CN114892914A - Overhead floor adjusting foot and overhead floor - Google Patents

Abstract

The invention relates to the technical field of floors, and provides an overhead floor adjusting foot and an overhead floor, which comprise: the base is provided with a plurality of clamping parts arranged at intervals along the height direction; the positioning connecting piece is provided with a positioning part, can be sleeved on the base in a sliding manner, and drives the positioning part to be connected with the clamping part through rotation so as to limit and position the target height position of the positioning connecting piece on the base; the support is connected to the positioning connecting piece. The invention has the advantages of quickly adjusting the height of the bottom plate main body, improving the installation efficiency of the raised floor and facilitating the installation of the raised floor.

Description

Overhead floor adjusting foot and overhead floor

Technical Field

The invention relates to the technical field of floors, in particular to an overhead floor adjusting foot and an overhead floor.

Background

The raised floor is also called as a dissipation type static floor, which is a floor assembled by a bracket and a floor main body, a certain suspension space is formed between the ground and the floor main body through the bracket, the floor can be used for wiring, air supply and the like, when the raised floor is grounded or connected to any lower potential point, electric charge can be dissipated, and the raised floor is quite practical in computer rooms, data rooms and other rooms with numerous circuits.

At present, when the floor main body is leveled, the floor main body is usually screwed by a screw rod and then ascends or descends, so that the surface height of the floor main body is raised or reduced, and the upper surface of the whole floor main body is kept horizontal by adjusting the heights of different positions. However, the existing adjusting screws are screwed to adjust the height a little, which results in slow adjusting process, and in case of large height difference, it takes a long time to screw the screws to make the height of the floor main body reach the target position. Thus resulting in inefficient installation and inconvenience in installation of the raised floor.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The invention aims to provide an overhead floor adjusting foot and an overhead floor, which have the advantages that the height of a bottom plate main body can be quickly adjusted, the installation efficiency of the overhead floor is improved, and the installation of the overhead floor is more convenient.

In order to achieve the purpose, the invention adopts the technical scheme that: there is provided an overhead floor adjustment foot comprising:

the base is provided with a plurality of clamping parts arranged at intervals along the height direction;

the positioning connecting piece is provided with a positioning part, can be sleeved on the base in a sliding manner, and drives the positioning part to be connected with the clamping part through rotation so as to limit and position the target height position of the positioning connecting piece on the base;

the support is connected to the positioning connecting piece.

In one embodiment, the base includes: the clamping part is arranged on the outer wall of the protruding part;

the positioning connection piece includes: the positioning ferrule is sleeved on the protruding part, and the position adjusting part is arranged on the inner wall of the positioning ferrule.

In one embodiment, the clamping part comprises limiting teeth, and a plurality of limiting teeth are arranged at intervals in the height direction;

the position adjusting part comprises a limiting clamping groove which is arranged on the inner wall of the positioning ferrule along the circumferential direction.

In one embodiment, the limiting clamping groove is arranged on the inner surface of the positioning ferrule in a concave manner, and a guide groove which penetrates through the positioning ferrule in the axial direction is formed in one side of the limiting clamping groove;

the limiting teeth are arranged in the guide grooves in a sliding mode, and can be embedded in the limiting clamping grooves through the rotary positioning ferrules.

In one embodiment, the positioning ferrule is provided with an alignment notch, and the alignment notch is used for adjusting the position of the alignment part.

In one embodiment, the clamping parts are provided with a plurality of groups, and each group of clamping parts comprises a plurality of clamping parts arranged at intervals along the height direction; the plurality of groups of clamping parts are uniformly distributed along the circumferential direction of the base;

the position adjusting part is provided with a plurality of with every group screens portion correspondence, and a plurality of position adjusting parts distribute along positioning connection spare's circumference.

In one embodiment, the projection comprises: the extension pipe to and increase the piece, increase the piece and can dismantle the connection on the direction of height of extension pipe, screens portion sets up on the outer wall that increases the piece.

In one embodiment, the heightening piece comprises a sleeve and a heightening pipe connected to the sleeve, and a limit step is formed between the sleeve and the heightening pipe;

the sleeve pipe inlays to be established in the extension pipe, and spacing step supports and leans on the upper surface of extension pipe.

In one embodiment, the support comprises a support panel and a support tube connected to the support panel;

the positioning connecting piece is in threaded connection with the inside of the supporting pipe.

Based on the same concept, the invention also provides a raised floor, which comprises the raised floor adjusting foot and a floor body connected to the support.

The invention provides an overhead floor adjusting foot and an overhead floor, which have the beneficial effects that: through establishing positioning connection spare and base cover, make positioning connection spare reciprocate fast along the direction of height of base, when directly sliding positioning connection spare to the target height position, rotatory positioning connection spare and drive the position adjusting portion rotation on it, thereby be connected to the screens portion of relevant position, it is spacing to make the position adjusting portion realize in the direction of height, the position adjusting portion can not remove in the direction of height, thereby make positioning connection spare fix the target height position on the base on, and the support is connected to positioning connection spare, and be connected to the floor body through the support, thereby make the floor body fix the position that needs the regulation. Because the position adjustment of positioning connection spare on the direction of height is through directly sliding, consequently, can realize the quick adjustment of direction of height, and rotatory positioning connection spare also just rotates a low-angle and just enables the position adjusting part and screens portion and realize being connected, thereby the high position of rotation positioning connection spare is injectd, thereby the high regulation speed of floor body has been improved greatly, and need use a plurality of built on stilts floor regulation foot on every floor body, quick like this adjusts the floor body through a plurality of built on stilts floor regulation feet, thereby the installation effectiveness is greatly improved, make things convenient for the installation on built on stilts floor more.

Drawings

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

Fig. 1 is an exploded view of the main structure of an adjusting foot of an overhead floor according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a positioning connection member of an adjusting foot of an overhead floor according to an embodiment of the present invention;

fig. 3 is a cross-sectional view of a position-locking portion and a position-locking portion of an adjusting foot of an overhead floor provided in an embodiment of the present invention during a connection process;

fig. 4 is a cross-sectional view of another perspective of the positioning portion of an adjusting foot of an overhead floor according to an embodiment of the present invention;

fig. 5 is an exploded view of a second type of structure of an adjustment leg for an overhead floor according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

100. a base; 110. a clamping part; 111. limiting teeth; 112. a boss; 120. a chassis; 130. a projection; 131. an extension pipe; 132. a heightening part; 133. a sleeve; 134. increasing the height of the pipe; 135. limiting the vertical beam; 136. a slot; 200. positioning the connecting piece; 210. a positioning section; 211. a limiting clamping groove; 212. a spring plate; 213. pushing the blocking piece; 220. positioning a ferrule; 221. an external thread; 222. a hole of abdication; 230. a guide groove; 240. aligning the notch; 300. a support; 310. a support panel; 320. and (5) supporting the tube.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly or indirectly secured to the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positions based on the orientations or positions shown in the drawings, and are for convenience of description only and not to be construed as limiting the technical solution. The terms "first", "second" and "first" are used merely for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features. The meaning of "plurality" is two or more unless specifically limited otherwise.

In the installation process of processing floor products, if a traditional stud adjusting mode is adopted, the adjusting efficiency is low, certain gravity is needed to press the floor body, the stud is screwed after the force is applied in the adjusting process to adjust the height of the floor body, for example, workers need to stand on the stud for adjustment, the adjustment is difficult due to the increase of the weight of the workers, and the whole floor body is difficult to level. And some raised floor products have certain limitation on the adjusting height, and can only be adjusted (fine adjustment and leveling) within a small range by screwing the stud, so that the stud cannot adapt to the working condition that the ground flatness is poor and the height adjustment at a large distance is needed, and the limitation of the stud adjustment in the adjusting process of the raised floor is caused. Therefore, on the premise of the above disadvantages of the existing heating floor, the present embodiment provides a corresponding structural improvement, specifically as follows:

referring to fig. 1, the present embodiment provides an adjusting foot for an overhead floor, which is used to connect to a floor body, and the adjusting foot for the overhead floor can adjust the height and level of the floor body. For facilitating the structural description, when the adjusting foot is applied to the floor body, the floor body is laid along the horizontal direction, and the vertical direction of the bottom plate body is taken as the height direction of the structural description. This built on stilts floor regulation foot specifically includes: a base 100, a positioning connector 200, and a support 300. The base 100, the positioning connector 200 and the support 300 are connected in sequence. The base 100 is provided with a plurality of positioning portions 110 spaced apart from each other in the height direction, the positioning connector 200 is provided with a positioning portion 210, the positioning connector 200 is slidably sleeved on the base 100, so that the positioning connector 200 can directly move in the height direction on the base 100, and after reaching the adjustment position, the positioning connector 200 is rotated to drive the positioning portion 210 to connect with the positioning portion 110, so that the positioning portion 210 is connected and limited on the positioning portion 110 at the corresponding position, and is used for limiting the target height position of the positioning connector 200 on the base 100. The support 300 is connected to the positioning connector 200, the support 300 is used for connecting the floor body, and when the positioning connector 200 is connected to the floor body through the support 300, the height of the floor body can be adjusted.

As shown in fig. 1 and 2, in the embodiment, the positioning connection member 200 is sleeved with the base 100, so that the positioning connection member 200 moves up and down rapidly along the height direction of the base 100, when the positioning connection member 200 directly slides to the target height position, the positioning connection member 200 is rotated to drive the positioning portion 210 thereon to rotate, so as to connect to the positioning portion 110 at the corresponding position, so that the positioning portion 210 is limited in the height direction, the positioning portion 210 cannot move in the height direction, so that the positioning connection member 200 is fixed to the target height position on the base 100, and the support 300 is connected to the positioning connection member 200 and connected to the floor body through the support 300, so that the floor body is fixed at the position to be adjusted.

The beneficial effect that foot was adjusted to overhead floor that this embodiment provided lies in at least: because the position adjustment of positioning connection piece 200 on the direction of height is through directly sliding, consequently, can realize direction of height's quick adjustment, and rotatory positioning connection piece 200 also just can make positioning portion 210 and screens portion 110 realize being connected just to rotate a small angle, thereby the high position of rotation positioning connection piece 200 is injectd, thereby the high regulation speed of floor body has been improved greatly, and need use a plurality of built on stilts floor regulation foot on every floor body, it adjusts the floor body through a plurality of built on stilts floor regulation foot fast like this, thereby the installation effectiveness is greatly improved, make things convenient for the installation on built on stilts floor more. In the process of installing the raised floor, the floor body does not need to be pressurized, namely workers do not need to stand on the floor body for adjustment, the adjustment process is easier, and the whole floor body can be easily leveled.

In this embodiment, the base 100 can realize the supporting function regardless of the structure, and the positioning connection member 200 can realize the sliding function in the height direction of the base 100 and the rotation to drive the positioning portion 210 to connect with the positioning portion 110 and limit the target height position of the positioning connection member 200 on the base 100. The support 300 can achieve the function of connecting the positioning connector 200 and the floor body regardless of the structure, that is, the specific form of the base 100, the specific form of the positioning connector 200, and the specific structure of the support 300 in this embodiment can be set as required, as long as the set positioning connector 200 can be slidably sleeved on the base 100, and the positioning portion 210 is driven by rotation to connect the positioning portion 110 and limit the target height position of the positioning connector 200 on the base 100, the problems in the prior art can be solved, and the corresponding effect can be achieved.

As shown in fig. 1, further, the base 100 in this embodiment specifically includes: a chassis 120, and a protrusion 130 connected to the chassis 120, wherein the protrusion 130 extends in a height direction, and the catching portion 110 is disposed on an outer wall of the protrusion 130. As shown in fig. 1 and fig. 2, the positioning connector 200 of the present embodiment includes a positioning collar 220, the positioning collar 220 is disposed on the protrusion 130, and the positioning portion 210 is disposed on an inner wall of the positioning collar 220. The chassis 120 is connected with the protruding portion 130, so that the chassis 120 is placed on the ground and is stressed, the protruding portion 130 extends in the height direction to enable the protruding portion 130 to have a certain length, so that enough space is provided for the positioning portion 110, enough positioning portions 110 are provided, and when the positioning portion 210 is arranged on different positioning portions 110, different height position adjustment is achieved. Furthermore, the positioning portion 110 is disposed on the outer wall of the protrusion 130, so that the position of the positioning collar 220 can be easily observed when adjusting, and the protrusion 130 to which the positioning portion 210 is connected can be clearly observed, thereby enabling precise positioning during installation.

It should be noted that the positioning portion 110 can also be disposed inside the protrusion portion 130, and the positioning portion 210 can be correspondingly disposed on the outer wall of the positioning collar 220, and the positioning collar 220 is slidably disposed inside the protrusion portion 130, so that the adjusting portion and the positioning portion 110 can be connected in a matching manner. The structure can also realize quick height adjustment, can solve the problems in the prior art and obtain corresponding effects.

As shown in fig. 1 and 2, the positioning portion 110 further includes a plurality of positioning teeth 111, the positioning teeth 111 are spaced apart from each other in the height direction, the corresponding positioning portion 210 includes a positioning slot 211, and the positioning slot 211 is circumferentially disposed on an inner wall of the positioning collar 220. After the positioning collar 220 directly slides on the projection 130 to the target position, the position-limiting slot 211 is opposite to one position-limiting tooth 111 at the position, and then the positioning collar 220 is rotated to make the position-limiting slot 211 clamped into the position-limiting tooth 111 at the position, so that the positioning collar 220 cannot move in the height direction.

It should be noted that, in order to increase the supporting strength, the limiting clamping groove 211 can be provided with a plurality of limiting teeth 111, so that the adjacent limiting teeth 111 can be connected, and the supporting is more stable through the plurality of limiting teeth 111.

As shown in fig. 1 and 3, in another structure, after the positioning collar 220 is clamped in place, in order to separate the limiting teeth 111 from the limiting clamping groove 211, an elastic sheet 212 is disposed on a side wall of the limiting clamping groove 211, one end of the elastic sheet 212 is fixed on an upper inner wall of the limiting clamping groove 211, and the other end of the elastic sheet 212 is inclined downward along a screwing direction. The corresponding boss 112 protrudes from the upper side wall of one end of the limiting clamping groove 211, when the positioning ring 220 drives the limiting clamping groove 211 to rotate, the elastic sheet 212 is extruded through the boss 112, so that the elastic sheet 212 deforms upwards, and leaves the elastic sheet 212 along with the movement of the boss 112, so that the elastic sheet 212 is restored to the original state, the opening of the limiting clamping groove 211 is sealed, the boss 112 is enabled to be limited in the limiting clamping groove 211, the limiting teeth 111 are fixed with the limiting clamping groove 211, and the positioning ring 220 and the protruding part 130 are also fixed in the circumferential position.

As shown in fig. 3 and 4, in order to facilitate the detachment of the limiting teeth 111 of the belt boss 112, a pushing stop piece 213 is disposed on one side of the elastic sheet 212, which is opposite to the center of the positioning collar 220, and the pushing stop piece 213 extends out of the outer wall of the positioning collar 220. That is, the outer wall of the positioning collar 220 is provided with the abdicating hole 222, and the abdicating hole 222 penetrates through the positioning collar 220, so that the pushing plate 213 can be manually pulled up from the outer wall of the positioning collar 220, and the elastic sheet 212 is pulled up to open the opening of the limiting clamping groove 211, so that the limiting teeth 111 can rotate out of the limiting clamping groove 211.

It should be noted that the positioning portion 110 may be configured as a positioning slot 211, and the corresponding positioning portion 210 may be configured as a positioning tooth 111. The method specifically comprises the following steps: set up a plurality of spacing draw-in grooves 211 on the outer wall of bulge 130, a plurality of spacing draw-in grooves 211 set up along the direction of height interval, and set up one side spacing tooth 111 on the inner wall of location lasso 220, or two spacing teeth 111, also can fix a position location lasso 220 fast like this through the cooperation of a spacing tooth 111 or a plurality of spacing tooth 111 and spacing draw-in groove 211.

As shown in fig. 1 and fig. 2, please refer to fig. 2, further, the limiting clamping groove 211 is recessed on the inner surface of the positioning collar 220, and a guide groove 230 is axially disposed on one side of the limiting clamping groove 211; the guide groove 230 is connected to one end of the limit slot 211. When the positioning collar 220 is fitted over the protrusion 130, the position-limiting teeth 111 are slidably disposed in the guide grooves 230, so that the positioning collar 220 can be moved in a height direction. And the positioning collar 220 can be rotated to embed the limiting teeth 111 in the limiting clamping groove 211, so that positioning is realized. And carry out recessed setting with spacing draw-in groove 211 to the inner wall that makes the position collar 220 can lean on with the inner wall counterbalance of bulge 130, and the clearance between the two that makes the establishing of overlapping is very little, can guarantee the stability of connecting like this, is guaranteeing to support under the circumstances of intensity moreover, reduces the volume of stabilizer blade, optimizes structural design.

As shown in fig. 1 and 2, the positioning collar 220 is further provided with an alignment notch 240, and the alignment notch 240 aligns with the position of the alignment portion 210. Through setting up counterpoint breach 240, can conveniently aim at guide way 230 with screens portion 110, when installing location lasso 220, will counterpoint breach 240 just to screens portion 110 on the base 100 earlier, then the cover establishes behind the location lasso 220, screens portion 110 can enter into the guide way 230 smoothly to realize the quick assembly disassembly of location lasso 220, make things convenient for field operation.

As shown in fig. 1 and fig. 2, further, a plurality of sets of the positioning portions 110 are provided, and each set of the positioning portions 110 includes a plurality of positioning portions 110 arranged at intervals in the height direction; the plurality of positioning portions 110 are provided at different height positions that define the positioning portion 210. The multiple clamping portions 110 are provided to ensure the stability of connection and support. The plurality of clamping portions 110 are uniformly distributed along the circumferential direction of the base 100; a plurality of positioning portions 210 are provided corresponding to each set of the positioning portions 110, and the plurality of positioning portions 210 are distributed along the circumferential direction of the positioning link 200. Since the plurality of sets of positioning portions 110 are uniformly distributed along the circumferential direction of the base 100, the plurality of positioning portions 210 are correspondingly distributed. Therefore, the positioning connecting piece 200 and the base 100 form a support at a plurality of positions in the circumferential direction, so that the force can be uniformly applied in the circumferential direction of the base 100, and the support of the base 100 and the positioning connecting piece 200 is more stable and firm.

The clamping portions 110 in this embodiment are four, and the corresponding positioning portions 210 are four, so that the structure is simple under the condition that enough supporting strength is ensured. In addition, it should be noted that, if the structure that the elastic sheet 212 is arranged on the side wall of the limiting clamping groove 211 is adopted, the elastic sheet 212 only needs to be arranged on one limiting clamping groove 211 of the four limiting clamping grooves 211, and thus only the positioning collar 220 needs to be provided with the abdicating hole 222, so that the processing amount of the positioning collar 220 is greatly reduced, and the processing cost is further saved. Moreover, the pushing stop piece 213 of the elastic sheet 212 is exposed out of the outer wall of the positioning ferrule 220, so that the position of the pushing stop piece 213 can be easily found during disassembly. In other structures, only one alignment notch 240 needs to be machined.

As shown in fig. 1, further, the protruding portion 130 may be provided in different structural forms according to requirements, and the first form is: the protrusion 130 may include only the extension pipe 131, and the extension pipe 131 has a predetermined height enough to perform height adjustment of the floor body. The structure can be used in scenes with short adjusting distance.

As shown in fig. 5, the second form is: in a scenario where the height of the projection 130 is insufficient, the projection 130 includes: an extension tube 131, and a heightening member 132. The height increasing member 132 is detachably connected to the height direction of the extension pipe 131, and the locking portion 110 is provided on the outer wall of the height increasing member 132. Under the not enough condition of original extension pipe 131 regulation length like this, can connect one on extension pipe 131 and increase a 132, increase original bulge 130, connect location connecting piece 200 on increasing a 132 to realized the regulation of higher position, increased the practicality of lower margin like this.

As shown in fig. 5, the height increasing member 132 may be provided in a plurality, and a plurality of height increasing members 132 may be stacked in sequence, and connected to the extension pipe 131 through the lowermost height increasing member 132, and the uppermost height increasing member 132 is connected to the positioning connection member 200, so that a plurality of height increases may be realized to meet the adjustment requirement.

Further, the specific structure of the heightening member 132 includes: a sleeve 133, and a riser 134 connected to the sleeve 133. The sleeve 133 and the heightening pipe 134 are welded and fixed, the heightening pipe 134 is positioned above, the sleeve 133 is positioned below, and the diameter of the heightening pipe 134 is larger than that of the sleeve 133. And a limit step is formed between the heightening pipe 134 and the sleeve 133. When splicing, the sleeve 133 is embedded in the extension pipe 131, so that the limit step abuts against the upper surface of the extension pipe 131; therefore, the heightening part 132 is limited, when the diameter of the heightening pipe 134 is the same as that of the extension pipe 131, the protruding part 130 formed by splicing has the same outline and size, and has good bearing performance. Also, in order to facilitate stacking connection of more height-increasing members 132, the inner diameter of the height-increasing pipe 134 is set to be identical to that of the extension pipe 131, so that the sleeve 133 of the additional height-increasing member 132 can be inserted into the height-increasing pipe 134, thereby performing a stacking function.

As shown in fig. 5, the sleeve 133 and the booster tube 134 are butted together for convenience. The inner wall of the extension pipe 131 is provided with a limiting vertical beam 135, the outer wall of the sleeve 133 is correspondingly provided with a slot 136, and the limiting vertical beam 135 can slide in the slot 136. When the height increasing member 132 is coupled to the extension pipe 131, the insertion groove 136 is aligned with the stopper vertical beam 135 and inserted. The sleeve 133 and the extension pipe 131 are smoothly butted by the guiding action of the slot 136 and the vertical limiting beam 135. And the stop teeth 111 on the extension tube 131 can be aligned with the stop teeth 111 on the booster tube 134.

As shown in fig. 1 and 5, the support 300 in this embodiment specifically includes a support panel 310 and a support tube 320 connected to the support panel 310. An internal thread is provided on the inner wall of the support tube 320 and a mating external thread 221 is provided on the outer wall of the retaining connection 200, thereby allowing the retaining connection 200 to be threaded within the support tube 320. After the positioning connection member 200 is quickly positioned, the support 300 is connected to the positioning connection member 200 through threads, the position of the support 300 in the height direction can be slowly adjusted through the matching rotation of the internal threads and the external threads 221, and the moving distance of the support 300 in the height direction is small in the thread screwing process, so that secondary fine adjustment is realized, the position of the floor body in the height direction can be accurately adjusted, and the final positioning is completed.

The installation procedure of this embodiment without height-increasing piece:

step S100: fixing a base plate of the base on the ground through an adhesive, and after the base is installed, placing an infrared aligner on the ground, wherein the infrared aligner makes a horizontal line according to a set elevation;

step S110: sleeving the positioning connecting piece on the convex part of the base, sliding the bottom of the positioning connecting piece to a horizontal infrared ray position, and rotating the positioning connecting piece to enable the limiting clamping groove to rotate and accommodate the limiting teeth;

step S120: and screwing the support into the positioning connecting piece through threaded connection, and rotating for twice fine adjustment to finish final positioning.

The installation steps of the embodiment in the case of a height increasing piece are as follows:

step S200: fixing the chassis of the base on the ground through an adhesive;

step S210: : and inserting the sleeve of the heightening piece into the extension pipe of the base, wherein the inserting groove on the sleeve is aligned with the limiting vertical beam in the extension pipe.

If two height increasing members are required, the lower one is mounted in the manner described above, and the sleeve of the upper second is inserted into the height increasing tube of the lower height increasing member, and so on.

Step S215: an infrared alignment device is placed on the ground, and the infrared alignment device makes a horizontal line according to a set elevation.

Step S220: the locating connecting piece is sleeved on the heightening pipe of the heightening piece, the bottom of the locating connecting piece slides to the horizontal infrared ray, and the locating connecting piece is rotated to enable the limiting clamping groove to rotate and accommodate the limiting teeth.

Step S230: and screwing the support into the positioning connecting piece through threaded connection, and rotating for twice fine adjustment to finish final positioning.

Based on the same concept, the embodiment of the invention also provides the raised floor, which comprises the raised floor adjusting foot and a floor body connected to the support.

In summary, according to the overhead floor and the overhead floor provided in this embodiment, the positioning connection member is sleeved with the base, so that the positioning connection member moves up and down rapidly along the height direction of the base, when the positioning connection member directly slides to the target height position, the positioning connection member is rotated to drive the positioning portion thereon to rotate, so as to be connected to the positioning portion of the corresponding position, so that the positioning portion is limited in the height direction, the positioning portion cannot move in the height direction, so that the positioning connection member is fixed to the target height position on the base, the support is connected to the positioning connection member and is connected to the floor body through the support, and the floor body is fixed to the position to be adjusted. Because the position adjustment of positioning connection spare on the direction of height is through directly sliding, consequently, can realize the quick adjustment of direction of height, and rotatory positioning connection spare also just rotates a low-angle and just enables the position adjusting part and screens portion and realize being connected, thereby the high position of rotation positioning connection spare is injectd, thereby the high regulation speed of floor body has been improved greatly, and need use a plurality of built on stilts floor regulation foot on every floor body, quick like this adjusts the floor body through a plurality of built on stilts floor regulation feet, thereby the installation effectiveness is greatly improved, make things convenient for the installation on built on stilts floor more.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An overhead floor adjustment foot, comprising:

the base is provided with a plurality of clamping parts arranged at intervals along the height direction;

the positioning connecting piece is provided with a positioning part, can be sleeved on the base in a sliding manner, and drives the positioning part to be connected with the clamping part through rotation so as to limit the target height position of the positioning connecting piece on the base;

the support is connected to the positioning connecting piece.

2. The raised floor conditioner foot of claim 1, wherein the base comprises: the clamping part is arranged on the outer wall of the protruding part;

the positioning connection piece includes: the positioning ferrule is sleeved on the protruding part, and the adjusting part is arranged on the inner wall of the positioning ferrule.

3. The raised floor adjustment foot of claim 2, wherein the capture portion comprises a plurality of spacing teeth spaced apart in a height direction;

the position adjusting part comprises a limiting clamping groove which is arranged on the inner wall of the positioning ferrule along the circumferential direction.

4. The raised floor adjustment foot according to claim 3, wherein the limiting slot is recessed in the inner surface of the positioning collar, and a guide slot is axially disposed through one side of the limiting slot;

the limiting teeth are arranged in the guide grooves in a sliding mode, and can be embedded in the limiting clamping grooves by rotating the positioning ferrule.

5. The raised floor adjustment foot of claim 2, wherein the positioning collar is provided with an alignment notch, the alignment notch facing the position of the adjustment portion.

6. The raised floor adjustment foot of claim 1, wherein there are multiple sets of the detents, each set of the detents comprising a plurality of the detents spaced apart in a height direction; the clamping parts are uniformly distributed along the circumferential direction of the base;

the positioning part and each group of clamping parts are correspondingly provided with a plurality of positioning parts which are distributed along the circumferential direction of the positioning connecting piece.

7. The raised floor conditioner foot of claim 2, wherein the projection comprises: the extension pipe to and increase the piece, it connects to increase the piece can be dismantled in the direction of height of extension pipe, the screens portion sets up increase on the outer wall of piece.

8. The raised floor conditioner foot of claim 7, wherein the riser comprises a sleeve and a riser connected to the sleeve, wherein a stop step is formed between the sleeve and the riser;

the sleeve is embedded in the extension pipe, and the limiting step is abutted to the upper surface of the extension pipe.

9. The raised floor conditioner foot of claim 1, wherein the support includes a support panel and a support tube connected to the support panel;

the positioning connecting piece is in threaded connection with the inside of the supporting pipe.

10. A raised floor comprising the raised floor adjustment foot of any one of claims 1-9 and a floor body attached to the pedestal.

Images