CN209799135U - Aluminous gusset plate ceiling mounting structure - Google Patents

Abstract

The utility model discloses an aluminous gusset plate furred ceiling mounting structure relates to interior decoration technical field, and its technical scheme main points are: fossil fragments including a plurality of parallel distribution and set up in the aluminous gusset plate of fossil fragments lower extreme, the length direction perpendicular to fossil fragments length direction of aluminous gusset plate sets up, aluminous gusset plate all is provided with the buckling parts along its width direction's both sides, the buckling parts sets up towards fossil fragments direction, the buckling parts sets up including setting up the tight portion of support on the aluminous gusset plate perpendicularly, set up in the extension of keeping away from aluminous gusset plate one end to tight portion and set up in the clamping part of keeping away from tight portion one end in the extension, the lower terminal surface of fossil fragments is followed length direction and is corresponded the mounting groove of offering a plurality of locks of packing into to supplying the buckling parts, the lateral wall of mounting groove still is provided. Set up buckling parts, mounting groove and locking groove, through buckling parts joint male mode, saved the screwing up of screw, reduced the work load of installation to it is more convenient to make the installation of aluminous gusset plate.

Description

Aluminous gusset plate ceiling mounting structure

Technical Field

The utility model relates to an interior decoration technical field, more specifically say, it relates to an aluminous gusset plate furred ceiling mounting structure.

Background

The aluminous gusset plate is made of a special material, is light and durable in texture, is widely applied to household suspended ceilings, has various excellent characteristics, is suitable for kitchens and toilets, can achieve a good decorative effect, has various effects, and is popular with consumers.

There is the chinese utility model patent of announcing as the grant CN207974332U that discloses a novel aluminous gusset plate furred ceiling decorative structure, including backup pad, bracing piece, dead lever and furred ceiling board, the below of backup pad with furred ceiling board fixed connection, the furred ceiling board coats the pad, the backup pad passes through the bracing piece is fixed on the ceiling, the intermediate position of bracing piece is provided with the adapter sleeve, the bracing piece is locked fixedly through lock nut, lock nut is last to install spring washer, pass through between the backup pad the dead lever is connected, the dead lever with through backup pad fastening screw fixed connection between the backup pad. During installation, the ceiling plates are fixedly connected through screws, each ceiling plate needs to be fixed through the screws, and the whole structure is large in workload, troublesome and to be improved.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model provides an aluminous gusset plate furred ceiling mounting structure, it has need not fix the aluminous gusset plate through the screw, has reduced the advantage of furred ceiling installation work load.

In order to achieve the above purpose, the utility model provides a following technical scheme:

An aluminous gusset plate ceiling mounting structure comprises a plurality of keels distributed in parallel and aluminous gusset plates arranged at the lower ends of the keels, wherein the length direction of the aluminous gusset plates is perpendicular to the length direction of the keels, buckling parts are arranged on two sides of the aluminous gusset plates in the width direction, the buckling parts are arranged towards the direction of the keels, each buckling part comprises a fastening part vertically arranged on the aluminous gusset plate, an extending part arranged at one end, far away from the aluminous gusset plate, of the fastening part and a clamping part arranged at one end, far away from the fastening part, of the extending part, two fastening parts of each aluminous gusset plate extend towards the direction close to each other, and the two fastening parts are gradually far away from the aluminous; the two clamping parts of each aluminous gusset plate extend towards the direction away from each other, and the end surfaces of the two clamping parts, which are close to the aluminous gusset plate, are gradually close to the aluminous gusset plate along the direction away from each other; the lower terminal surface of fossil fragments corresponds along length direction and has seted up a plurality ofly to the confession the mounting groove that the buckling parts was packed into, the lateral wall of mounting groove still is provided with the confession the locking groove of chucking part embedding location, the locking groove is the slope and sets up downwards.

Through above-mentioned technical scheme, during the installation, press the buckling parts with both sides with the hand for the buckling parts incurving elastic deformation of both sides, can insert the mounting groove with the buckling parts this moment in, when the clamping part of buckling parts aims at the locking groove in the mounting groove, the clamping part is gone into the locking inslot under the effect of self elastic force, and because locking groove and clamping part all are slope setting downwards, the clamping part can incline and insert the enhancement location in the locking groove. Through buckling part joint male mode, after the corresponding position was found to the aluminous gusset plate, can fix through the form of card income, saved the tightening of screw, reduced the work load of installation to make the installation of aluminous gusset plate more convenient.

Further, the notch department of mounting groove is provided with the guide part, and the guide part is used for the direction buckling parts to pack into in the mounting groove.

Through above-mentioned technical scheme, set up the guide part, when the aluminous gusset plate installation, after finding the position that the aluminous gusset plate corresponds, through upwards pressing the back of the buckling parts of aluminous gusset plate between can, the guide part can lead to the elastic deformation of buckling parts to make the installation of aluminous gusset plate more convenient.

further, the lateral wall of keeping away from the locking groove of mounting groove is spacing portion, and when the clamping part was located the locking inslot, the clamping part was contradicted in spacing portion with the junction of extension, just the clamping part is contradicted in the last lateral wall setting of locking groove.

Through above-mentioned technical scheme, when the chucking part was located the locking inslot, the junction of chucking part and extension was contradicted in spacing portion, and the chucking part is contradicted in the last lateral wall setting in locking groove simultaneously, and two support tightly can effectual restriction chucking part's position, reduced the chucking and taken place the condition of buckling for the extension for the installation of aluminous gusset plate is more stable.

Furthermore, the limiting part is arranged in an inward inclined mode, and a chamfer is arranged at one end, close to the aluminum buckle plate, of the limiting part.

through above-mentioned technical scheme, the setting of spacing portion leanin can make the tight effect of support of buckling parts and spacing portion better. When the mounting groove was packed into to the buckling parts, the chamfer in spacing portion can also lead the buckling parts for packing into of buckling parts is more convenient.

Further, the distance between two adjacent pairs of mounting grooves is equal to the width of the aluminous gusset plate.

Through above-mentioned technical scheme, two adjacent aluminous gusset plates can contradict each other and set up, and support the mutual conflict of tight portion for it is more stable after the aluminous gusset plate is installed.

Further, the constant head tank all is provided with at the both ends of aluminous gusset plate length direction, the constant head tank sets up in the one end that the aluminous gusset plate deviates from fossil fragments, and the constant head tank runs through the aluminous gusset plate setting along aluminous gusset plate width direction's both sides.

Through above-mentioned technical scheme, the constant head tank is through buckling the formation, so after the aluminous gusset plate is all installed, can be to the interior backup pad of packing into of recess, on the backup pad can be fixed in the wall through the angle steel, the both ends of aluminous gusset plate all carry out the flattening through the backup pad to make the both ends and the lower surface of each aluminous gusset plate all more parallel and level.

Further, the keel is arranged in a C shape along the cross section of the length direction, and the opening of the keel is arranged downwards.

Through above-mentioned technical scheme, the setting of C shape for the width attenuation in mounting groove and locking groove, thereby card when making things convenient for the aluminous gusset plate installation goes into, and the setting of C shape can also alleviate the weight of fossil fragments in addition, makes the top atress littleer.

Furthermore, the side wall of the keel is provided with a plurality of through holes along the length direction.

Through the technical scheme, when the keels are installed, the keels can be positioned to the adjacent keels through the through holes in a penetrating mode, the mounting grooves in the keels are guaranteed to be aligned correspondingly, and therefore the subsequent aluminous gusset plate is convenient to install.

compared with the prior art, the beneficial effects of the utility model are that:

(1) By arranging the buckling part, the mounting groove and the locking groove and adopting a buckling and inserting mode of the buckling part, the screwing of screws is saved, and the mounting workload is reduced, so that the mounting of the aluminum buckle plate is more convenient;

(2) The installation of the aluminous gusset plate is more convenient by arranging the guide part and the limiting part;

(3) Through setting up the through-hole for the installation of fossil fragments is more accurate, thereby makes the installation of follow-up aluminous gusset more convenient.

drawings

FIG. 1 is an overall schematic view of an embodiment;

FIG. 2 is a schematic view of an aluminum gusset structure according to an embodiment;

Fig. 3 is an installation schematic of the embodiment.

Reference numerals: 1. a keel; 2. an aluminous gusset plate; 3. positioning a groove; 4. a fastening part; 41. a tightening part; 42. an extension portion; 43. a clamping part; 5. a through hole; 6. mounting grooves; 7. a guide portion; 8. a locking groove; 9. a limiting part.

Detailed Description

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

Example (b):

The utility model provides an aluminous gusset plate furred ceiling mounting structure, as shown in figure 1, includes a plurality of parallel distribution's fossil fragments 1 and sets up in the aluminous gusset plate 2 of fossil fragments 1 lower extreme, and fossil fragments 1 are connected to ceiling department through the connecting rod. The thickness of aluminous gusset plate 2 is controlled between 0.5mm to 0.9mm usually, and the length direction perpendicular to 1 length direction of fossil fragments of aluminous gusset plate 2 sets up, and on aluminous gusset plate 2 was fixed in a plurality of fossil fragments 1 simultaneously, and aluminous gusset plate 2 was provided with a plurality ofly along the length direction of fossil fragments 1.

2 length direction's of aluminous gusset plate both ends all are provided with constant head tank 3, and constant head tank 3 sets up in the one end that aluminous gusset plate 2 deviates from fossil fragments 1, and constant head tank 3 runs through aluminous gusset plate 2 along 2 width direction's of aluminous gusset plate both sides, and the constant head tank 3 at both ends runs through aluminous gusset plate 2 setting in one side of keeping away from each other, and constant head tank 3 forms through bending in the actual production.

As shown in fig. 2, the two sides of the aluminous gusset plate 2 along the width direction are both provided with buckling parts 4, the two buckling parts 4 are symmetrically distributed on the two sides of the aluminous gusset plate 2, and the buckling parts 4 are arranged towards the direction of the keel 1. The buckling part 4 comprises a tightening part 41 vertically arranged on the aluminum buckle plate 2, an extending part 42 arranged at one end of the tightening part 41 far away from the aluminum buckle plate 2, and a clamping part 43 arranged at one end of the extending part 42 far away from the tightening part 41. Buckling parts 4 are buckled by aluminous gusset plate 2 and form, and two of every aluminous gusset plate 2 support tight portion 41 and extend towards the direction that is close to each other, and two support tight portion 41 and keep away from aluminous gusset plate 2 setting gradually towards the direction that is close to each other, and the contained angle between extension 42 and the aluminous gusset plate 2 is about 60 degrees usually. Two chucking parts 43 of every aluminous gusset 2 extend towards the direction of keeping away from each other, and two chucking parts 43 are close to the setting of aluminous gusset 2 gradually along the direction that chucking part 43 kept away from each other on the terminal surface of aluminous gusset 2, and the contained angle between chucking part 43 and the aluminous gusset 2 is about 30 degrees usually. The distance between the two ends of the two clamping parts 43 is smaller than the width of the aluminous gusset plate 2.

as shown in fig. 1, the keel 1 is C-shaped in cross section along the length direction, and the opening of the keel 1 faces downward. The lateral wall of fossil fragments 1 is provided with a plurality of through-holes 5 along length direction. When fossil fragments 1 installation, fossil fragments 1 can be fixed a position adjacent fossil fragments 1 through wear to establish the pole in through-hole 5, ensures that mounting groove 6 on each fossil fragments 1 all corresponds the alignment to make follow-up aluminous gusset plate 2's installation more convenient.

As shown in fig. 3, a plurality of pairs of mounting grooves 6 are correspondingly formed on the lower end surface of the keel 1 along the length direction. The distance between two adjacent pairs of mounting grooves 6 is equal to the width of the aluminous gusset plate 2. After the aluminous gusset plate 2 is installed on the keel 1, two adjacent aluminous gusset plates 2 can be mutually abutted and arranged, and the abutting parts 41 are mutually abutted, so that the aluminous gusset plate 2 is more stable after being installed.

the notch department of mounting groove 6 is provided with guide part 7, and guide part 7 is the chamfer, and every guide part 7 to mounting groove 6 all sets up in the one side that two mounting grooves 6 kept away from each other. The lateral wall of mounting groove 6 still is provided with locking groove 8, and every locking groove 8 to mounting groove 6 all sets up in the lateral wall that two mounting grooves 6 kept away from each other. Locking groove 8 is located the middle part of mounting groove 6, and locking groove 8 is the slope and sets up downwards, and the upper end lateral wall of locking groove 8 is the circular arc transition with mounting groove 6 to provide buckling parts 4 and can stretch into the space of mounting groove 6, make things convenient for card 43 and extension 42 partial elasticity to go into down in the locking groove 8.

When the aluminous gusset plate 2 needs to be installed on the keel 1, the guide part 7 is used for guiding the buckling part 4 to be elastically deformed, so that the buckling part 4 is installed in the installation groove 6. When the aluminous gusset plate 2 is installed on fossil fragments 1, mounting groove 6 can supply buckling parts 4 to pack into, and locking groove 8 can supply the embedding of clamping part 43 to fix a position simultaneously, and the upper end lateral wall of locking groove 8 is circular arc transition setting with mounting groove 6, can insert locking groove 8 to clamping part 43 and lead.

as shown in fig. 3, the side wall of the mounting groove 6 far away from the locking groove 8 is a limiting portion 9, the limiting portion 9 is inclined towards the inside of the mounting groove 6 from the groove bottom to the notch of the mounting groove 6, and a chamfer is arranged at one end of the limiting portion 9 close to the aluminous gusset 2. When the clamping part 43 is located in the locking groove 8, the aluminous gusset plate 2 is in a natural sagging state, the lower end face of the clamping part 43 props against the junction of the lower end side wall of the locking groove 8 and the mounting groove 6, meanwhile, the joint of the clamping part 43 and the extending part 42 props against the limiting part 9, and the clamping part 43 props against the upper side wall of the locking groove 8.

The working principle of the embodiment is as follows:

Install fossil fragments 1 on the ceiling at first, make adjacent fossil fragments 1's mounting groove 6 correspond and align through wearing to establish the pole to through-hole 5, then with the buckling parts 4 of aluminous gusset plate 2 aim at mounting groove 6 and insert, this in-process, guide part 7 can lead buckling parts 4 earlier, make buckling parts 4 take place elastic deformation, wherein elastic deformation mainly takes place at extension 42, continue to insert, make buckling parts 4's clamping part 43 aim at the notch of locking groove, clamping part 43 can be embedded into in locking groove 8 this moment. At this moment, the joint of the clamping part 43 and the extending part 42 is abutted against the limiting part 9, and meanwhile, the clamping part 43 is abutted against the upper side wall of the locking groove 8, so that the positions of the clamping part 43 can be effectively limited due to the abutting between the two parts, and the situation that the clamping part 43 is bent relative to the extending part 42 is reduced. After a plurality of aluminous gusset plates 2 are all installed, the locating slot 3 on one side of the aluminous gusset plates 2 is knocked through the supporting plate, so that the end faces of the aluminous gusset plates 2 are parallel and level, the two sides of the aluminous gusset plates are further flattened through the supporting plate, and the aluminous gusset plates 2 are parallel and level after being hoisted and finished.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides an aluminous gusset plate furred ceiling mounting structure, includes a plurality of parallel distribution's fossil fragments (1) and sets up in aluminous gusset plate (2) of fossil fragments (1) lower extreme, its characterized in that: the length direction of the aluminum buckle plate (2) is perpendicular to the length direction of the keel (1), buckling parts (4) are arranged on two sides of the aluminum buckle plate (2) in the width direction, the buckling parts (4) are arranged towards the direction of the keel (1), each buckling part (4) comprises a tightening part (41) vertically arranged on the aluminum buckle plate (2), an extending part (42) arranged at one end, far away from the aluminum buckle plate (2), of each tightening part (41) and a clamping part (43) arranged at one end, far away from the tightening part (41), of each extending part (42), the two tightening parts (41) of each aluminum buckle plate (2) extend towards the direction close to each other, and the two tightening parts (41) are gradually far away from the aluminum buckle plate (2) towards the direction close to each other; the two clamping parts (43) of each aluminous gusset plate (2) extend towards the directions away from each other, and the end surfaces, close to the aluminous gusset plates (2), of the two clamping parts (43) are gradually close to the aluminous gusset plates (2) along the directions away from each other of the clamping parts (43); the lower terminal surface of fossil fragments (1) corresponds along length direction and has seted up a plurality of supplies mounting groove (6) that buckling parts (4) were packed into, and the lateral wall of mounting groove (6) still is provided with the confession clamping part (43) embedding locking groove (8) of location, locking groove (8) are the slope and set up downwards.

2. The aluminous gusset plate ceiling mounting structure of claim 1, wherein: the notch department of mounting groove (6) is provided with guide part (7), and guide part (7) are used for direction buckling parts (4) to pack into in mounting groove (6).

3. The aluminous gusset plate ceiling mounting structure of claim 2, wherein: the lateral wall of keeping away from locking groove (8) of mounting groove (6) is spacing portion (9), and when chucking portion (43) were located locking groove (8), chucking portion (43) contradicted on spacing portion (9) with the junction of extension (42), just chucking portion (43) contradicts in the last lateral wall setting of locking groove (8).

4. The aluminous gusset plate ceiling mounting structure of claim 3, wherein: the limiting portion (9) is arranged in an inward inclined mode, and a chamfer is arranged at one end, close to the aluminum buckle plate (2), of the limiting portion (9).

5. The aluminous gusset plate ceiling mounting structure of claim 1, wherein: the distance between two adjacent pairs of mounting grooves (6) is equal to the width of the aluminous gusset plate (2).

6. The aluminous gusset plate ceiling mounting structure of claim 5, wherein: the both ends of aluminous gusset plate (2) length direction all are provided with constant head tank (3), constant head tank (3) set up in the one end that fossil fragments (1) deviate from in aluminous gusset plate (2), and constant head tank (3) run through aluminous gusset plate (2) setting along aluminous gusset plate (2) width direction's both sides.

7. The aluminous gusset plate ceiling mounting structure of claim 1, wherein: keel (1) is the setting of C shape along length direction side cross-section, and the opening of fossil fragments (1) sets up down.

8. The aluminous gusset plate ceiling mounting structure of claim 7, wherein: the side wall of the keel (1) is provided with a plurality of through holes (5) along the length direction.