and the supporting plate, the utility model preferably provides a first supporting part on the lower surface of the floor main body, and the adjusting foot is connected with the floor main body through the matching of the first supporting part and the supporting plate. Specifically, the weight of the floor main body is borne by the supporting plate through the upper and lower lap joints of the supporting matching surface and the first supporting surface, and the floor main body is prevented from sliding in the horizontal direction through the mutual interference of the clamping matching surface and the first clamping surface, so that the movement of the floor main body is limited, and the integral structure is more stable. Because first supporting part sets up along floor unit length direction, consequently overall structure is rectangular form, and same first supporting part below can set up a plurality of regulation feet along its rectangular direction, makes first supporting part and a plurality of regulation feet form the cooperation, improves the stress stability of floor main part.

Furthermore, the lower surface of the floor main body is connected with two second supporting parts parallel to the lower convex part, the two second supporting parts are respectively positioned at two sides of the lower convex part and are arranged at the outer side of the first supporting part, and each second supporting part comprises a second supporting surface parallel to the lower surface of the floor main body and two second clamping surfaces which are vertical to the lower surface of the floor main body and respectively face the inner side and the outer side of the floor main body; the second support part is integrated with the side plane of the floor main body towards the second clamping surface of the outer side of the floor main body.

The first support part is closer to the lower convex part for supporting the pressure of the middle part of the ground plate main body, and the second support part is flush with the side edge of the floor plate main body for supporting the weight of the edge part of the floor plate main body.

Further, the width of the second supporting part is half of that of the first supporting part.

When the floor is laid, after the side edges of two adjacent floor main bodies are spliced, two second supporting parts which are respectively positioned on the corresponding side edges of the two floor main bodies can be contacted with each other, and when the width of each second supporting part is half of that of the first supporting part, the two mutually contacted second supporting parts can be combined to form a structure which is consistent with that of the first supporting part. Through the mode, the adjusting feet for clamping the first supporting part and the second supporting part can use the same specification, each first supporting part uses a group of adjusting feet to support, and a group of adjusting feet with the same specification can also be used to support after the two second supporting parts are combined, so that the construction process is more convenient. Simultaneously, because two joint fitting surfaces of backup pad form the conflict with the second joint face of the second supporting part in two floor main parts respectively, the backup pad can lock two adjacent floor main parts, makes both closely laminate to improve overall structure's compactedness.

Furthermore, the floor main body is a hollow plate, and a plurality of cavities along the length direction of the floor main body are formed in the floor main body through partition plates. Compared with a solid plate, the hollow plate has the advantages of light weight and low cost.

Further, the bore of the cavity located in the lower convex portion, the first supporting portion and the second supporting portion is smaller, and the bore of the cavity located in the transition portion between the first supporting portion and the second supporting portion is larger. The small caliber of the cavity is equal to that of the partition board which is arranged more densely, and the first supporting part, the second supporting part and the lower convex part are main stress parts, so that the structural strength of the partition board can be improved and the deformation can be prevented.

Further, the screw hole is arranged at a position corresponding to the first supporting part and the second supporting part, and the screw hole penetrates through the floor main body and the first supporting part or the second supporting part along a direction vertical to the floor main body.

Furthermore, a first abutting portion is arranged at the intersection of the first clamping surface and the first supporting surface, and the first abutting portion protrudes horizontally outwards compared with the first clamping surface. The term "outwardly convex" as used herein means that the first abutting portion extends away from the first clamping surface. Through the setting of first joint portion, can make the cooperation between backup pad and the first supporting part inseparabler.

Furthermore, a second interference part is arranged at the intersection of the second clamping surface facing the inner side of the floor main body and the second supporting surface, and the second interference part protrudes outwards horizontally compared with the second clamping surface. Because the two adjacent floor main bodies need to be laterally attached through the respective second clamping surfaces, the second interference parts are only arranged at the intersection of the second clamping surfaces facing the inner sides and the second supporting surface, so that a gap is prevented from being generated due to the fact that the two floor main bodies are not firmly attached.

Drawings

FIG. 1 is a schematic view of an overhead structure of the present invention;

FIG. 2 is a schematic structural view of a floor main body;

FIG. 3 is a side view of the main structure of the floor;

FIG. 4 is an enlarged view of the first supporting portion;

FIG. 5 is a schematic view of the second support portion

FIG. 6 is a schematic view of the structure of the adjusting foot;

in the figure, 1-a floor main body, 2-an adjusting foot, 11-a wiring groove, 12-a lower convex part, 13-a first supporting part, 14-a second supporting part, 15-a screw hole, 21-a connecting rod, 22-a supporting plate, 131-a first supporting surface, 132-a first clamping surface, 133-a first interference part, 141-a second supporting surface, 142-a second clamping surface, 143-a second interference part, 221-a supporting matching surface and 222-a clamping matching surface.

Detailed Description

Examples

As shown in fig. 1, the present invention provides a slot floor elevated structure, which is composed of two relatively independent parts, namely a floor main body 1 which is positioned above and forms an elevated plane and an adjusting foot 2 which is positioned below and supports the floor main body.

As shown in fig. 2 to 5, the floor main body has a strip plate structure, and a wiring groove 11 is formed along the length direction of the floor unit by pressing down the middle of the upper surface of the floor main body, and a lower protrusion 12 integrated with the wiring groove is formed at the same time, and the lower protrusion protrudes downward compared with the lower surface of the floor main body, so that the wiring groove has a larger volume. The lower surface of the floor main body is also provided with two strip-shaped first supporting parts 13, and the first supporting parts are arranged along the length direction of the floor main body and are parallel to the lower convex parts and the wiring grooves. The two first supporting parts are respectively arranged on two sides of the lower convex part, and the distance between the first supporting part and the lower convex part is closer than the distance between the first supporting part and the side edge of the floor, so that the first supporting part transmits the pressure near the wiring groove. Two second supporting parts 14 are also arranged on the lower surface of the floor main body, are arranged on two sides of the lower convex part and are aligned with the side edges of the floor main body, and are used for transmitting the pressure of the side edge parts of the floor main body.

As shown in fig. 6, the adjusting foot comprises a bottom plate, a connecting rod 21 and a supporting plate 22, a screw hole with an internal thread is arranged on the supporting plate, an external thread is arranged on the connecting rod, and the supporting plate is spirally sleeved at the upper end of the connecting rod, so that the supporting plate can adjust the distance between the supporting plate and the bottom plate in a relative rotation mode with the connecting rod, and leveling is realized. The supporting plate has a supporting mating surface 221 disposed horizontally and facing upward and two clamping mating surfaces 222 disposed longitudinally, the two clamping mating surfaces are disposed oppositely, and the supporting mating surface is sandwiched between the two clamping mating surfaces. Corresponding to the supporting plate, the first supporting part has a first supporting surface 131 which is horizontally arranged and faces downwards and two first clamping surfaces 132 which are longitudinally arranged and are oppositely arranged; similarly, the second supporting portion also has a second supporting surface 141 and two second engaging surfaces 142. When the supporting plate is matched with the first supporting part or the second supporting part, the supporting matching surface of the supporting plate and the first supporting surface or the second supporting surface form up-down lap joint so as to bear weight, and the two clamping matching surfaces of the supporting plate are matched with the first clamping surface or the second clamping surface so as to limit horizontal sliding of the floor main body.

As another preferred embodiment, the width of the second supporting portion is half of that of the first supporting portion, and the second clamping surface of the second supporting portion facing outward is integrated with the side surface of the floor main body, when the two floor main bodies are spliced through the side edge, the two second supporting portions on the corresponding side edges can be spliced into a whole, the splicing structure of the two second supporting portions is the same as that of the first supporting portion, so that the two second supporting portions can be clamped by using the adjusting pins same as that of the first supporting portion, and after the clamping is completed, the two second supporting portions on the corresponding side edges of the floor main body are limited by the clamping matching surface of the supporting plate, so that the two second supporting portions form a tight fit, and a gap is prevented from being formed between the two floor main bodies.

As another preferred embodiment, a first abutting portion 133 is further disposed at an intersection of the first supporting surface and the first clamping surface of the first supporting portion, and the first abutting portion protrudes horizontally outward compared with the first clamping surface; the second support portion has a second abutting portion 143 at an intersection of the first support surface and a second engaging surface of the second support portion facing the inner side of the floor main body, and the second abutting portion protrudes outward compared to the second engaging surface. When the backup pad was in the joint with first supporting part or second supporting part, the existence of conflict portion can make the joint intensity improvement between joint fitting surface and first joint face or the second joint face, further improves the joint strength between backup pad and the floor main part.

As another preferred embodiment, the floor main body is a hollow plate, a plurality of partition plates are arranged in the floor main body, and a cavity is formed between the partition plates along the length direction of the floor main body. At the first supporting part, the second supporting part and the lower convex part, the caliber of the cavity is smaller, the clapboards are arranged more densely, the caliber of the cavity at the transition connection part between the first supporting part and the second supporting part is smaller, and the distance between the clapboards is longer.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will 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 the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (9)

1. The utility model provides a wire casing floor elevated structure, includes rectangular form floor main part and sets up in the regulation foot of floor main part below, its characterized in that: the middle part of the floor main body is downwards sunken to form a wiring groove along the length direction of the floor main body and a lower convex part integrated with the wiring groove; the adjusting foot comprises a supporting plate with a screw hole and a connecting rod with an external thread, the supporting plate is arranged on the connecting rod through the screw hole in a spiral sleeve mode, and the supporting plate and the lower surface of the floor main body form a supporting effect.

2. A slot floor overhead structure as claimed in claim 1, wherein: the supporting plate comprises a supporting matching surface which is horizontally arranged and two clamping matching surfaces which are oppositely arranged and are vertical to the supporting matching surface; the floor main part lower surface be equipped with two at least first supporting parts that compare lower surface downwardly convex, first supporting part be the strip structure that sets up along floor main part length direction, first supporting part parallel distribution in lower protruding both sides, every first supporting part include the first holding surface of a level setting and perpendicular just two first joint faces in the inboard and outside of floor main part of orientation respectively with first holding surface.

3. A slot floor overhead structure as claimed in claim 2, wherein: the lower surface of the floor main body is also provided with two second supporting parts, the first supporting part is of a strip-shaped structure arranged along the length direction of the floor main body, the two second supporting parts are respectively positioned at two sides of the lower convex part and arranged at the outer side of the first supporting part, and each second supporting part comprises a second supporting surface which is horizontally arranged and two second clamping surfaces which are vertical to the second supporting surface and respectively face the inner side and the outer side of the floor main body; the second support part is integrated with the side plane of the floor main body towards the second clamping surface of the outer side of the floor main body.

4. A slot floor overhead structure as claimed in claim 3, wherein: the width of the second supporting part is half of that of the first supporting part.

5. A slot floor overhead structure as claimed in claim 1, wherein: the floor main body is a hollow plate, and a plurality of cavities along the length direction of the floor main body are formed in the floor main body through partition plates.

6. A slot floor overhead structure as claimed in claim 5, wherein: the aperture of the cavity located at the lower convex part, the first supporting part and the second supporting part is smaller, and the aperture of the cavity located at the transition part between the first supporting part and the second supporting part is larger.

7. A slot floor overhead structure as claimed in claim 3, wherein: the screw hole is arranged at the position corresponding to the first supporting part and the second supporting part, and the screw hole penetrates through the floor main body and the first supporting part or the second supporting part along the direction vertical to the floor main body.

8. A slot floor overhead structure as claimed in claim 3, wherein: the first abutting part is arranged at the intersection of the first clamping surface and the first supporting surface and protrudes outwards horizontally compared with the first clamping surface.

9. A slot floor overhead structure as claimed in claim 8, wherein: the intersection of the second clamping surface facing the inner side of the floor main body and the second supporting surface is provided with a second interference part, and the second interference part protrudes outwards horizontally compared with the second clamping surface.

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