CN210508176U - Indoor wallboard dry-hanging mounting structure - Google Patents

Abstract

The utility model discloses an indoor wallboard hangs mounting structure futilely belongs to wallboard installation technique, and its technical scheme main points are: including a plurality of vertical keels with wall connection, a plurality of cross keel and a plurality of crab-bolt, be provided with a plurality of adjustment mechanism between cross keel and the vertical keel, adjustment mechanism includes the connecting block, adjusting bolt and the adjusting nut of adjusting the connecting block height, the one end and the cross keel of connecting block are connected, the other end and the vertical keel of connecting block are connected, and vertical keel slides from top to bottom can be followed to the connecting block, vertical keel is adjacent to cross keel and is the lateral wall of vertical setting and runs through the adjustment tank that is vertical setting, adjusting bolt passes the adjustment tank and with adjusting nut threaded connection, adjusting bolt upper end and connecting block lower extreme butt. The utility model discloses a rational in infrastructure utilizes adjustment mechanism to adjust the interval between the horizontal fossil fragments to can still install the wallboard fixedly after the wallboard size changes.

Description

Indoor wallboard dry-hanging mounting structure

Technical Field

The utility model belongs to the wallboard installation technique, more specifically say, it relates to an indoor wallboard hangs mounting structure futilely.

Background

At present, in the process of decorating indoor wall surfaces, the wall plates are usually installed on the surfaces of wall bodies by using a dry hanging method, the wall plates are usually hung on the wall surfaces or hung on the keel frame through anchor rods in the installation process, and the positions of the anchor rods connected with the wall plates are fixed.

The construction of keel frame mainly uses the shaped steel welding as the main, and in case the cutting size of wallboard changes, the position of adjacent stock can change, can lead to the stock can't be connected with keel frame this moment, and keel frame just need all be torn open this moment and redo, and the loss is great.

Therefore, a new technical solution is needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide an indoor wallboard hangs mounting structure futilely for after solving the wallboard size and changing, the problem that keel frame need be set up again.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides an indoor wallboard hangs mounting structure futilely, includes a plurality of vertical fossil fragments that are vertical setting, a plurality of horizontal fossil fragments that are connected with a plurality of vertical fossil fragments simultaneously and a plurality of stock of being connected wallboard and horizontal fossil fragments with wall connection, be provided with the adjustment mechanism of a plurality of regulation horizontal fossil fragments position between horizontal fossil fragments and the vertical fossil fragments, adjustment mechanism includes connecting block, adjusting connection piece height adjusting bolt and adjusting nut, the one end and the horizontal fossil fragments of connecting block are connected, the other end and the vertical fossil fragments of connecting block are connected, just vertical fossil fragments can be followed to the connecting block and slide from top to bottom, vertical fossil fragments are adjacent to horizontal fossil fragments and are the lateral wall of vertical setting and run through the adjustment tank that is vertical setting, adjusting bolt passes the adjustment tank and with adjusting nut threaded connection, adjusting bolt upper end and connecting block lower extreme butt.

Through adopting above-mentioned technical scheme, thereby after the area of the wallboard of cutting changes, thereby remove adjusting bolt's position and adjust the interval of adjacent horizontal fossil fragments to the interval of the dry pendant that the horizontal fossil fragments are connected has been adjusted, makes the dry pendant still can be fixed the wallboard installation.

The utility model discloses further set up to: the connecting block has been seted up near the terminal surface of vertical fossil fragments the spread groove, the spread groove runs through the upper and lower both ends face of connecting block, the equal fixedly connected with guide block of both sides wall that the spread groove is relative, the guide way has all been seted up to the lateral wall that vertical fossil fragments seted up the adjustment tank, vertical fossil fragments joint is in the spread groove, the guide block joint is in the guide way.

Through adopting above-mentioned technical scheme, utilize the cooperation of guide way and guide block, make the removal of connecting block receive the restriction, make the connecting block reciprocate along vertical fossil fragments only to make the regulation of horizontal fossil fragments more stable.

The utility model discloses further set up to: the equal fixedly connected with of lateral wall that vertical fossil fragments offered the adjustment tank is the first rack of vertical setting, adjusting bolt all wears to be equipped with two stoppers, the stopper is close to the terminal surface of vertical fossil fragments and runs through there is the connecting hole, adjusting bolt passes from the connecting hole, the stopper is located the both sides of vertical fossil fragments respectively, just the stopper is close to the terminal surface fixedly connected with of vertical fossil fragments and is the second rack of vertical setting, works as when adjusting bolt and adjusting nut tighten, first rack and second rack mesh.

Through adopting above-mentioned technical scheme, utilize the cooperation of first rack and second rack, the removal of restriction connecting block along vertical fossil fragments to no longer need rely on the removal of fastening bolt, fastening nut and vertical fossil fragments's frictional force restriction connecting block, thereby make the fixed more firm of the position of connecting block.

The utility model discloses further set up to: the dovetail has been seted up to the spread groove lower extreme, and the dovetail runs through two lateral walls that the connecting block was kept away from each other and two lateral walls that the spread groove was kept away from each other, the equal fixedly connected with dovetail block in connecting block upper end, the dovetail block is inserted and is arranged in the dovetail and slide.

Through adopting above-mentioned technical scheme, the cooperation that utilizes dovetail block and dovetail makes connecting block and stopper reciprocate in step to after the rigidity of stopper, the position can not change when horizontal fossil fragments receive ascending power, thereby makes the installation of wallboard fixed more stable.

The utility model discloses further set up to: the end face of adjusting bolt keeping away from its head has seted up the drive groove coaxially, the drive inslot is provided with the spring, a plurality of guiding grooves that communicate with the drive groove are seted up to adjusting bolt lateral wall circumference, the guiding groove runs through the end face of adjusting bolt keeping away from the head, circumference is fixed with a plurality of guide blocks in the connecting hole, the guide block is arranged in the guiding groove and is slided, the both ends of spring are close to the terminal surface butt of vertical fossil fragments with the guide block respectively.

Through adopting above-mentioned technical scheme, after adjusting nut and adjusting bolt unscrew, two stoppers of spring drive are kept away from each other to make first rack and second rack break away from the meshing, no longer need remove two stoppers respectively when removing horizontal fossil fragments this moment, make the removal of horizontal fossil fragments more convenient.

The utility model discloses further set up to: the position of keeping away from adjusting bolt head in the drive groove is provided with the shaping block, shaping block outer wall and the laminating of drive groove lateral wall.

Through adopting above-mentioned technical scheme, utilize the deformation of shaping piece restriction drive inslot wall to make adjusting bolt outer wall be difficult for producing when the atress and warp, make adjusting bolt's use more stable.

The utility model discloses further set up to: the adjusting bolt is far away from the one end threaded connection of its head and has stop nut, stop nut keeps away from a plurality of connecting rods of terminal surface fixedly connected with of vertical fossil fragments, the terminal surface fixed connection that vertical fossil fragments were kept away from to the one end that stop nut was kept away from to the connecting rod and shaping block.

Through adopting above-mentioned technical scheme, utilize limit nut to inject the position of shaping piece, make the difficult follow drive inslot of shaping piece drop.

The utility model discloses further set up to: the shaping block is provided with a wedge-shaped surface towards the edge of the end surface of the guide block.

Through adopting above-mentioned technical scheme, utilize the wedge to reduce the area of shaping face towards the driving groove, utilize the wedge to lead to the removal of shaping piece simultaneously, make the process that shaping piece inserted the driving groove more convenient.

To sum up, the utility model discloses following beneficial effect has:

1. the distance between the transverse keels is adjusted by the adjusting mechanism, so that the wallboard can be still installed and fixed after the size of the wallboard is changed;

2. the fixing of stopper is realized to the meshing that utilizes first rack and second rack to no longer need rely on adjusting bolt, adjusting nut and the position of the horizontal fossil fragments of frictional force injecing between the vertical fossil fragments, thereby make the installation of horizontal fossil fragments more stable.

Drawings

FIG. 1 is a perspective view of the present embodiment;

FIG. 2 is an enlarged view of portion A of FIG. 1;

fig. 3 is a schematic diagram for showing an internal structure of the adjusting bolt according to the present embodiment.

Description of the drawings: 1. a vertical keel; 11. an adjustment groove; 12. a guide groove; 13. a second rack; 2. a transverse keel; 3. an anchor rod; 4. an adjustment mechanism; 41. connecting blocks; 411. connecting grooves; 412. a yielding groove; 413. a dovetail groove; 42. adjusting the bolt; 421. a drive slot; 422. a guide groove; 423. adjusting the nut; 43. a guide block; 44. a limiting block; 441. connecting holes; 442. a dovetail block; 443. a guide block; 45. a first rack; 46. a spring; 47. shaping blocks; 471. a wedge-shaped surface; 48. a limit nut; 49. a connecting rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In which like parts are designated by like reference numerals. It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "bottom" and "top," "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

The utility model provides an indoor wallboard hangs mounting structure futilely, as shown in figure 1, include a plurality of vertical fossil fragments 1 that are vertical setting with wall connection, the horizontal fossil fragments 2 of being connected with a plurality of vertical fossil fragments 1 simultaneously and with a plurality of stock of wallboard with horizontal fossil fragments 2 connection, the one end that horizontal fossil fragments 2 were kept away from to the stock inserts in the wallboard, the 3 other ends of stock pass horizontal fossil fragments 2 and use the nut to be connected with horizontal fossil fragments 2. As shown in fig. 2, the vertical keel 1 is connected to the wall by using expansion bolts, a plurality of adjusting mechanisms 4 for adjusting the height of the horizontal keel 2 are arranged between the vertical keel 1 and the horizontal keel 2, and each adjusting mechanism 4 comprises a rectangular connecting block 41, an adjusting bolt 42 for adjusting the height of the connecting block 41 and an adjusting nut 423 (see fig. 3). One end of the connecting block 41 is fixed with the transverse keel 2 by using a bolt, and the other end of the connecting block is connected with the vertical keel 1 and can slide up and down along the vertical keel 1. Vertical fossil fragments 1 is adjacent to horizontal fossil fragments 2 and is the lateral wall of vertical setting and runs through the adjustment tank 11 that is vertical setting, and adjusting bolt 42 passes adjustment tank 11 and with adjusting nut 423 threaded connection, adjusting bolt 42 upper end and the butt of connecting block 41 lower extreme. At this moment, after the area of the cut wallboard is changed, the position of the adjusting bolt 42 is moved so as to adjust the distance between the adjacent transverse keels 2, thereby adjusting the distance between the dry hanging pieces connected by the transverse keels 2, and enabling the dry hanging pieces to still fix the wallboard installation.

In order to ensure that the connecting block 41 is not easy to be separated from the vertical keel 1 when the connecting block 41 moves up and down along the vertical keel 1. As shown in fig. 2, a connecting groove 411 is provided on the end surface of the connecting block 41 close to the vertical keel 1, the connecting groove 411 penetrates through the upper and lower end surfaces of the connecting block 41, and the rectangular guide blocks 43 are welded on the two side walls of the connecting groove 411 away from each other. The lateral wall that vertical fossil fragments 1 seted up adjustment tank 11 all offers the guide way 12 that is vertical setting, and guide way 12 runs through vertical fossil fragments 1's upper and lower both ends face, and guide way 12 is located one side that horizontal fossil fragments 2 were kept away from to spread groove 411. Vertical fossil fragments 1 joint is in the spread groove 411, and guide block 43 joint this moment is in guide way 12, and two lateral walls that vertical fossil fragments 1 seted up adjustment tank 11 are respectively with two lateral wall butts that spread groove 411 kept away from each other. By means of the matching of the guide grooves 12 and the guide blocks 43, the movement of the connecting block 41 is limited, and the connecting block 41 can only move up and down along the vertical keel 1, so that the adjustment of the transverse keel 2 is more stable.

As shown in fig. 2 and 3, since the adjusting bolt 42 only depends on the friction force between the adjusting bolt 42, the adjusting nut 423 and the vertical keel 1 when defining the height of the connecting block 41, the stability is poor. Therefore, the vertical keel 1 is provided with two first racks 45 which are vertically arranged on the side wall of the adjusting groove 11, and the two first racks 45 are respectively positioned on two sides of the adjusting groove 11. Two side walls of the connecting groove 411 away from each other are provided with two yielding grooves 412, the yielding grooves 412 penetrate through the lower end face of the connecting block 41, and the first rack 45 penetrates through the yielding grooves 412. Two limiting blocks 44 are arranged on the adjusting bolts 42 in a penetrating mode, the limiting blocks 44 are located on two sides of the vertical keel 1 respectively, connecting holes 441 penetrate through the end faces, close to the vertical keel 1, of the limiting blocks 44, and the adjusting bolts 42 penetrate through the connecting holes 441. Two vertically arranged second racks 13 are welded on the end face of the limiting block 44 close to the vertical keel 1, and the two second racks 13 are respectively located on two sides of the connecting hole 441. When the adjusting bolt 42 and the adjusting nut 423 are tightened, the two stoppers 44 approach each other, and the first rack 45 and the second rack 13 are engaged. Utilize the cooperation of first rack 45 and second rack 13, restriction connecting block 41 along the removal of vertical fossil fragments 1 to no longer need rely on fastening bolt, fastening nut and vertical fossil fragments 1's frictional force to restrict the removal of connecting block 41, thereby make the fixed more firm of the position of connecting block 41.

As shown in fig. 2, the stability of the installed wall panel is affected because the transverse keel 2 moves upward when the transverse keel 2 is subjected to an upward external force. Therefore, the lower end of the connecting block 41 is provided with a dovetail groove 413, and the dovetail groove 413 penetrates through two side walls of the connecting block 41 which are far away from each other and two side walls of the connecting groove 411 which are far away from each other. The upper ends of the limiting blocks 44 are welded with dovetail blocks 442, and the dovetail blocks 442 are inserted into the dovetail grooves 413 to slide. The connecting block 41 and the limiting block 44 can synchronously move up and down by matching the dovetail block 442 with the dovetail groove 413, so that after the position of the limiting block 44 is fixed, the position of the transverse keel 2 cannot be changed when the transverse keel is subjected to upward force, and the mounting and fixing of the wallboard are more stable.

As shown in fig. 3, since the two stoppers 44 cannot be directly separated from the first rack 45 after the adjusting bolt 42 is loosened, the two stoppers 44 still need to be manually moved at this time. Therefore, the end surface of the adjusting bolt 42 away from the head part thereof is coaxially provided with a driving groove 421, and a spring 46 for driving the two limit blocks 44 to be away from each other is arranged in the driving groove 421. Two guide grooves 422 communicated with the driving groove 421 are formed in the circumferential direction of the side wall of the adjusting bolt 42, and the end face, far away from the head, of the adjusting bolt 42 is penetrated through the guide grooves 422. Two guide blocks 443 are welded on the inner circumference of the connecting hole 441, the two guide blocks 443 are arranged in the guide groove 422 to move, and two ends of the spring 46 are respectively abutted against the end faces, close to each other, of the guide blocks 443 connected with the two limiting blocks 44. After the adjusting nut 423 and the adjusting bolt 42 are loosened, the spring 46 drives the two limit blocks 44 to move away from each other, so that the first rack 45 and the second rack 13 are disengaged, and at the moment, the two limit blocks 44 do not need to be moved respectively when the transverse keel 2 is moved, so that the transverse keel 2 is more convenient to move.

As shown in fig. 3, since the adjusting bolt 42 is provided with the guide groove 422, when the outer wall of the adjusting bolt 42 is pressed, the outer wall of the adjusting bolt 42 is easily deformed toward the axis thereof, which affects the connection between the adjusting bolt 42 and the adjusting nut 423. Therefore, the position in the driving groove 421 far away from the head of the adjusting bolt 42 is provided with the shaping block 47, and the outer wall of the shaping block 47 is attached to the inner wall of the driving groove 421. The shaping block 47 is used for limiting the deformation of the inner wall of the driving groove 421, so that the outer wall of the adjusting bolt 42 is not easy to deform when stressed, and the using process of the adjusting bolt 42 is more stable.

As shown in fig. 3, since the shaping block 47 is only placed in the driving groove 421, the connection between the shaping block 47 and the driving groove 421 is not stable enough, and the shaping block can easily fall from the driving groove 421. Therefore, one end, far away from the head, of the adjusting bolt 42 is connected with a limiting nut 48 through threads, the limiting nut 48 is welded to the circumferential direction of the end face, far away from the vertical keel 1, of the limiting nut 48, two connecting rods 49 are welded to the circumferential direction of the end face, far away from the limiting nut 48, of the connecting rods 49, and the end face, far away from the vertical keel 1, of the connecting rods. The position of the shaping block 47 is limited by the limit nut 48, so that the shaping block 47 is not easy to fall from the driving groove 421.

As shown in fig. 3, since the outer wall of the shaping block 47 is attached to the inner wall of the driving groove 421, the process of inserting the shaping block 47 into the driving groove 421 is inconvenient. Therefore, the wedge face 471 is formed at the edge of the end face of the shaping block 47 facing the guide block 443, the area of the shaping face facing the driving groove 421 is reduced by the wedge face 471, and meanwhile, the movement of the shaping block 47 is guided by the wedge face 471, so that the process that the shaping block 47 is inserted into the driving groove 421 is more convenient.

The working principle is as follows:

when the vertical keel is installed, the vertical keel 1 is connected with a wall body through expansion bolts, and then the connecting block 41 is sleeved outside the vertical keel 1 from top to bottom, so that the guide block 43 is inserted into the guide groove 12. Then, one limiting block 44 is sleeved on the adjusting bolt 42, the adjusting bolt 42 penetrates through the adjusting groove 11, the spring 46 is arranged in the driving groove 421, the other limiting block 44 is sleeved on the adjusting bolt 42, and the dovetail block 442 is inserted in the dovetail groove 413. Afterwards, adjusting nut 423 is screwed up, shaping block 47 is inserted into driving groove 421, limiting nut 48 and adjusting bolt 42 are screwed up, adjusting nut 423 is rotated at the moment to drive two limiting blocks 44 to abut against vertical keel 1, then transverse keel 2 and connecting block are connected through bolts, and anchor rod 3 is connected through bolts and transverse keel 2. After the whole size of wallboard changes, unscrew adjusting nut 423 and adjusting bolt 42, adjust the height of connecting block 41, the interval of adjacent horizontal fossil fragments 2 this moment can be adjusted to can install the wallboard of different sizes.

The specific embodiments are only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an indoor wallboard hangs mounting structure futilely, includes a plurality of vertical fossil fragments (1) that are vertical setting, a plurality of horizontal fossil fragments (2) of being connected with a plurality of vertical fossil fragments (1) simultaneously and a plurality of stock (3) of being connected wallboard and horizontal fossil fragments (2) with wall connection, its characterized in that: be provided with adjustment mechanism (4) of a plurality of regulation horizontal keel (2) positions between horizontal keel (2) and vertical keel (1), adjustment mechanism (4) are including connecting block (41), adjusting bolt (42) and adjusting nut (423) of adjusting connecting block (41) height, the one end and the horizontal keel (2) of connecting block (41) are connected, the other end and the vertical keel (1) of connecting block (41) are connected, just vertical keel (1) can be followed in connecting block (41) and slide from top to bottom, vertical keel (1) are adjacent to horizontal keel (2) and are that the lateral wall of vertical setting runs through and have adjustment tank (11) that are vertical setting, adjusting bolt (42) pass adjustment tank (11) and with adjusting nut (423) threaded connection, adjusting bolt (42) upper end and connecting block (41) lower extreme butt.

2. The indoor wall panel dry-hanging installation structure according to claim 1, wherein: connecting groove (411) have been seted up to connecting block (41) terminal surface that is close to vertical fossil fragments (1), connecting groove (411) run through the upper and lower both ends face of connecting block (41), the equal fixedly connected with guide block (43) of both sides wall that connecting groove (411) is relative, guide way (12) have all been seted up to the lateral wall that adjusting groove (11) were seted up in vertical fossil fragments (1), vertical fossil fragments (1) joint is in connecting groove (411), guide block (43) joint is in guide way (12).

3. The indoor wall panel dry-hanging installation structure according to claim 1, wherein: the equal fixedly connected with of lateral wall that adjusting groove (11) was seted up in vertical fossil fragments (1) is first rack (45) of vertical setting, two stopper (44) are all worn to be equipped with in adjusting bolt (42), the terminal surface that stopper (44) are close to vertical fossil fragments (1) runs through has connecting hole (441), adjusting bolt (42) are passed from connecting hole (441), stopper (44) are located the both sides of vertical fossil fragments (1) respectively, just stopper (44) are close to second rack (13) that terminal surface fixedly connected with of vertical fossil fragments (1) is vertical setting, work as when adjusting bolt (42) and adjusting nut (423) are screwed up, first rack (45) and second rack (13) meshing.

4. An indoor wallboard dry-hanging installation structure according to claim 2, characterized in that: dovetail (413) have been seted up to connecting groove (411) lower extreme, and dovetail (413) run through with two lateral walls that connecting block (41) kept away from each other and two lateral walls that connecting groove (411) kept away from each other, the equal fixedly connected with dovetail block (442) in connecting block (41) upper end, dovetail block (442) are inserted and are arranged in dovetail (413) and slide.

5. An indoor wallboard dry-hanging installation structure according to claim 3, characterized in that: the end face of the adjusting bolt (42) far away from the head of the adjusting bolt is coaxially provided with a driving groove (421), a spring (46) is arranged in the driving groove (421), the side wall of the adjusting bolt (42) is circumferentially provided with a plurality of guiding grooves (422) communicated with the driving groove (421), the end face of the adjusting bolt (42) far away from the head is penetrated through by the guiding grooves (422), a plurality of guiding blocks (443) are fixed in the connecting hole (441) in the circumferential direction, the guiding blocks (443) are arranged in the guiding grooves (422) to slide, and two ends of the spring (46) are respectively abutted to the end faces of the guiding blocks (443) close to the vertical keel (1).

6. An indoor wallboard dry-hanging installation structure according to claim 5, characterized in that: and a shaping block (47) is arranged in the position, far away from the head part of the adjusting bolt (42), in the driving groove (421), and the outer wall of the shaping block (47) is attached to the side wall of the driving groove (421).

7. An indoor wallboard dry-hanging installation structure according to claim 6, characterized in that: the adjusting bolt (42) is far away from one end of the head of the adjusting bolt and is connected with a limiting nut (48) in a threaded mode, the limiting nut (48) is far away from a plurality of connecting rods (49) of the end face fixedly connected with the vertical keel (1), and one end, far away from the limiting nut (48), of each connecting rod (49) is fixedly connected with the end face, far away from the vertical keel (1), of each shaping block (47).

8. An indoor wallboard dry-hanging installation structure according to claim 6, characterized in that: the edge of the end face of the shaping block (47) facing the guide block (443) is provided with a wedge-shaped face (471).

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