CN211499599U - Lead to long formula aluminum alloy draw-in groove fossil fragments mounting structure - Google Patents

Abstract

The utility model relates to a through-length aluminum alloy clamping groove keel mounting structure, which comprises an upper fiber cement thin plate, a lower fiber cement thin plate and a keel component, wherein the upper fiber cement thin plate is provided with a second guide inclined plane and a second flexible film; the lower fiber cement sheet is provided with a third guide inclined plane and a third soft rubber sheet; the keel component comprises an aluminum alloy base, a limiting rubber cover, an upper embedded strip, a lower embedded strip, an upper screw, a lower screw and a positioning screw, wherein a limiting convex part is arranged on the aluminum alloy base, and the limiting rubber cover is provided with an upper strip-shaped clamping groove, a lower strip-shaped clamping groove, an upper jacking inclined plane and a lower jacking inclined plane; the upper strip-shaped clamping groove and the lower strip-shaped clamping groove are respectively clamped on the second convex strip portion and the third convex strip portion, the upper jacking inclined surface and the lower jacking inclined surface are respectively attached to the second guide inclined surface and the third guide inclined surface, and the positioning screw penetrates through the limiting rubber cover and then is in threaded connection with the limiting convex portion. The utility model has the advantages of good reliability, convenient installation and replacement, high safety and the like.

Description

Lead to long formula aluminum alloy draw-in groove fossil fragments mounting structure

Technical Field

The utility model relates to a building technical field, especially a logical long formula aluminum alloy draw-in groove fossil fragments mounting structure.

Background

At present, during the installation process of the fiber cement sheet, rivets penetrate through the fiber cement sheet to be fixed on the wall surface or the ceiling. The thin fiber cement sheet is thin, so that in the process of installing rivets on the thin fiber cement sheet, the thin fiber cement sheet is easy to warp or break at corners, so that the attractiveness of installation of the thin fiber cement sheet is greatly reduced, the construction working hours are prolonged, and the difficulty of installation operation is very high. Still because the installation back is accomplished to the fiber cement sheet metal to the rivet, an effort can be given for the fiber cement sheet metal all the time, and the effort of each rivet effect on the fiber cement sheet metal hardly reaches uniformly, when the fiber cement sheet metal received external force and assaulted, external force can superpose mutually with the effort of rivet, easily leads to the cracked condition to appear in the fiber cement sheet metal to make the security performance of fiber cement sheet metal reduce.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to solve above-mentioned problem and not enough, provide a logical long formula aluminum alloy draw-in groove fossil fragments mounting structure, this logical long formula aluminum alloy draw-in groove fossil fragments mounting structure has advantages such as good reliability, installation change convenience, security height.

The technical scheme of the utility model is realized like this:

a through-length type aluminum alloy clamping groove keel mounting structure is characterized by comprising an upper fiber cement sheet, a lower fiber cement sheet and a keel component, wherein the upper and lower side edges of the front surface of the upper fiber cement sheet are respectively provided with a first convex strip part and a second convex strip part, the first convex strip part and the second convex strip part extend transversely, and the two ends of the first convex strip part and the two ends of the second convex strip part extend to the left side and the right side of the fiber cement sheet, a first guide inclined plane is arranged on the lower side edge of the front surface of the first convex strip part, a second guide inclined plane is arranged on the upper side edge of the front surface of the second convex strip part, a first soft rubber sheet is bonded on the top surface of the upper fiber cement thin plate, the first flexible film is simultaneously bonded on the upper surface of the first convex strip, the second flexible film is bonded on the bottom surface of the upper fiber cement thin plate, and the second flexible film is simultaneously bonded on the lower surface of the second convex strip; the upper side and the lower side of the front surface of the lower fiber cement thin plate are respectively provided with a third convex strip and a fourth convex strip, the third convex strip and the fourth convex strip transversely extend, two ends of the third convex strip and two ends of the fourth convex strip extend to the left side and the right side of the lower fiber cement thin plate, the lower side of the front surface of the third convex strip is provided with a third guide inclined plane, the upper side of the front surface of the fourth convex strip is provided with a fourth guide inclined plane, the top surface of the lower fiber cement thin plate is bonded with a third soft rubber sheet, the third soft rubber sheet is bonded on the upper surface of the third convex strip, the bottom surface of the lower fiber cement thin plate is bonded with a fourth soft rubber sheet, and the fourth soft rubber sheet is bonded on the lower surface of the fourth convex strip; the keel component comprises an aluminum alloy base, a limiting rubber cover, an upper embedded strip, a lower embedded strip, upper screws, lower screws and positioning screws, wherein the aluminum alloy base is of a long strip-shaped structure and is transversely arranged, a limiting convex part is arranged on the front surface of the aluminum alloy base and transversely extends to the left side edge and the right side edge of the aluminum alloy base, the upper surface and the lower surface of the limiting convex part are parallel to each other, the distance from the upper surface to the lower surface of the limiting convex part is H, a threaded hole is formed in the front surface of the limiting convex part, an upper soft rubber sheet and a lower soft rubber sheet are respectively bonded on the front surface of the aluminum alloy base above and below the limiting convex part, an upper fixing lug and a lower fixing lug are respectively arranged on the upper surface and the lower surface of the aluminum alloy base, and the upper fixing lug and the lower fixing lug are transversely extended to the two ends of, the front surface of the upper fixing lug is provided with an upper perforation, the upper perforation penetrates through the rear surface of the upper fixing lug, the front surface of the lower fixing lug is provided with a lower perforation, the lower perforation penetrates through the rear surface of the lower fixing lug, the limiting rubber cover is of a long strip structure, the limiting rubber cover is transversely arranged, the front surface of the limiting rubber cover is provided with a countersunk hole, the countersunk hole penetrates through the rear surface of the limiting rubber cover, the rear surface of the limiting rubber cover is respectively provided with an upper strip-shaped clamping groove and a lower strip-shaped clamping groove which are vertically arranged, the upper strip-shaped clamping groove and the lower strip-shaped clamping groove are respectively positioned at the upper side and the lower side of the countersunk hole, the upper strip-shaped clamping groove and the lower strip-shaped clamping groove transversely extend to the left end surface and the right end surface of the limiting rubber cover, the lower groove wall of the upper strip-shaped clamping groove is parallel to the upper groove wall of the lower strip-shaped clamping groove, and the shortest distance from the lower groove wall of the upper strip-shaped clamping groove to the upper groove, h is equal to H, an upper jacking inclined plane is arranged on the edge of an upper notch of the upper strip-shaped clamping groove, and a lower jacking inclined plane is arranged on the edge of a lower notch of the lower strip-shaped clamping groove; the upper embedded strip is made of aluminum alloy or stainless steel, the upper embedded strip is transversely arranged on the rear side of the upper fixing lug, an upper screw hole is formed in the front surface of the upper embedded strip, the upper screw penetrates through the upper through hole and then is screwed to the upper screw hole, the lower embedded strip is made of aluminum alloy or stainless steel, the lower embedded strip is transversely arranged on the rear side of the lower fixing lug, a lower screw hole is formed in the front surface of the lower embedded strip, and the lower screw penetrates through the lower through hole and then is screwed to the lower screw hole; the upper fiber cement thin plate and the lower fiber cement thin plate are arranged up and down, the second soft rubber sheet and the third soft rubber sheet are respectively pasted on the upper surface and the lower surface of the limiting convex part, the rear surface of the upper fiber cement thin plate is pasted on the upper soft rubber sheet, the rear surface of the lower fiber cement thin plate is pasted on the lower soft rubber sheet, the limiting rubber cover is arranged on the front side of the aluminum alloy base, the upper strip-shaped clamping groove and the lower strip-shaped clamping groove are respectively clamped on the second convex strip part and the third convex strip part, the upper jacking inclined plane and the lower jacking inclined plane are respectively pasted on the second guiding inclined plane and the third guiding inclined plane, and the positioning screw penetrates through the countersunk hole and then is screwed in the threaded hole.

The utility model has the advantages that: through the arrangement of the upper embedded strip and the lower embedded strip, the structural strength of the screwed joint of the upper screw and the lower screw can be effectively enhanced, so that the condition of tooth damage is avoided; like this when needing to be changed aluminum alloy base, can guarantee effectively that new aluminum alloy base obtains the same fixed effect, this logical long formula aluminum alloy draw-in groove fossil fragments mounting structure is very reliable. Because the upper fiber cement sheet is provided with the first convex strip part and the second convex strip part, the lower fiber cement sheet is provided with the third convex strip part and the fourth convex strip part, the limiting rubber cover is provided with the upper strip-shaped clamping groove and the lower strip-shaped clamping groove, the upper strip-shaped clamping groove is clamped on the second convex strip part, the lower strip-shaped clamping groove is clamped on the third convex strip part, in addition, the aluminum alloy base and the limiting rubber cover can jointly clamp the upper fiber cement sheet and the lower fiber cement sheet, and the situation that the upper fiber cement sheet and the lower fiber cement sheet are rocked can be prevented, so that the reliability of the installation and the positioning of the upper fiber cement sheet and the lower fiber cement sheet is improved, and the reliability of the installation structure of the through-length type aluminum alloy clamping groove keel is improved. Because spacing jiao gai is rectangular shape structure, and under foretell package assembly, the whole side of accessible spacing jiao gai to last fiber cement sheet metal and lower fiber cement sheet metal plays fine limiting displacement, this can guarantee the fiber cement sheet metal, the homogeneity of lower fiber cement sheet metal atress, can avoid the perk or cracked condition of appearance of going up fiber cement sheet metal and lower fiber cement sheet metal like this, thereby avoid going up the fiber cement sheet metal, the aesthetic property of lower fiber cement sheet metal receives the influence, and can avoid the condition of extension installation time, and this logical long formula aluminum alloy draw-in groove fossil fragments mounting structure's the installation degree of difficulty is less. And spacing through spacing gluey lid can satisfy the needs of dismantling the fiber cement sheet plate alone, and this helps improving the convenience that leads to long formula aluminum alloy draw-in groove fossil fragments mounting structure maintained. Through the second flexible glue piece, the third flexible glue piece, go up the flexible glue piece, the setting of flexible glue piece down to and make the setting through the spacing jiao gai made by the plastic, can play flexible limiting displacement to last fiber cement sheet metal, lower fiber cement sheet metal, this can not only play fine limiting displacement to last fiber cement sheet metal, lower fiber cement sheet metal, can also provide the space of expend with heat and contract with cold for last fiber cement sheet metal, lower fiber cement sheet metal, help improving this reliability that leads to long formula aluminum alloy draw-in groove fossil fragments mounting structure like this. Because, second flexible glue piece, third flexible glue piece, last flexible glue piece, lower flexible glue piece can play flexible support to the fiber cement sheet metal, like this when the exogenic action is on the fiber cement sheet metal, can play fine cushioning effect to reduce cracked probability appears in the fiber cement sheet metal, this security that helps improving the installation of fiber cement sheet metal. Because the second guide inclined plane is arranged on the second convex strip part, the third guide inclined plane is arranged on the third convex strip part, the upper jacking inclined plane is arranged on the upper strip-shaped clamping groove, the lower jacking inclined plane is arranged on the lower strip-shaped clamping groove, the upper jacking inclined plane is attached to the second guide inclined plane, and the lower jacking inclined plane is attached to the third guide inclined plane, when the positioning screw is screwed down, the upper fiber cement thin plate and the lower fiber cement thin plate can be close to each other through the guide of the inclined planes, so that the second soft rubber sheet can be tightly pressed on the upper surface of the limiting convex part and the groove wall of the upper strip-shaped clamping groove, and the third soft rubber sheet can be tightly pressed on the lower surface of the limiting convex part and the groove wall of the lower strip-shaped clamping groove, and the mounting and positioning reliability of the upper fiber cement thin plate and the lower fiber cement thin plate can. Meanwhile, by adopting the structure, the upper fiber cement thin plate and the lower fiber cement thin plate are also very convenient to disassemble, and a user can finish the disassembly, assembly and maintenance of the fiber cement thin plates by himself, so that the maintenance cost of the user is reduced. Through the arrangement of the counter bores, the exposed condition of the positioning screws can be avoided, and the positioning screws can be prevented from influencing the life of people.

Drawings

Fig. 1 is a schematic structural diagram of a first embodiment of the present invention.

Fig. 2 is a schematic structural diagram of the middle and upper fiber cement sheet of the present invention.

Fig. 3 is a schematic structural view of the middle and lower fiber cement sheets of the present invention.

Figure 4 is the utility model discloses the split structure schematic diagram of well fossil fragments subassembly.

Fig. 5 is a schematic structural view of the middle-position-limiting rubber cover of the present invention.

Fig. 6 is a schematic view of a use state of the first embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a second embodiment of the present invention.

Fig. 8 is a schematic structural view of the positioning member of the present invention.

Fig. 9 is a schematic structural diagram of the first plate of the present invention.

Fig. 10 is a schematic structural view of the second plate of the present invention.

Detailed Description

It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiments of the present invention are only used to explain the relative position between the components in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

The first embodiment is as follows:

as shown in fig. 1, the through-length aluminum alloy channel keel mounting structure of the present invention comprises an upper fiber cement sheet 1, a lower fiber cement sheet 2, and a keel assembly 3, wherein, as shown in fig. 2, the upper and lower sides of the front surface of the upper fiber cement sheet 1 are respectively provided with a first convex bar 11 and a second convex bar 12, the first convex bar 11 and the second convex bar 12 are both extended transversely, the two ends of the first convex bar 11 and the two ends of the second convex bar 12 are both extended to the left and right sides of the upper fiber cement sheet 1, the lower side of the front surface of the first convex bar 11 is provided with a first guiding inclined plane 111, the upper side of the front surface of the second convex bar 12 is provided with a second guiding inclined plane 121, the top surface of the upper fiber cement sheet 1 is bonded with a first soft rubber sheet 13, and the first soft rubber sheet 13 is simultaneously bonded to the upper surface of the first convex bar 11, a second soft film 14 is adhered to the bottom surface of the upper fiber cement thin plate 1, and the second soft film 14 is adhered to the lower surface of the second convex strip portion 12 at the same time; as shown in fig. 3, the upper and lower sides of the front surface of the lower fiber cement sheet 2 are respectively provided with a third convex strip 21 and a fourth convex strip 22, the third convex strip 21 and the fourth convex strip 22 extend transversely, two ends of the third convex strip 21 and two ends of the fourth convex strip 22 extend to the left and right sides of the lower fiber cement sheet 2, the lower side of the front surface of the third convex strip 21 is provided with a third guiding inclined plane 211, the upper side of the front surface of the fourth convex strip 22 is provided with a fourth guiding inclined plane 221, the top surface of the lower fiber cement sheet 2 is adhered with a third soft rubber sheet 23, the third soft rubber sheet 23 is simultaneously adhered to the upper surface of the third convex strip 21, the bottom surface of the lower fiber cement sheet 2 is adhered with a fourth soft rubber sheet 24, and the fourth soft rubber sheet 24 is simultaneously adhered to the lower surface of the fourth convex strip 22; as shown in fig. 4 and 5, the keel assembly 3 includes an aluminum alloy base 31, a limiting rubber cover 32, an upper embedded strip 33, a lower embedded strip 34, an upper screw 35, a lower screw 36, and a positioning screw 37, the aluminum alloy base 31 is a long strip structure, and the aluminum alloy base 31 is arranged horizontally, a limiting convex portion 311 is disposed on the front surface of the aluminum alloy base 31, and the limiting convex portion 311 extends horizontally to the left and right sides of the aluminum alloy base 31, the upper surface and the lower surface of the limiting convex portion 311 are parallel to each other, the distance from the upper surface to the lower surface of the limiting convex portion 311 is H, a threaded hole 312 is disposed on the front surface of the limiting convex portion 311, an upper soft rubber sheet 313 and a lower soft rubber sheet 314 are respectively bonded on the front surface of the aluminum alloy base 31 located above and below the limiting convex portion 311, and upper and lower surfaces of the aluminum alloy base 31 are respectively provided with an, A lower fixing lug 316, wherein the upper fixing lug 315 and the lower fixing lug 316 both extend transversely to two ends of the aluminum alloy base 31, the front surface of the upper fixing lug 315 is provided with an upper through hole 317, the upper through hole 317 penetrates the rear surface of the upper fixing lug 315, the front surface of the lower fixing lug 316 is provided with a lower through hole 318, the lower through hole 318 penetrates the rear surface of the lower fixing lug 316, the limit rubber cover 32 is in a strip-shaped structure, the limit rubber cover 32 is transversely arranged, the front surface of the limit rubber cover 32 is provided with a countersunk hole 321, the countersunk hole 321 penetrates the rear surface of the limit rubber cover 32, the rear surface of the limit rubber cover 32 is provided with an upper strip-shaped clamping groove 322 and a lower strip-shaped clamping groove 323 which are arranged vertically, the upper strip-shaped clamping groove 322 and the lower strip-shaped clamping groove 323 are respectively positioned at the upper side and the lower side of the countersunk hole 321, and the upper strip-shaped clamping groove 322, the lower strip-, The lower strip-shaped clamping groove 323 transversely extends to the left end face and the right end face of the limiting rubber cover 32, the lower groove wall of the upper strip-shaped clamping groove 322 is parallel to the upper groove wall of the lower strip-shaped clamping groove 323, the shortest distance from the lower groove wall of the upper strip-shaped clamping groove 322 to the upper groove wall of the lower strip-shaped clamping groove 323 is H, H is equal to H, an upper jacking inclined plane 324 is arranged on the edge of an upper notch of the upper strip-shaped clamping groove 322, and a lower jacking inclined plane 325 is arranged on the edge of a lower notch of the lower strip-shaped clamping groove 323; as shown in fig. 1 and 4, the upper buried strap 33 is made of aluminum alloy or stainless steel, the upper buried strap 33 is transversely disposed at the rear side of the upper fixing lug 315, an upper screw hole 331 is formed on the front surface of the upper buried strap 33, the upper screw 35 passes through the upper through hole 317 and then is screwed into the upper screw hole 331, the lower buried strap 34 is made of aluminum alloy or stainless steel, the lower buried strap 34 is transversely disposed at the rear side of the lower fixing lug 316, a lower screw hole 341 is formed on the front surface of the lower buried strap 34, and the lower screw 36 passes through the lower through hole 318 and then is screwed into the lower screw hole 341; as shown in fig. 1, the upper fiber cement sheet 1 and the lower fiber cement sheet 2 are vertically arranged, the second flexible film 14 and the third flexible film 23 are respectively attached to the upper and lower surfaces of the limit protrusion 311, the rear surface of the upper fiber cement sheet 1 is attached to the upper flexible film 313, the rear surface of the lower fiber cement sheet 2 is attached to the lower flexible film 314, the limit rubber cover 32 is arranged on the front side of the aluminum alloy base 31, the upper strip-shaped clamping groove 322 and the lower strip-shaped clamping groove 323 are respectively clamped on the second convex strip 12 and the third convex strip 21, the upper pressing inclined surface 324 and the lower pressing inclined surface 325 are respectively attached to the second guide inclined surface 121 and the third guide inclined surface 211, and the positioning screw 37 passes through the countersunk hole 321 and then is screwed into the threaded hole 312. Through the arrangement of the upper embedded strip 33 and the lower embedded strip 34, the structural strength of the screwed joint of the upper screw 35 and the lower screw 36 can be effectively enhanced, so that the condition of tooth damage is avoided; like this when aluminium alloy base 31 needs to be changed, can guarantee effectively that new aluminium alloy base 31 obtains the same fixed effect, this logical long formula aluminum alloy draw-in groove fossil fragments mounting structure is very reliable. Because the upper fiber cement sheet 1 is provided with the first raised strip 11 and the second raised strip 12, the lower fiber cement sheet 2 is provided with the third raised strip 21 and the fourth raised strip 22, the limiting rubber cover 32 is provided with the upper strip-shaped clamping groove 322 and the lower strip-shaped clamping groove 323, the upper strip-shaped clamping groove 322 is clamped on the second raised strip 12, the lower strip-shaped clamping groove 323 is clamped on the third raised strip 21, and the aluminum alloy base 31 and the limiting rubber cover 32 can play a clamping role on the upper fiber cement sheet 1 and the lower fiber cement sheet 2 together, and thus the situation that the upper fiber cement sheet 1 and the lower fiber cement sheet 2 shake can be prevented, which is beneficial to improving the reliability of the installation and positioning of the upper fiber cement sheet 1 and the lower fiber cement sheet 2, and is beneficial to improving the reliability of the through-length type aluminum alloy clamping groove keel installation structure. Because spacing gluey lid 32 is rectangular shape structure, and under foretell package assembly, the whole side of accessible spacing gluey lid 32 to last fiber cement sheet metal 1 and lower fiber cement sheet metal 2 plays fine limiting displacement, this can guarantee to go up fiber cement sheet metal 1, the homogeneity of lower fiber cement sheet metal 2 atress, can avoid the appearance perk or cracked condition of going up fiber cement sheet metal 1 with lower fiber cement sheet metal 2 like this, thereby avoid going up fiber cement sheet metal 1, the aesthetic property of lower fiber cement sheet metal 2 receives the influence, and can avoid the condition of extension installation time, and this logical long formula aluminum alloy draw-in groove fossil fragments mounting structure's the installation degree of difficulty is less. And spacing through spacing gluey lid 32 can satisfy the needs of dismantling the fiber cement sheet plate alone, and this helps improving the convenience that leads to long formula aluminum alloy draw-in groove fossil fragments mounting structure maintained. Through second flexible glue piece 14, third flexible glue piece 23, go up flexible glue piece 313, down flexible glue piece 314's setting, and make through the setting of the spacing gluey lid 32 of being made by the plastic, can be to last fiber cement sheet metal 1, down fiber cement sheet metal 2 plays flexible limiting displacement, this can not only be to last fiber cement sheet metal 1, down fiber cement sheet metal 2 plays fine limiting displacement, can also be for last fiber cement sheet metal 1, down fiber cement sheet metal 2 provides the space of expend with heat and contract with cold, help improving this through long formula aluminum alloy draw-in groove fossil fragments mounting structure's reliability like this. Because the second soft film 14, the third soft film 23, the upper soft film 313 and the lower soft film 314 can flexibly support the fiber cement thin plate, when an external force acts on the fiber cement thin plate, a good buffering effect can be achieved, the probability that the fiber cement thin plate is cracked is reduced, and the installation safety of the fiber cement thin plate is improved. Because the second guiding inclined plane 121 is arranged on the second convex strip portion 12, the third guiding inclined plane 211 is arranged on the third convex strip portion 21, the upper pressing inclined plane 324 is arranged on the upper strip-shaped clamping groove 322, the lower pressing inclined plane 325 is arranged on the lower strip-shaped clamping groove 323, the upper pressing inclined plane 324 is adhered to the second guiding inclined plane 121, and the lower pressing inclined plane 325 is adhered to the third guiding inclined plane 211, when the set screw 37 is tightened, the upper fiber cement sheet 1 and the lower fiber cement sheet 2 are brought close to each other by the guide of the inclined surface, so that the second soft film 14 is tightly pressed on the upper surface of the limit convex part 311 and the groove wall of the upper strip-shaped clamping groove 322, and the third soft rubber sheet 23 is tightly pressed on the lower surface of the limit convex part 311 and the groove wall of the lower strip-shaped clamping groove 323, therefore, the reliability of the installation and the positioning of the upper fiber cement sheet 1 and the lower fiber cement sheet 2 can be effectively improved. Meanwhile, by adopting the structure, the upper fiber cement thin plate 1 and the lower fiber cement thin plate 2 are also very convenient to disassemble, and a user can finish the disassembly, assembly and maintenance of the fiber cement thin plates by himself, so that the maintenance cost of the user is reduced. Through the arrangement of the countersunk hole 321, the condition that the positioning screw 37 is exposed can be avoided, so that the positioning screw 37 can be prevented from influencing the life of people.

Wherein fig. 1 is the schematic view of the left-side view direction of the present invention.

The first soft film 13 and the second soft film 14 are both fixed by gluing.

The third soft rubber sheet 23 and the fourth soft rubber sheet 24 are both fixed by gluing.

The upper buried strip 33 and the lower buried strip 34 are made of aluminum alloy or stainless steel.

The upper soft film 313 and the lower soft film 314 are fixedly bonded by glue.

In the actual manufacturing process, a plurality of upper screws 35, lower screws 36, and positioning screws 37 may be provided, and at this time, a corresponding number of threaded holes 312 are formed in the front surface of the limit protrusion 311, a corresponding number of upper through holes 317 are formed in the front surface of the upper fixing lug 315, a corresponding number of lower through holes 318 are formed in the front surface of the lower fixing lug 316, a corresponding number of countersunk holes 321 are formed in the front surface of the limit rubber cover 32, a corresponding number of upper threaded holes 331 are formed in the front surface of the upper embedded bar 33, and a corresponding number of lower threaded holes 341 are formed in the front surface of the lower embedded bar 34.

The limit rubber cover 32 can be made of PVC material.

As shown in fig. 6, the upper buried strap 33 and the lower buried strap 34 are buried in the wall 100.

Example two:

in the actual manufacturing process, the following scheme can be adopted to prevent the side edges of the fiber cement sheet from tilting.

As shown in fig. 7, the utility model provides a through-length type aluminum alloy clamping groove keel mounting structure, including a positioning member 10, a first plate body 20, a second plate body 30, wherein, as shown in fig. 8, the positioning member 10 is a long strip-shaped plate structure, the outer surface downside of the positioning member 10 is provided with a bar-shaped convex part 101 arranged along the length direction of the positioning member 10, the upper and lower surfaces of the bar-shaped convex part 101 are respectively provided with a bar-shaped clamping groove 102 arranged along the length direction of the bar-shaped convex part 101, the cross section of the bar-shaped clamping groove 102 is a trapezoid structure with a large opening and a small bottom, and the positioning member 10 and the bar-shaped convex part 101 are; as shown in fig. 9, a strip-shaped groove 201 arranged along a corner of the first plate body 20 is formed at a corner of an inner side edge of a side surface of the first plate body 20, groove walls of the strip-shaped groove 201 are in a right-angle structure, the strip-shaped groove 201 includes a first groove wall 202 perpendicular to a surface of the first plate body 20 and a second groove wall 203 perpendicular to the side surface of the first plate body 20, and a first strip-shaped protrusion 204 arranged along a length direction of the strip-shaped groove 201 is formed on the first groove wall 202; as shown in fig. 10, a second strip-shaped protrusion 301 is disposed on the inner side of the side surface of the second plate 30; as shown in fig. 7 to 10, the first elongated protrusion 204 of the first plate 20 is inserted into one of the elongated slots 102 of the positioning member 10, and the second elongated protrusion 301 of the second plate 30 is inserted into the other elongated slot 102 of the positioning member 10, so that the side surface of the first plate 20 contacts with the side surface of the second plate 30. After the positioning member 10, the first plate 20 and the second plate 30 are assembled, the side surface of the first plate 20 is in contact with the side surface of the second plate 30. In this way, the portion of the first plate body 20 corresponding to the second groove wall 203 can effectively shield the positioning element 10, so that the positioning element 10 cannot be seen when looking through the outer surfaces of the first plate body 20 and the second plate body 30, which is helpful to improve the aesthetic appearance of the installation structure. The first strip-shaped protrusion 204 and the second strip-shaped protrusion 301 are respectively embedded in the two strip-shaped card slots 102, and the cross section of the strip-shaped card slot 102 has a trapezoid structure with a large opening and a small bottom. Therefore, the first strip-shaped convex part 204 and the second strip-shaped convex part 301 can be conveniently embedded, after the first strip-shaped convex part 204 and the second strip-shaped convex part 301 are embedded in the corresponding strip-shaped clamping grooves 102, a positioning and tightening force can be given to the first strip-shaped convex part 204 and the second strip-shaped convex part 301, so that the first plate body 20 and the second plate body 30 are effectively positioned, the first strip-shaped convex part 204 and the second strip-shaped convex part 301 are prevented from being loosened, the corners of the first plate body 20 and the second plate body 30 are prevented from being tilted, and the reliability of the whole structure can be improved. When the installation is performed, the positioning member 10 is installed on a wall surface or a ceiling, and then the first strip-shaped protrusion 204 on the first plate body 20 and the second strip-shaped protrusion 301 on the second plate body 30 are embedded in the corresponding strip-shaped clamping grooves 102 on the positioning member 10, so that the first plate body 20 and the second plate body 30 can be quickly installed. When the plate body needs to be replaced, the plate body can be quickly detached and replaced only by withdrawing the strip-shaped convex part of the plate body from the strip-shaped clamping groove 102, and the positioning piece 10 does not need to be detached in the whole replacement process. Therefore, such a structure contributes to improvement of convenience in mounting and replacement of the first plate body 20 and the second plate body 30. The utility model discloses a first plate body 20 need not the rivet with second plate body 30 and fixes, and this helps shortening the man-hour of building, improves the efficiency of installation. Moreover, the acting force of the strip-shaped clamping groove 102 on the first board body 20 and the second board body 30 is small, and the corners of the first board body 20 and the second board body 30 cannot be tilted or broken. Because, after the first plate body 20 and the second plate body 30 are installed, the external force applied to them is small, and the first plate body 20 and the second plate body 30 cannot be cracked even if being impacted by the external force, thereby ensuring the safety performance of the whole structure. Meanwhile, the whole structure of the structure is very simple, and the manufacturing difficulty is reduced. In practical application, the first strip-shaped convex part 204 and the second strip-shaped convex part 301 can be respectively arranged on two opposite sides of the same plate body, and then the first strip-shaped convex part 204 and the second strip-shaped convex part 301 on the two sides of the plate body are respectively embedded in the strip-shaped clamping grooves 102 of two adjacent positioning parts 10, so that a flat plate surface can be constructed. The utility model discloses a setting element 10 can splice with the plate body of arbitrary length mutually to the different plate bodies of people's collocation combination of being convenient for are favorable to improving setting element 10's application scope. When the plate body is installed, the accurate installation and positioning of the plate body can be realized only by measuring the distance between two adjacent positioning pieces 10 and then fixing the positioning pieces 10 according to the proper distance, the installation is very convenient, and the installation precision is very high.

On the basis of the above, in order to further optimize the installation structure of the positioning element, as shown in fig. 8, a plurality of through holes 103 penetrating through the positioning element 10 are formed on the outer surface of the positioning element 10, and the through holes 103 are uniformly arranged along the length direction of the positioning element 10. When the positioning member 10 is installed, the screw can be locked on the wall surface or the ceiling after passing through the through hole 103, thereby facilitating the installation of the positioning member 10. Wherein, the through holes 103 and the strip-shaped convex parts 101 are respectively positioned on the upper and lower surfaces of the positioning piece 10, which can effectively improve the bearing capacity of the positioning piece 10 and ensure the reliability of the whole structure.

On the basis of the above, in order to reduce the manufacturing cost of the positioning member and avoid the waste of resources, as shown in fig. 8, a strip-shaped groove 104 extending to the strip-shaped protrusion 101 is formed on the inner surface of the positioning member 10. The strip-shaped groove 104 is formed, so that the application of aluminum alloy raw materials can be reduced, the waste of resources is avoided, and the manufacturing cost of the positioning piece 10 is reduced.

Claims (1)

1. The utility model provides a logical long formula aluminum alloy draw-in groove fossil fragments mounting structure which characterized in that: the keel assembly comprises an upper fiber cement thin plate (1), a lower fiber cement thin plate (2) and a keel assembly (3), wherein the upper side edge and the lower side edge of the front surface of the upper fiber cement thin plate (1) are respectively provided with a first convex strip portion (11) and a second convex strip portion (12), the first convex strip portion (11) and the second convex strip portion (12) transversely extend, the two ends of the first convex strip portion (11) and the two ends of the second convex strip portion (12) both extend to the left side edge and the right side edge of the upper fiber cement thin plate (1), the lower side edge of the front surface of the first convex strip portion (11) is provided with a first guide inclined plane (111), the upper side edge of the front surface of the second convex strip portion (12) is provided with a second guide inclined plane (121), the top surface of the upper fiber cement thin plate (1) is bonded with a first soft rubber sheet (13), and the first soft rubber sheet (13) is simultaneously bonded to the upper surface of the first, a second soft film (14) is bonded on the bottom surface of the upper fiber cement thin plate (1), and the second soft film (14) is simultaneously bonded on the lower surface of the second convex strip portion (12); the upper side and the lower side of the front surface of the lower fiber cement thin plate (2) are respectively provided with a third convex strip (21) and a fourth convex strip (22), the third convex strip (21) and the fourth convex strip (22) transversely extend, two ends of the third convex strip (21) and two ends of the fourth convex strip (22) extend to the left side and the right side of the lower fiber cement thin plate (2), the lower side edge of the front surface of the third convex strip (21) is provided with a third guide inclined plane (211), the upper side edge of the front surface of the fourth convex strip (22) is provided with a fourth guide inclined plane (221), the top surface of the lower fiber cement thin plate (2) is bonded with a third soft rubber sheet (23), the third soft rubber sheet (23) is bonded to the upper surface of the third convex strip (21) at the same time, and the bottom surface of the lower fiber cement thin plate (2) is bonded with a fourth soft rubber sheet (24), and the fourth soft film (24) is simultaneously stuck on the lower surface of the fourth convex strip (22); fossil fragments subassembly (3) include aluminum alloy base (31), spacing gluey lid (32), go up embedded strip (33), lower embedded strip (34), go up screw (35), down screw (36), set screw (37), aluminum alloy base (31) are rectangular shape structure to make aluminum alloy base (31) be transverse arrangement, be equipped with spacing convex part (311) on the front surface of aluminum alloy base (31), and make spacing convex part (311) transversely extend to on the left and right sides of aluminum alloy base (31), the upper surface and the lower surface of spacing convex part (311) are parallel to each other, and the upper surface of this spacing convex part (311) is H to the distance of its lower surface, screw hole (312) have been seted up on the front surface of spacing convex part (311), have last flexible glue piece (313) respectively on aluminum alloy base (31) front surface about locating spacing convex part (311), A lower soft film (314), wherein an upper fixing lug (315) and a lower fixing lug (316) are respectively arranged on the upper surface and the lower surface of the aluminum alloy base (31), the upper fixing lug (315) and the lower fixing lug (316) transversely extend to two ends of the aluminum alloy base (31), an upper perforation (317) is arranged on the front surface of the upper fixing lug (315), the upper perforation (317) penetrates through the rear surface of the upper fixing lug (315), a lower perforation (318) is arranged on the front surface of the lower fixing lug (316), the lower perforation (318) penetrates through the rear surface of the lower fixing lug (316), the limit rubber cover (32) is of a long strip-shaped structure, the limit rubber cover (32) is transversely arranged, a countersunk hole (321) is arranged on the front surface of the limit rubber cover (32), and the countersunk hole (321) penetrates through the rear surface of the limit rubber cover (32), an upper strip-shaped clamping groove (322) and a lower strip-shaped clamping groove (323) which are vertically arranged are respectively formed in the rear surface of the limiting rubber cover (32), the upper strip-shaped clamping groove (322) and the lower strip-shaped clamping groove (323) are respectively positioned at the upper side and the lower side of the counter bore (321), the upper strip-shaped clamping groove (322) and the lower strip-shaped clamping groove (323) transversely extend to the left end surface and the right end surface of the limiting rubber cover (32), the lower groove wall of the upper strip-shaped clamping groove (322) is parallel to the upper groove wall of the lower strip-shaped clamping groove (323), the shortest distance from the lower groove wall of the upper strip-shaped clamping groove (322) to the upper groove wall of the lower strip-shaped clamping groove (323) is H, H is equal to H, an upper jacking inclined surface (324) is formed on the edge of an upper groove opening of the upper strip-shaped clamping groove (322), and a lower jacking inclined surface (325) is formed on; the upper embedded strip (33) is made of aluminum alloy or stainless steel, the upper embedded strip (33) is transversely arranged on the rear side of the upper fixing lug (315), an upper screw hole (331) is formed in the front surface of the upper embedded strip (33), the upper screw (35) penetrates through the upper through hole (317) and then is screwed to the upper screw hole (331), the lower embedded strip (34) is made of aluminum alloy or stainless steel, the lower embedded strip (34) is transversely arranged on the rear side of the lower fixing lug (316), a lower screw hole (341) is formed in the front surface of the lower embedded strip (34), and the lower screw (36) penetrates through the lower through hole (318) and then is screwed to the lower screw hole (341); the upper fiber cement sheet (1) and the lower fiber cement sheet (2) are arranged up and down, the second soft film (14) and the third soft film (23) are respectively stuck on the upper surface and the lower surface of the limit convex part (311), the rear surface of the upper fiber cement sheet (1) is stuck on the upper soft film (313), and the rear surface of the lower fiber cement sheet (2) is stuck on the lower soft film (314), the limiting rubber cover (32) is arranged on the front side of the aluminum alloy base (31), the upper strip-shaped clamping groove (322) and the lower strip-shaped clamping groove (323) are respectively clamped on the second convex strip part (12) and the third convex strip part (21), the upper jacking inclined plane (324) and the lower jacking inclined plane (325) are respectively attached on the second guide inclined plane (121) and the third guide inclined plane (211), the positioning screw (37) passes through the counter bore (321) and then is screwed in the threaded hole (312).

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