CN112609919A - Shock absorption leveling assembly structure and mounting method thereof - Google Patents

Abstract

The invention discloses a shock absorption leveling component structure and an installation method thereof, and the structure comprises a support base for supporting a keel structure and a leveling stud for adjusting the height of a keel, wherein a circular through hole is arranged in the middle of the support base in a penetrating manner, the leveling stud can be inserted into the through hole to form a stable structure, a group of inclined first one-way latch teeth are arranged on the inner wall of the through hole, a group of second one-way latch teeth matched with the first one-way latch teeth are arranged on the outer side wall of the leveling stud, one end, back to an inner hexagonal hole, of the leveling stud is aligned with one end, close to a stop boss, of the through hole and pressed in, and the first one-way latch teeth and the second one-way latch teeth can be clamped and fixed. The structure consists of a supporting base and a leveling stud, is manufactured by adopting an injection molding process, and has the advantages of simple structure, convenience in operation, firmness in installation and convenience in disassembly.

Description

Shock absorption leveling assembly structure and mounting method thereof

Technical Field

The invention relates to the field of industrial assembly type decoration, in particular to a shock absorption leveling component structure and an installation method thereof.

Background

In the field of assembly type interior installation, the mode of mainly realizing the assembly type is dry construction, which is generally opposite to the traditional wet construction and does not relate to the construction operation of water. In the traditional wet method operation, the wall surface and the ground are leveled by using cement mortar, and then a certain maintenance period is needed. At present, the dry construction leveling is carried out, no matter the wall surface or the ground is the overhead leveling, but in the current overhead leveling mode, the wall surface is mostly provided with an adjusting member and a leveling keel, the leveling keel is independently used as a supporting function and does not bear the structure of an installation decorative finish layer, a light steel keel or a wood keel is generally used, and the installation of the wall decorative finish can be carried out by reusing the member or gluing regardless of the form of the keel; the ground overhead leveling is mainly realized by adjusting feet and a network floor or a cement fiber board, has larger dead weight, is mainly realized by point-shaped or small block-shaped leveling, and is generally used in the field of public clothes. And these built-in integral space structures usually have rigid connection and lead to the problem that the shock attenuation effect is extremely poor, through hook fixed connection between fossil fragments and the wall, when the decorative board atress is great, destroy the component structure easily, reduce component life.

The adjusting foot components used for the wall surface and the ground in the prior art are different, a plurality of parts are commonly used for forming the whole leveling component module, wherein the parts are mainly springs or rubber gaskets or metal gasket gaskets for damping, the damping and bearing effects are good, but the components are more, the parts are scattered, the installation process of the assembling machine is complex, the operation is very inconvenient, the accumulated error is large, and the installation effect and the quality are easily influenced in actual field use.

In addition, most of adjusting foot assemblies used in the industry at present mostly adopt a mode of threaded connection of a base and a screw, height adjustment and leveling are realized through threads, but a threaded structure needs to be rotated, leveling precision is difficult to control, rotating operation procedures are complex, the assembly and disassembly are not facilitated, the problems of deformation and thread slipping of the threaded connection are easy to occur under long-time high-frequency impact, the service life of a component is short, and the shock absorbing function is not provided.

Disclosure of Invention

The invention provides a damping leveling component structure and an installation method thereof, aiming at realizing the production, processing and installation of efficient assembled built-in leveling products, the damping leveling component structure can effectively enhance the shock absorption function of a leveling structure, and has the advantages of simple structure, firm installation, convenient disassembly, environment-friendly materials, low production cost and wide popularization.

In order to achieve the above object, the present invention provides the following technical solutions, and in one aspect, the present invention provides a shock-absorbing leveling assembly structure, including a supporting base for supporting a keel structure, and a leveling stud for adjusting the height of the keel, wherein a circular through hole is provided in the middle of the supporting base, the leveling stud can be inserted into the through hole to form a stable structure, a stop boss for being inserted into the keel hole is provided on one side of the supporting base, a set of pressing plates are provided on one side of the supporting base opposite to the stop boss, the pressing plates are disposed on two sides of the through hole, and the pressing plates are perpendicular to the supporting base, the pressing plates can conveniently fix the supporting base on the keel, an inner hexagonal hole is provided in the center of the leveling stud, and the central axis of the inner hexagonal hole is parallel to the central axis of the leveling stud, be equipped with the first one-way latch of a set of slope form on the through-hole inner wall, the incline direction of first one-way latch is for following the through-hole is close to the one end orientation of locking boss the other end of through-hole, be equipped with on the leveling double-screw bolt lateral wall with the one-way latch of a set of second of first one-way latch looks adaptation, the incline direction of the one-way latch of second is followed the leveling double-screw bolt dorsad the one end orientation of interior hexagonal hole the leveling double-screw bolt other end will the leveling double-screw bolt dorsad the one end of interior hexagonal hole is aimed at the through-hole is close to the one end of locking boss is impressed, can make first one-way latch with the one-way latch joint of second is fixed.

Furthermore, the first one-way latch is uniformly distributed at intervals along the circumferential direction of the inner wall of the through hole, the second one-way latch is uniformly distributed at intervals along the outer side wall of the leveling stud, the spacing distance between circumferentially adjacent single teeth of the first one-way latch is greater than the circumferential length of the single teeth of the second one-way latch, the distribution of the second one-way latch corresponds to that of the first one-way latch, when the leveling stud is inserted into the through hole, the first one-way latch is abutted to the second one-way latch, so that the leveling stud cannot be pulled out, and the leveling stud can be pulled out by rotating the leveling stud so that the second one-way latch is positioned in the circumferential gap of the first one-way latch.

Furthermore, the distribution of the first one-way latch extends from one end of the through hole to the other end, and the distribution of the second one-way latch extends from one end of the leveling stud to the other end.

Furthermore, the first one-way latch and the second one-way latch are plastic buckles.

Furthermore, one side, back to the through hole, of the pressing plate is provided with a finger notch, and the finger notch is located at one end, far away from the supporting base, of the pressing plate.

Furthermore, one side of the pressing plate, which is back to the through hole, is also provided with a crack stopping groove, and the crack stopping groove is positioned between the pressing plate and the included angle of the supporting base.

Furthermore, one side, facing the through hole, of the pressing plate is provided with a deformation absorption groove, and the deformation absorption groove is located between the pressing plate and the supporting base.

Further, the length of the pressing plate is the same as that of the supporting base.

Furthermore, a reinforcing rib is further arranged on the supporting base.

On the other hand, the invention provides a mounting method of a shock absorption leveling component structure, which is characterized by comprising the following steps:

s1, the pressing plate is pinched by hands, and the supporting base is arranged on the keel;

s2, pressing and inserting the leveling stud into the through hole to enable the first one-way latch to be abutted against the second one-way latch, and fixing the leveling stud and the supporting base;

s3, when the leveling bolt needs to be disassembled, the hexagonal wrench is inserted into the hexagon socket hole of the leveling bolt, the leveling bolt is rotated by rotating the wrench, the first one-way latch is separated from the second one-way latch, and the leveling bolt can be taken out.

The invention has the beneficial effects that:

1. the damping leveling component structure provided by the invention consists of the supporting base and the leveling stud, is manufactured by adopting an injection molding process, and is simple in structure, convenient and fast to operate, firm to mount and convenient to dismount.

2. According to the damping leveling component structure provided by the invention, the leveling stud can only be fixedly inserted from one end during assembly, and cannot be vertically pulled out after being inserted; the one-way latch is arranged in a sectional type annular array mode, after the leveling stud is inserted into the supporting base, due to the fact that the latch is distributed at intervals, the second one-way latch of the leveling stud can be separated from the first one-way latch of the supporting base through rotation, and the leveling stud can be taken out easily.

3. According to the damping and leveling component structure provided by the invention, the one-way clamping teeth are plastic buckles, so that the obvious fool-proof effect is achieved, and the quality problem caused by wrong construction is avoided; the connection of plasticity buckle because the buckle has certain plasticity after the assembly for leveling subassembly has certain shock attenuation buffering effect, need not to use spare part that gasket or spring etc. have certain shock attenuation effect.

4. According to the damping and leveling component structure provided by the invention, the reinforcing rib structure mainly increases the strength of the supporting base and also avoids shrinkage deformation of a product in the processing process.

5. According to the damping and leveling component structure provided by the invention, the crack stopping groove, the finger notch and the deformation absorption groove are further arranged beside the pressing plate and are mainly used for fixing the supporting base on the keel, wherein the crack stopping groove can prevent the clamping teeth from deforming due to stress concentration after being pressed and further cracking due to fatigue strength; the finger notch is used for facilitating finger pressing operation when the supporting base is assembled; the deformation absorption groove is mainly used for absorbing the deformation of the pressing buckle and achieving elastic connection of the buckle.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the invention and together with the description, serve to explain the principles of the invention. In the drawings, like reference numerals are used to indicate like elements. The drawings in the following description are directed to some, but not all embodiments of the invention. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

FIG. 1 is a schematic perspective view of a shock absorbing leveling assembly structure according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a discrete three-dimensional structure of a shock absorbing leveling assembly structure according to an embodiment of the present invention;

FIG. 3 is a schematic side sectional view of a supporting base of a shock absorbing leveling assembly structure according to an embodiment of the present invention;

FIG. 4 is a schematic top view of a supporting base of a shock absorbing leveling assembly structure according to an embodiment of the present invention;

FIG. 5 is a schematic top view of a leveling stud of a shock absorbing leveling assembly structure according to an embodiment of the present invention;

FIG. 6 is a schematic side view of a leveling stud of a shock absorbing leveling assembly structure according to an embodiment of the present invention;

FIG. 7 is a schematic side view of a leveling stud of a shock absorbing leveling assembly structure according to an embodiment of the present invention;

FIG. 8 is a schematic structural view of a rotary leveling stud in the installation method of the shock absorbing leveling assembly structure according to the embodiment of the present invention;

fig. 9 is a schematic perspective view of a shock absorbing and leveling assembly structure according to an embodiment of the present invention.

In the figure: 1. a support base; 2. leveling studs; 101. a through hole; 102. a stop boss; 103. a pressing plate; 104. a first one-way latch; 105. a finger notch; 106. a crack stop groove; 107. a deformation absorbing groove; 108. reinforcing ribs; 201. an inner hexagonal hole; 202. the second unidirectional latch.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention and the technical solutions in the prior art, the following description will be made with reference to the accompanying drawings. It is obvious that the drawings in the following description are only some examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be derived from them without inventive effort. The designation of the design orientation merely indicates the relative positional relationship between the respective members, not the absolute positional relationship.

In order to realize the efficient production, processing and installation of the assembled built-in leveling product, in the embodiment of the invention, the damping leveling component structure consists of a supporting base and a leveling stud, and is manufactured by adopting an injection molding process. The specific contents are as follows:

on one hand, referring to fig. 1, 2, 3 and 4, the shock-absorbing leveling assembly structure provided by the embodiment of the present invention includes a supporting base 1 for supporting a keel structure and a leveling stud 2 for adjusting the height of the keel, and is characterized in that a circular through hole 101 is formed through the middle of the supporting base 1, and the leveling stud 2 can be inserted into the through hole 101 to form a stable structure. Specifically, will support base 1 and install inboard at fossil fragments (not shown in the figure), will through round hole (not shown in the figure) on the fossil fragments leveling double-screw bolt 2 alternates inside supporting base 1's through-hole 101, thereby fix support base 1 with leveling double-screw bolt 2, can also pass through the height of fossil fragments is adjusted to leveling double-screw bolt 2.

Referring to fig. 3 again, a stop boss 102 for being embedded into the keel circular hole is disposed on one side of the support base 1, and the stop boss 102 limits the support base 1, so as to prevent the support base 1 from vibrating and displacing.

One side of the supporting base 1, which faces away from the stopping boss 102, is provided with a group of pressing plates 103, the pressing plates 103 are arranged on two sides of the through hole 101, the pressing plates 103 are perpendicular to the supporting base 1, and the supporting base 1 can be conveniently fixed on the keel by the pressing plates 103. The pressing plate 103 is provided to facilitate the manual contact with the support base 1, so that the installation is more convenient.

In the embodiment of the present invention, referring to fig. 5, 6, and 7, a hexagon socket 201 is disposed in the center of the leveling stud 2, the central axis of the hexagon socket 201 is parallel to the central axis of the leveling stud 2, a set of inclined first one-way latches 104 is disposed on the inner wall of the through hole 101, the inclination direction of the first one-way latches 104 is from one end of the through hole 101 close to the stop boss 102 to the other end of the through hole 101, a set of second one-way latches 202 adapted to the first one-way latches 104 is disposed on the outer wall of the leveling stud 2, the inclination direction of the second one-way latches 202 is from one end of the leveling stud 2 facing away from the hexagon socket 201 to the other end of the leveling stud 2, one end of the leveling stud 2 facing away from the hexagon socket 201 is aligned with one end of the through hole 101 close to the stop boss 102 and pressed in, the first unidirectional latch 104 can be clamped and fixed with the second unidirectional latch 202.

Specifically, the leveling stud 2 and the support base 1 are clamped and fixed with the second one-way latch 202 through the first one-way latch 104, and the first one-way latch 104 and the second one-way latch 202 are in clamping connection and then mutually abutted after being clamped and connected with each other due to different inclination directions of the first one-way latch 104 and the second one-way latch 202, so that the leveling stud can only be fixedly inserted from one end during assembly, and cannot be vertically pulled out after being inserted.

In order to facilitate the pulling out of the leveling stud 2, in the embodiment of the present invention, referring to fig. 8, the first one-way latches 104 are uniformly distributed along the inner wall of the through hole 101 at intervals in the circumferential direction, the second one-way latches 202 are uniformly distributed along the outer side wall of the leveling stud 2 at intervals, and the spacing distance between circumferentially adjacent single teeth of the first unidirectional latch 104 is greater than the circumferential length of a single tooth of the second unidirectional latch 202, the second one-way latch 202 is distributed corresponding to the first one-way latch 104, when the leveling stud 2 is inserted into the through hole 101, the first one-way latch 104 is abutted against the second one-way latch 202, so that the leveling stud 2 cannot be pulled out, by rotating the leveling stud 2, the second one-way latch 202 is located in the circumferential gap of the first one-way latch 104, and the leveling stud 2 can be pulled out.

Specifically, the size of the second one-way latch 202 is smaller than the gap inside the first one-way latch 104, so that the second one-way latch 202 can slide out of the gap of the first one-way latch 104. Due to the arrangement, the device can be disassembled without pulling the leveling stud 2 outwards by force, and the leveling stud 2 can be pulled out only by rotating the leveling stud 2 in the through hole 101, so that the second one-way latch 202 faces to the circumferential gap of the first one-way latch 104, and the device is convenient to install and easy to disassemble.

Further, in the embodiment of the present invention, referring to fig. 9, the distribution of the first one-way latches 104 extends from one end of the through hole 101 to the other end, and the distribution of the second one-way latches 202 extends from one end of the leveling stud 2 to the other end. The purpose of setting up like this is in order to increase leveling double-screw bolt 2 with support the joint area of base 1, and then consolidate leveling double-screw bolt 2 with support the connection of base 1, make support base 1 more stable.

Furthermore, in the embodiment of the present invention, the first one-way latch 104 and the second one-way latch 202 are both plastic latches. The clamping teeth are made of plastic materials, so that the clamping teeth have obvious fool-proof effect if the clamping teeth cannot be assembled due to improper operation during installation, and quality problems caused by wrong construction can be effectively avoided; the connection of one-way plasticity buckle because the buckle has certain plasticity after the assembly for leveling subassembly has certain shock attenuation buffering effect, need not to use spare part that gasket or spring etc. have certain shock attenuation effect.

In an embodiment of the present invention, referring to fig. 9 again, a finger notch 105 is disposed on a side of the pressing plate 103 opposite to the through hole 101, and the finger notch 105 is located at an end of the pressing plate 103 away from the supporting base 1. Wherein, the finger notch 105 is mainly used for facilitating the finger pressing operation when the supporting base 1 is assembled.

Furthermore, a crack stop groove 106 is further formed in one side, back to the through hole 101, of the pressing plate 103, and the crack stop groove 106 is located between the pressing plate 103 and the supporting base 1. The crack stop groove 106 prevents the pressing plate 103 from being deformed by stress concentration after pressing and being cracked by fatigue strength.

Further, a deformation absorbing groove 107 is formed on the side of the pressing plate 103 facing the through hole 101, and the deformation absorbing groove 107 is located between the pressing plate 103 and the support base 1. The deformation absorption grooves 107 are mainly used for absorbing the deformation of the pressing plate 103, and thus the elastic connection of the pressing plate 103 is realized.

Further, the length of the pressing plate 103 is the same as the length of the support base 1.

Further, a reinforcing rib 108 is further arranged on the supporting base 1. The reinforcing ribs 108 are arranged to increase the strength of the support base 1, and prevent the shrinkage deformation of the product during the processing.

On the other hand, the invention provides a mounting method of a shock absorption leveling component structure, which is characterized by comprising the following steps:

s1, the pressing plate 103 is pinched by hands, and the support base 1 is arranged on the keel;

s2, pressing and inserting the leveling stud 2 into the through hole 101 to enable the first one-way latch 104 to be in contact with the second one-way latch 202, and accordingly fixing the leveling stud 2 and the supporting base 1;

s3, when it needs to be disassembled, a hexagonal wrench is inserted into the hexagon socket 201 of the leveling stud 2, please refer to fig. 8 again, the wrench is rotated to rotate the leveling stud 2, so that the first one-way latch 104 is disengaged from the second one-way latch 202, and the leveling stud 2 can be taken out.

The mounting method of the invention has simple mounting process and very easy disassembly, and can effectively save a large amount of time and working procedures.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the specific embodiments of the invention be limited to these descriptions. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (10)

1. The utility model provides a shock attenuation leveling subassembly structure, includes support base (1) that is used for supporting keel structure, leveling double-screw bolt (2) that are used for adjusting the fossil fragments height, its characterized in that, support base (1) middle through is equipped with circular through-hole (101), leveling double-screw bolt (2) can alternate through-hole (101) inside stable structure that forms, support base (1) one side is equipped with locking boss (102) that are arranged in embedding fossil fragments hole, support base (1) dorsad locking boss (102) one side is equipped with a set of pressure board (103), press board (103) to arrange in through-hole (101) both sides, just press board (103) perpendicular to support base (1), press board (103) can conveniently with support base (1) is fixed on fossil fragments, leveling double-screw bolt (2) center is equipped with interior hexagonal hole (201), and the central axis of the inner hexagonal hole (201) is parallel to the central axis of the leveling stud (2), a group of inclined first one-way latch teeth (104) are arranged on the inner wall of the through hole (101), the inclined direction of the first one-way latch teeth (104) is from the through hole (101) is close to one end of the stop boss (102) towards the other end of the through hole (101), a group of second one-way latch teeth (202) matched with the first one-way latch teeth (104) are arranged on the outer side wall of the leveling stud (2), the inclined direction of the second one-way latch teeth (202) is from the leveling stud (2) back to the one end of the inner hexagonal hole (201) towards the other end of the leveling stud (2), one end of the leveling stud (2) back to the inner hexagonal hole (201) is aligned to the through hole (101) close to one end of the stop boss (102) is pressed in, the first unidirectional latch (104) and the second unidirectional latch (202) can be clamped and fixed.

2. The shock-absorbing leveling component structure as claimed in claim 1, wherein the first one-way latches (104) are uniformly distributed along the inner wall of the through hole (101) at intervals in the circumferential direction, the second one-way latches (202) are uniformly distributed along the outer side wall of the leveling stud (2) at intervals, the spacing distance between circumferentially adjacent single teeth of the first one-way latches (104) is greater than the circumferential length of the single teeth of the second one-way latches (202), the distribution of the second one-way latches (202) corresponds to the first one-way latches (104), when the leveling stud (2) is inserted into the through hole (101), the first one-way latches (104) are abutted against the second one-way latches (202) so that the leveling stud (2) cannot be pulled out, and by rotating the leveling stud (2), the second one-way latches (202) are located in the circumferential gap of the first one-way latches (104), the leveling stud (2) can be pulled out.

3. A shock absorbing and leveling assembly structure as claimed in claim 2, wherein the distribution of the first one-way latch (104) extends from one end of the through hole (101) to the other end, and the distribution of the second one-way latch (202) extends from one end of the leveling stud (2) to the other end.

4. The shock absorbing and leveling assembly structure as recited in claim 1, wherein the first one-way latch (104) and the second one-way latch (202) are both plastic snaps.

5. A shock-absorbing leveling assembly structure according to claim 1, wherein a finger notch (105) is formed in a side of the pressing plate (103) facing away from the through hole (101), and the finger notch (105) is located at an end of the pressing plate (103) far away from the supporting base (1).

6. The shock-absorbing leveling assembly structure as claimed in claim 1, wherein a crack stop groove (106) is further formed in a side, facing away from the through hole (101), of the pressing plate (103), and the crack stop groove (106) is located between an included angle formed by the pressing plate (103) and the support base (1).

7. A shock-absorbing leveling assembly structure according to claim 1, wherein the pressing plate (103) is provided with a deformation-absorbing groove (107) at a side facing the through hole (101), and the deformation-absorbing groove (107) is located between the pressing plate (103) and the support base (1).

8. A shock absorbing leveling assembly structure according to claim 1 wherein the length of the pressing plate (103) is the same as the length of the support base (1).

9. A shock absorbing and leveling assembly structure as claimed in claim 1, wherein the supporting base (1) is further provided with a reinforcing rib (108).

10. The method for installing the shock-absorbing leveling assembly structure as claimed in any one of claims 1 to 9, which comprises the following steps:

s1, pinching the pressing plate (103) by hand, and installing the supporting base (1) on the keel;

s2, pressing and inserting the leveling stud (2) into the through hole (101) to enable the first one-way latch (104) to be abutted against the second one-way latch (202), and accordingly fixing the leveling stud (2) and the supporting base (1);

s3, when disassembly is needed, a hexagonal wrench is inserted into the hexagon socket (201) of the leveling stud (2), the leveling stud (2) is rotated by rotating the wrench, the first one-way latch (104) is separated from the second one-way latch (202), and then the leveling stud (2) can be taken out.

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