CN216196259U - Wall keel connecting assembly capable of being quantitatively adjusted - Google Patents

Abstract

The utility model provides a wall surface keel connecting assembly capable of being adjusted quantitatively, and belongs to the technical field of wall surface decoration. This wall fossil fragments coupling assembling that can quantify the regulation includes first fastening structure, first connection structure, second connection structure. The quantifiable adjusting connection enables a user to have a numerical value which can be used as a basis, blind estimation and adjustment are not needed, too large adjusting error is avoided to cause too low installation quality, and damage caused by too large keel installation deformation can also be avoided; the connecting assemblies can be arranged in a plurality along the length direction of the keel, only the first connecting assembly needs to be calculated and quantitatively adjusted on the same keel, and the adjusting values of other connecting assemblies are adjusted to be the same as those of the first connecting assembly, so that the method is simple and convenient; all parts can all be prefabricated in the mill, and the industrialization degree is high, and the assembled installation, installation site environment is good.

Description

Wall keel connecting assembly capable of being quantitatively adjusted

Technical Field

The utility model relates to the technical field of wall decoration, in particular to a wall keel connecting assembly capable of being adjusted quantitatively.

Background

Traditional assembled wall decoration method, generally, pass through fastener direct mount horizontal and vertical fossil fragments on the surface of structure wall, the wallboard that will be used for forming the wall is fixed on horizontal and vertical fossil fragments, mounting means makes fossil fragments produce the deformation the same with structure wall surface like this, when structure wall surface unevenness promptly, can't carry out the regulation of angle and position to the first part of connecting the wall and the second part of connecting the wallboard respectively according to the angle between the fossil fragments on wall body and the wallboard, the fossil fragments after the installation are also not level, finally lead to the wall of installation also not level, influence pleasing to the eye.

Chinese patent CN212317373U, publication No. 2021-01-08, discloses a connecting assembly, a keel mechanism and a wall system, the wall system comprising: a plurality of the keel mechanisms are arranged in parallel; the wallboard unit, it includes a plurality ofly, what a plurality of wallboard unit matrix arranged fixes on the fossil fragments in fossil fragments mechanism. Each keel mechanism comprises a keel; the connecting assemblies are arranged between the keel and the structural wall and at least comprise two connecting assemblies, the two connecting assemblies are arranged at intervals along the length direction of the keel, and each connecting assembly comprises a first part, a second part and a bolt; the first component is provided with a first through hole and a first connecting part used for being fixed with the structural wall; the second component is provided with a second through hole and a second connecting part used for being fixed with the keel; the bolt penetrates through the first through hole and the second through hole, a nut is sleeved on the bolt, and the nut is screwed to enable the first component and the second component to be relatively adjusted and fixed; the first through hole and the second through hole are both long waist holes. First part in the above-mentioned patent is connected in the structure wall body, and the second part is connected in fossil fragments, and the bolt passes the first through-hole on the first part and the second through-hole on the second part respectively, and the nut is through revolving soon so that be used for making first part with the second part is fixed after the relative adjustment, and this kind can use when the wallboard is on a parallel with the structure wall body, but when the fossil fragments on wall unevenness and the wallboard are not parallel to the wall body, then inconvenient installation, and fossil fragments after the installation are also not level, finally lead to the wall of installation also not level, influence pleasing to the eye.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a wall surface keel connecting component capable of being quantitatively adjusted, aiming at the defects of the prior art.

The utility model provides a wall surface keel connecting assembly capable of being quantitatively adjusted, which is used for fixedly connecting a keel arranged on a wall plate with a wall body and comprises a first fastening structure, a first connecting structure and a second connecting structure, wherein the first connecting structure comprises a first base body, one side part of which is connected with the wall body, a first mounting groove arranged at the other side part of the first base body, and a first scale part arranged on the same side part of the first base body as the first mounting groove; the another lateral part of second base member rotates first predetermined angle or the calibrated scale and slides first predetermined length to the another lateral part butt of second base member and connect in fossil fragments in first mounting groove at the calibrated scale round first mounting groove axis when fossil fragments, first fastening structure is respectively with another lateral part of first base member and a lateral part fastening connection of second base member.

Further, first base member is first angle sign indicating number, first angle sign indicating number includes the first mounting panel that is on a parallel with the wall body, connects perpendicularly in the second mounting panel of first mounting panel, first angle sign indicating number is still including setting up the second mounting groove on the second mounting panel, the width of first mounting groove is greater than the width of second mounting groove, the second mounting groove communicates in first mounting groove, second mounting groove, the coaxial setting of first mounting groove.

Further, second connection structure still includes the round platform, the second base member is the second angle sign indicating number, the second angle sign indicating number is including the third mounting panel that is on a parallel with fossil fragments, the fourth mounting panel of vertical connection in the third mounting panel, round platform one side end fixed connection is on the fourth mounting panel, dial disc one side end fixed connection is in another side of round platform.

Furthermore, a first threaded through hole is formed in the fourth mounting plate, a first fixing through hole is formed in the circular truncated cone, a second fixing through hole is formed in the dial, and the first fastening structure comprises a first stud and a first nut; first double-screw bolt one end spiro union in first screw thread through-hole and pass first fixed through-hole, second mounting groove in proper order when the calibrated scale is pegged graft in first mounting groove, first nut spiro union is in the portion of protruding the second mounting panel on first double-screw bolt.

Further, first connection structure still includes the first magnet that sets up in the inboard bottom of first mounting groove, the length of first magnet equals the length of first mounting groove, the another side of calibrated scale is equipped with second magnet, second magnet magnetism is inhaled in first magnet.

Further, first connection structure still includes the first backup pad of connecting in first base member bottom, be equipped with second screw thread through-hole on the first backup pad, first fastening structure still includes the second double-screw bolt, a screw joint of second double-screw bolt is in second screw thread through-hole and butt in the part that the second mounting panel is stuck out on first double-screw bolt.

Further, the sum of the thicknesses of the dial and the circular truncated cone is equal to the depth of the first mounting groove.

Furthermore, a plurality of third mounting grooves are formed in the circular table, and fixing columns inserted into the third mounting grooves are arranged at one side end of the dial.

Further, first double-screw bolt inboard is equipped with first thread groove, first fastening structure still includes the third double-screw bolt, the third double-screw bolt spiro union is in first thread groove, be equipped with a plurality of parallel arrangement's second screw thread through-hole on the first backup pad, second double-screw bolt one end spiro union is in second screw thread through-hole and butt in the third double-screw bolt.

Furthermore, a third threaded through hole is formed in the third stud, and one end of the second stud is sequentially screwed in the second threaded through hole and the third threaded through hole.

The wall surface keel connecting component capable of being quantitatively adjusted has the following beneficial effects:

connecting one side part of a first base body to a wall body, respectively connecting one end of a keel to two adjacent wall boards, inserting a dial into a first mounting groove, rotating a second base body to enable the dial to rotate a first preset angle around the axis of the first mounting groove in the first mounting groove or move the second base body in the vertical direction to enable the dial to slide a first preset length up and down along the vertical direction in the first mounting groove, enabling the other side part of the second base body to be abutted against the other end of the keel, tightly connecting the other side part of the second base body with the other end of the keel, respectively and tightly connecting the other side part of the first base body with one side part of the second base body through a first fastening structure, thereby realizing quantitative adjustment of the first connecting structure and the second connecting structure according to the position relation between the wall surface and the keel, and realizing adjustment of the positions and angles of the first connecting structure and the second connecting structure, the structure is simple, and the installation is convenient; the quantifiable adjusting connection enables a user to have numerical values which can be used as a basis, blind estimation and adjustment are not needed, too large adjusting error is avoided to cause too low installation quality, and damage caused by too large keel installation deformation can also be avoided; the connecting assemblies can be arranged in a plurality along the length direction of the keel, only the first connecting assembly needs to be calculated and quantitatively adjusted on the same keel, and the adjusting values of other connecting assemblies are adjusted to be the same as those of the first connecting assembly, so that the method is simple and convenient; all parts can all be prefabricated in the mill, and the industrialization degree is high, and the assembled installation, installation site environment is good.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate embodiments of the utility model and together with the description, serve to explain the principles of the utility model. 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 utility model. For a person skilled in the art, other figures can be derived from these figures without inventive effort.

Fig. 1 is a schematic structural view of a quantifiably adjustable wall keel connection assembly according to an embodiment of the utility model;

fig. 2 is a cross-sectional view of connection between a first base and a second base when one end of a first stud in a wall surface keel connecting assembly capable of quantitative adjustment according to an embodiment of the present invention is screwed to a first threaded through hole and sequentially passes through a first fixing through hole, a second mounting groove, and a first nut is screwed to the first stud and protrudes out of a second mounting plate;

fig. 3 is a schematic structural view of a first base in a quantifiably adjustable wall keel connection assembly according to an embodiment of the utility model;

FIG. 4 is a cross-sectional view of a first substrate in a quantitatively adjustable wall surface keel connection assembly according to an embodiment of the utility model;

fig. 5 is a schematic structural view illustrating a circular truncated cone of a wall surface keel connecting assembly capable of quantitative adjustment according to an embodiment of the utility model when the circular truncated cone is connected to a second base;

fig. 6 is a cross-sectional view of a circular table of a quantitatively adjustable wall keel connecting assembly according to an embodiment of the utility model, when connected to a second substrate;

fig. 7 is a schematic structural view of a dial in a quantitatively adjustable wall surface keel connecting assembly according to an embodiment of the utility model;

FIG. 8 is a cross-sectional view of a dial in a quantitatively adjustable wall keel connection assembly according to an embodiment of the utility model;

FIG. 9 is a side view of a dial in a quantitatively adjustable wall keel connection assembly according to an embodiment of the utility model;

FIG. 10 is a first side view of a second substrate of a quantitatively adjustable wall surface keel connection assembly according to an embodiment of the utility model sliding and rotating in a first mounting groove in the first substrate;

FIG. 11 is a second side view of a second base of a quantitatively adjustable wall surface keel connection assembly according to an embodiment of the utility model sliding and rotating within a first mounting slot on a first base;

fig. 12 is a schematic structural view illustrating a third stud bolt screwed to the first thread groove and an end of the second stud bolt screwed to the second thread through hole and connected to the third stud bolt in the quantifiably adjustable wall surface keel connecting assembly according to the embodiment of the utility model;

fig. 13 is a cross-sectional view of a quantifiably adjustable wall keel connecting assembly according to an embodiment of the utility model, in which a third stud is screwed into the first threaded groove, and one end of the second stud is screwed into the second threaded through hole and connected to the third stud;

fig. 14 is a cross-sectional view of the wall surface keel connecting assembly capable of quantitative adjustment according to the embodiment of the utility model, wherein a third stud is screwed in the first threaded groove, and one end of the second stud is sequentially screwed in the second threaded through hole and the third threaded through hole.

In the figure: 1-a first connecting structure, 11-a first mounting plate, 12-a second mounting plate, 121-a first mounting groove, 122-a second mounting groove, 123-a first scale part, 13-a first support plate, 131-a second threaded through hole, 2-a second connecting structure, 21-a third mounting plate, 22-a fourth mounting plate, 221-a first threaded through hole, 23-a dial, 231-a second fixing through hole, 232-a fixing column, 24-a circular table, 241-a third mounting groove, 242-a first fixing through hole, 3-a first fastening structure, 31-a first stud, 311-a first threaded groove, 32-a first nut, 33-a washer, 34-a third stud, 341-a third threaded through hole, 35-a second stud.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be arbitrarily combined with each other without conflict.

Please refer to fig. 1 to 14. The wall surface keel connecting assembly capable of being quantitatively adjusted, which is provided by the embodiment of the utility model, is used for fixedly connecting a keel arranged on a wall plate with a wall body, and comprises a first fastening structure 3, a first connecting structure 1 and a second connecting structure 2, wherein the first connecting structure 1 comprises a first base body with one side part connected to the wall body, a first mounting groove 121 arranged on the other side part of the first base body, and a first scale part 123 arranged on the same side part of the first base body as the first mounting groove 121, the first scale part 123 is parallel to the first mounting groove 121, the second connecting structure 2 comprises a second base body and a dial scale 23 connected to one side part of the second base body, the length of the first mounting groove 121 is greater than the diameter of the dial scale 23, and the dial 23 can rotate in the first mounting groove 121; the other lateral part of second base member rotates first preset angle or dial 23 and slides first preset length in first mounting groove 121 to connect in the fossil fragments when fossil fragments to the other lateral part butt of second base member in first mounting groove 121 round first mounting groove 121 axis at dial 23, and first fastening structure 3 is respectively with the other lateral part of first base member and a lateral part fastening connection of second base member.

Here, one side of the first base is connected to the wall, one end of the keel is connected to two adjacent wall panels, the dial plate 23 is inserted into the first mounting groove 121, the second base is rotated to rotate the dial plate 23 in the first mounting groove 121 by a first predetermined angle around the axis of the first mounting groove 121 or move the second base in the vertical direction to slide the dial plate 23 in the first mounting groove 121 up and down by a first predetermined length in the vertical direction, so that the other side of the second base abuts against the other end of the keel, the other side of the second base is fastened to the other end of the keel, the other side of the first base is fastened to one side of the second base by the first fastening structure 3, thereby realizing quantitative adjustment of the first connecting structure 1 and the second connecting structure 2 according to the position relationship between the wall and the keel, and realizing adjustment of the position and angle of the first connecting structure 1 and the second connecting structure 2, the structure is simple, and the installation is convenient; the quantifiable adjusting connection enables a user to have numerical values which can be used as a basis, blind estimation and adjustment are not needed, too large adjusting error is avoided to cause too low installation quality, and damage caused by too large keel installation deformation can also be avoided; the connecting assemblies can be arranged in a plurality along the length direction of the keel, only the first connecting assembly needs to be calculated and quantitatively adjusted on the same keel, and the adjusting values of other connecting assemblies are adjusted to be the same as those of the first connecting assembly, so that the method is simple and convenient; all parts can all be prefabricated in the mill, and the industrialization degree is high, and the assembled installation, installation site environment is good. According to the position relation between wall body and the fossil fragments in this application, can adopt to rotate the second base member and make calibrated scale 23 rotate first preset angle around first mounting groove 121 axis in first mounting groove 121, also can adopt to move the second base member in vertical direction and make calibrated scale 23 slide first preset length from top to bottom along vertical direction in first mounting groove 121, can also adopt to rotate the second base member in proper order and make calibrated scale 23 rotate first preset angle and move the second base member in vertical direction around first mounting groove 121 axis in first mounting groove 121 and make calibrated scale 23 slide first preset length from top to bottom along vertical direction in first mounting groove 121.

First base member is first angle sign indicating number, and first angle sign indicating number still includes the second mounting panel 122 that sets up on second mounting panel 12 including being on a parallel with the first mounting panel 11 of wall body, perpendicular connection in first mounting panel 11, and the width of first mounting groove 121 is greater than the width of second mounting groove 122, and second mounting groove 122 communicates in first mounting groove 121, second mounting groove 122, the coaxial setting of first mounting groove 121. The first corner brace can be formed by bending. The first mounting plate 11 is attached to the wall. The middle part of first mounting groove 121 is the rectangular channel, and the both ends of first mounting groove 121 are the semicircular groove that two radiuses equal respectively, and calibrated scale 23 is circular dish, and the width of the rectangular channel at first mounting groove 121 middle part is greater than the diameter of calibrated scale 23, makes things convenient for calibrated scale 23 at the rectangular channel internal rotation and slip, and the diameter in semicircular groove equals the width of rectangular channel, makes things convenient for calibrated scale 23 at the semicircular groove internal rotation.

The second connecting structure 2 can further comprise a circular table 24, the second base body is a second corner connector, the second corner connector comprises a third mounting plate 21 parallel to the keel and a fourth mounting plate 22 vertically connected to the third mounting plate 21, one side end of the circular table 24 is fixedly connected to the fourth mounting plate 22, and one side end of the dial 23 is fixedly connected to the other side end of the circular table 24. Third mounting panel 21 is connected in the fossil fragments, can set up this coupling assembling of multiunit according to fossil fragments type and shape, and the fossil fragments can be polytype fossil fragments, for example butt joint fossil fragments, reentrant corner fossil fragments, external corner fossil fragments etc.. The second corner brace can be formed by bending.

The first scale portion 123 includes two first scale areas respectively disposed at both sides of the first mounting groove 121, the first scale areas are perpendicular to the first mounting groove 121, the first scale areas include linear scales, when the scale 23 is inserted into the first mounting groove 121, the side portion of the third mounting plate 21 is aligned with the side portion of the second mounting plate 12, the side portion of the fourth mounting plate 22 is aligned with the initial scale line of the linear scales, when the first fastening structure 3 does not fasten the first base body to the second base body, the first corner brace and the second corner brace can be slid relatively, the distance between the keel and the surface of the structural wall is adjusted by adjusting the distance between the third mounting plate 21 and the first mounting plate 11, after the first connecting assembly is adjusted, the actual linear scales on the first connecting assembly are recorded, other connecting assemblies are sequentially adjusted, and other connecting assemblies are adjusted to the positions of the actual linear scales, the quantization adjustment is implemented by the straight scale of the first scale section 123.

The center line of the first mounting groove 121 coincides with the center line of the second mounting plate 12, the second mounting groove 122 may be a rectangular groove, and the center line of the second mounting groove 122 coincides with the center line of the first mounting groove 121. When the angle is adjusted, when the first fastening structure 3 does not fasten the first base body and the second base body, the circular scale on the scale plate 23 is observed through the second mounting groove 122, because the observation visual angle is limited, the circular scale on the scale plate 23 can be properly widened, for example, the angle between two adjacent scale lines is 30 °, and the color of two adjacent scale lines can be one black and one red, which is convenient for distinguishing. After the dial 23 is connected with the circular truncated cone 24, when the rotation angle of the second corner brace is zero, a scale mark on the dial 23 needs to be vertically upward, so that the initial position of the angle can be conveniently confirmed.

A first threaded through hole 221 is formed in the fourth mounting plate 22, a first fixing through hole 242 is formed in the circular truncated cone 24, a second fixing through hole 231 is formed in the dial 23, and the first fastening structure 3 comprises a first stud 31 and a first nut 32; one end of the first stud 31 is screwed to the first threaded through hole 221 and sequentially passes through the first fixing through hole 242, the second fixing through hole 231 and the second mounting groove 122 when the dial plate 23 is inserted into the first mounting groove 121, and the first nut 32 is screwed to a portion of the first stud 31 protruding out of the second mounting plate 12. The first nut 32 is screwed on the first stud 31, a first nut is arranged at one end of the first stud 31, and the first nut 32 are matched with each other, so that relative sliding cannot be generated between the fourth mounting plate 22 and the second mounting plate 12, relative sliding cannot be generated between the dial plate 23 and the first mounting groove 121, the dial plate 23 is fixed, and the fourth mounting plate 22 and the second mounting plate 12 are fastened and connected. The first fastening structure 3 further includes a washer 33 sleeved on the first stud 31, and one side end of the washer 33 abuts against the fourth mounting plate 22 when one end of the first stud 31 sequentially passes through the first fixing through hole 242, the second fixing through hole 231, and the second mounting groove 122.

The first connecting structure 1 further comprises a first magnet arranged at the bottom of the inner side of the first mounting groove 121, the length of the first magnet is equal to that of the first mounting groove 121, and a second magnet is arranged at the other side end of the dial plate 23 and magnetically attracted to the first magnet. The bottom of first mounting groove 121 is equipped with the supporting part, be equipped with first mounting groove 121 on second mounting panel 12 from a second mounting panel 12 lateral part to the supporting part, be equipped with second mounting groove 122 on second mounting panel 12 from another lateral part of second mounting panel 12 to the supporting part, second mounting groove 122 and first mounting groove 121 intercommunication, first magnet is fixed in on the supporting part, the second magnet can be ring magnet, inhale first magnet with second magnet magnetism after the first predetermined angle of calibrated scale 23 internal rotation or the first predetermined length of slip in first mounting groove 121, thereby the stability that calibrated scale 23 and first mounting groove 121 are connected has been improved.

The first connecting structure 1 further comprises a first supporting plate 13 connected to the bottom of the first base body, a second threaded through hole 131 is formed in the first supporting plate 13, the first fastening structure 3 further comprises a second stud 35, one end of the second stud 35 is screwed in the second threaded through hole 131 and abuts against the portion, protruding out of the second mounting plate 12, of the first stud 31. The first support plate 13 can be connected to the second mounting plate 12 at one end, when one end of the first stud 31 sequentially passes through the first fixing through hole 242, the second fixing through hole 231 and the second mounting groove 122 and protrudes out of the second mounting plate 12, one end of the second stud 35 is screwed to the second threaded through hole 131 and abuts against the part of the first stud 31 protruding out of the second mounting plate 12, so that the first stud 31 can be supported by the second stud 35, thereby improving the stability of the first stud 31, after the first stud 31 is used for a long time, the first nut 32 and the first stud 31 are loosened, so that the second mounting plate 12 and the fourth mounting plate 22 cannot be fastened and connected, the second stud 35 supports the first stud 31, thereby preventing the dial plate 23 from moving due to the downward movement of the first stud 31 and further causing the change of the rectangle between the first mounting plate 11 and the third mounting plate 21, causing the third panel 21 to fail to attach to the keel when the first panel 11 is attached to the structural wall. The first support plate 13 is parallel to the first studs 31 and the second studs 35 are perpendicular to the first support plate 13.

The sum of the thicknesses of the dial 23 and the round table 24 is equal to the depth of the first mounting groove 121, one side part of the fourth mounting plate 22 can be abutted against the second mounting plate 12, the mounting efficiency is improved, the force on the fourth mounting plate 22 can be uniformly applied to the second mounting plate 12, the situation that the sum of the thicknesses of the dial 23 and the round table 24 is larger than the depth of the first mounting groove 121 is avoided, the round table 24 protrudes out of the first mounting groove 121 at the moment, a gap exists between the fourth mounting plate 22 and the second mounting plate 12, the second mounting plate 12 supports the fourth mounting plate 22 through the dial 23 and the round table 24, the force applied to the fourth mounting plate 22 is easily concentrated on the round table 24 and then transmitted to the second mounting plate 12, the round table 24 is easily damaged after long-time mounting, and the force on the fourth mounting plate 22 is uniformly applied to the second mounting plate 12 when the sum of the thicknesses of the dial 23 and the round table 24 is equal to the depth of the first mounting groove 121, the stability of the connection of the fourth mounting plate 22 and the second mounting plate 12 is improved.

The circular truncated cone 24 is provided with a plurality of third mounting grooves 241, and one side end of the dial plate 23 is provided with a fixing column 232 inserted into the third mounting grooves 241, so that the dial plate 23 can be conveniently connected to the circular truncated cone 24.

The inner side of the first stud 31 is provided with a first thread groove 311, the first fastening structure 3 further comprises a third stud 34, the third stud 34 is screwed on the first thread groove 311, the first support plate 13 is provided with a plurality of second thread through holes 131 arranged in parallel, and one end of the second stud 35 is screwed on the second thread through holes 131 and abuts against the third stud 34. When one end of the first stud 31 sequentially passes through the first fixing through hole 242, the second fixing through hole 231 and the second mounting groove 122 and protrudes out of the second mounting plate 12, the length of the portion, protruding out of the second mounting plate 12, of the first stud 31 is short, so that the second stud 35 cannot abut against the first stud 31 after being screwed on one first threaded through hole 221, and therefore the first stud 31 cannot be supported, the third stud 34 is clamped on the inner side of the first stud 31, and after the third stud 34 is adjusted to protrude out of the second mounting plate 12 by a certain length, the third stud 34 is located right above the second threaded through hole 131 on the first support plate 13, and the second stud 35 is conveniently screwed on one second threaded through hole 131 and abuts against the third stud 34, and therefore the first stud 31 is supported.

A third threaded through hole 341 is formed in the third stud 34, and one end of the second stud 35 is sequentially screwed in the second threaded through hole 131 and the third threaded through hole 341. Screwing the third stud 34 into the first thread groove 311, aligning the third thread through hole 341 with the second thread through hole 131 by observing and screwing the third stud 34, and then screwing one end of the second stud 35 into the second thread through hole 131 and the third thread through hole 341 in sequence, so as to fasten and connect the second stud 35 and the third stud 34, realize fastening and connecting the second stud 35 and the first stud 31, and realize supporting the first stud 31; one end of the circular truncated cone 24 is connected to the fourth mounting plate 22, the other end of the circular truncated cone 24 is connected to the dial plate 23, so the dial plate 23 and the fourth mounting plate 22 synchronously move, the first stud 31 is screwed to the first threaded through hole 221 on the fourth mounting plate 22, the first stud 31 is tightly connected with the fourth mounting plate 22, the first stud 31 and the fourth mounting plate 22 synchronously move, the first stud 31 and the dial plate 23 synchronously move, the second stud 35 is screwed to the second threaded through hole 131 on the third stud 34, the third stud 34 cannot rotate, the first stud 31 cannot rotate, the dial plate 23 can be fixed in the first mounting groove 121, the position relation between the fourth mounting plate 22 and the second mounting plate 12 can be fixed, the position relation between the first mounting plate 11 and the third mounting plate 21 can be fixed, and the first mounting plate 11 can be fixed on a structural wall body according to the angle between the wall body and the keel on the wall body when the first mounting plate 11 is fixed on the structural wall body The third mounting plate 21 is fixedly attached to the keel.

The above-described aspects may be implemented individually or in various combinations, and such variations are within the scope of the present invention.

It should be noted that, in the description of the present application, it should be noted that the terms "upper end", "lower end" and "bottom end" indicating the orientation or positional relationship are based on the orientation or positional relationship shown in the drawings or the orientation or positional relationship which the product of the application is usually placed in when the product of the application is used, and are only for convenience of describing the present application and simplifying the description, but do not indicate or imply that the device referred to must have a specific orientation, be constructed in a specific orientation and be operated, and thus, should not be construed as limiting the present application. 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.

Finally, it should be noted that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. 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 such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a wall fossil fragments coupling assembling that can quantify the regulation for will set up fossil fragments and wall body fastening connection on the wallboard, its characterized in that: the wall body fixing structure comprises a first fastening structure (3), a first connecting structure (1) and a second connecting structure (2), wherein the first connecting structure (1) comprises a first base body with one side connected to a wall body, a first mounting groove (121) formed in the other side of the first base body, and a first scale part (123) formed in the same side of the first base body as the first mounting groove (121), the first scale part (123) is parallel to the first mounting groove (121), the second connecting structure (2) comprises a second base body and a scale disc (23) connected to one side of the second base body, the length of the first mounting groove (121) is larger than the diameter of the scale disc (23), and the scale disc (23) can rotate in the first mounting groove (121); the other lateral part of second base member rotates first predetermined angle or dial (23) and slides first predetermined length to the other lateral part butt of second base member in first mounting groove (121) and connect in the fossil fragments when fossil fragments in first mounting groove (121) round first mounting groove (121) axis dial (23), first fastening structure (3) are respectively with the other lateral part of first base member and a lateral part fastening connection of second base member.

2. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 1, wherein: first base member is first angle sign indicating number, first angle sign indicating number is including first mounting panel (11), the perpendicular second mounting panel (12) of connecting in first mounting panel (11) that is on a parallel with the wall body, first angle sign indicating number is still including setting up second mounting groove (122) on second mounting panel (12), the width of first mounting groove (121) is greater than the width of second mounting groove (122), second mounting groove (122) communicate in first mounting groove (121), second mounting groove (122), first mounting groove (121) coaxial setting.

3. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 1 or 2, wherein: second connection structure (2) still include round platform (24), the second base member is second angle sign indicating number, the second angle sign indicating number is including third mounting panel (21), the perpendicular connection in fourth mounting panel (22) of third mounting panel (21) that is on a parallel with fossil fragments, round platform (24) one side end fixed connection is on fourth mounting panel (22), dial (23) one side end fixed connection is in round platform (24) another side.

4. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 3, wherein: a first threaded through hole (221) is formed in the fourth mounting plate (22), a first fixing through hole (242) is formed in the circular truncated cone (24), a second fixing through hole (231) is formed in the dial (23), and the first fastening structure (3) comprises a first stud (31) and a first nut (32); one end of the first stud (31) is screwed in the first threaded through hole (221) when the dial plate (23) is inserted in the first mounting groove (121) and sequentially penetrates through the first fixing through hole (242), the second fixing through hole (231) and the second mounting groove (122), and the first nut (32) is screwed on the part protruding out of the second mounting plate (12) on the first stud (31).

5. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 3, wherein: first connection structure (1) is still including setting up in the first magnet of the inboard bottom of first mounting groove (121), the length of first magnet equals the length of first mounting groove (121), another side of calibrated scale (23) is equipped with second magnet, second magnet magnetism is inhaled in first magnet.

6. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 4, wherein: first connection structure (1) is still including connecting in first backup pad (13) of first base member bottom, be equipped with second screw thread through-hole (131) on first backup pad (13), first fastening structure (3) still includes second double-screw bolt (35), second double-screw bolt (35) one end spiro union in second screw thread through-hole (131) and butt bulge out the part of second mounting panel (12) on first double-screw bolt (31).

7. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 3, wherein: the sum of the thicknesses of the dial plate (23) and the circular truncated cone (24) is equal to the depth of the first mounting groove (121).

8. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 3, wherein: the round table (24) is provided with a plurality of third mounting grooves (241), and one side end of the dial (23) is provided with a fixing column (232) inserted in the third mounting grooves (241).

9. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 6, wherein: first double-screw bolt (31) inboard is equipped with first thread groove (311), first fastening structure (3) still include third double-screw bolt (34), third double-screw bolt (34) spiro union is in first thread groove (311), be equipped with a plurality of parallel arrangement's second screw through-hole (131) on first backup pad (13), second double-screw bolt (35) one end spiro union is in second screw through-hole (131) and butt in third double-screw bolt (34).

10. A quantitatively adjustable wall surface keel connection assembly as claimed in claim 9, wherein: and a third threaded through hole (341) is formed in the third stud (34), and one end of the second stud (35) is sequentially screwed in the second threaded through hole (131) and the third threaded through hole (341).

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