CN220814493U - Suspended ceiling plate mounting structure - Google Patents

Abstract

The utility model provides a suspended ceiling plate mounting structure, which comprises a side collecting piece, an angle brace and a splicing piece, wherein a main clamping groove for connecting a wallboard, a secondary clamping groove for connecting the angle brace and a splicing edge for connecting the suspended ceiling plate are arranged on the side collecting piece, and the end part of the suspended ceiling plate is spliced on the splicing edge; the corner connector is provided with a first plugboard which can be inserted into the auxiliary clamping groove and a second plugboard used for connecting the splicing piece; the two sides of the splicing piece are symmetrically provided with connecting grooves for connecting two adjacent suspended ceiling boards, the side edges of the suspended ceiling boards are inserted into the connecting grooves, the top of the splicing piece is provided with an inserting groove, and the second inserting board is inserted into the inserting groove; and a plurality of suspended ceilings are arranged along the length direction of the edge collecting piece, and two adjacent suspended ceilings are connected through a splicing piece.

Description

Suspended ceiling plate mounting structure

Technical Field

The utility model relates to the technical field of assembly type buildings, in particular to a ceiling board mounting structure.

Background

The wallboard of the existing integral bathroom is mostly installed in a form of an independent frame, and in the form, the suspended ceiling plate is directly lapped on the suspended ceiling edging piece. However, due to the fact that the height of the wallboard of the bathroom is large, and meanwhile the wallboard is deformed to a certain extent, after the wallboard surrounds the wall surface of the bathroom, the depth dimension of the upper end of the wallboard and the dimension of the opening have certain deviation from the designed dimension, and the situation that the wallboard cannot be lapped can possibly occur when the ceiling board is actually installed and lapped on the edging piece.

Publication CN217998592U discloses a structure of closing edges of assembled wallboard and aluminium buckle furred ceiling, and it includes h type receipts limit mounting, L type area turn-ups fixed fastener and wallboard, aluminium buckle furred ceiling constitution. The edge folding fixing piece is provided with a horizontally extending supporting plate, the suspended ceiling is lapped on the supporting plate, and the fixing clamping piece is arranged on the edge folding fixing piece to fix the supporting plate.

In the structure, the edge-folding fixing piece is fixedly connected with the original wall surface through the bolts, and is connected with the wallboard in a hanging way, so that the wallboard cannot be installed in an independent frame mode, and is influenced by flaws of the original wall surface, and the positioning standard of the edge-folding fixing piece can deviate to cause uneven installation of the ceiling plate; and its mounting means is, and fixed fastener is connected with receipts limit mounting earlier, later installs the furred ceiling board on receiving the limit piece, because the displacement that the furred ceiling board on the fixed fastener is in order to restrict the furred ceiling board is the slope setting, needs to insert the furred ceiling board below the furred ceiling board during the installation, needs to lift the furred ceiling board and upset fixed fastener complex operation is inconvenient in the installation, and the installation effectiveness is low.

Disclosure of utility model

The utility model aims to overcome the defects in the prior art, and provides a suspended ceiling plate mounting structure, wherein a edging piece is connected with a wallboard, so that the whole wallboard can be mounted by adopting an independent frame and is not limited by an original wall surface; during installation, the suspended ceiling plate is installed firstly, and then the suspended ceiling plate is limited through the splicing piece, so that the operation is convenient.

The utility model provides a suspended ceiling plate mounting structure which comprises a side collecting piece, an angle brace and a splicing piece, wherein a main clamping groove used for connecting a wallboard, a secondary clamping groove used for connecting the angle brace and a splicing edge used for connecting the suspended ceiling plate are arranged on the side collecting piece, and the end part of the suspended ceiling plate is spliced on the splicing edge; the corner connector is provided with a first plugboard which can be inserted into the auxiliary clamping groove and a second plugboard used for connecting the splicing piece; the two sides of the splicing piece are symmetrically provided with connecting grooves for connecting two adjacent suspended ceiling boards, the side edges of the suspended ceiling boards are inserted into the connecting grooves, the top of the splicing piece is provided with an inserting groove, and the second inserting board is inserted into the inserting groove; and a plurality of suspended ceilings are arranged along the length direction of the edge collecting piece, and two adjacent suspended ceilings are connected through a splicing piece.

The utility model has the preferable technical scheme that: the edge receiving piece comprises a main board, the main clamping groove and the auxiliary clamping groove are respectively arranged on the end faces of two phases of backs of the main board, the bridging edge and the auxiliary clamping groove are arranged on the same side of the main board, the opening of the main clamping groove is downwards, and the opening of the auxiliary clamping groove is upwards arranged.

The utility model has the preferable technical scheme that: the lap joint edge is perpendicular to the main board, the auxiliary clamping groove is formed in the upper portion of the lap joint edge, a fixing groove is formed between the auxiliary clamping groove and the lap joint edge, an opening of the fixing groove is perpendicular to the main board, and a self-tapping screw is arranged in the fixing groove and connected with the edge collecting piece and the wallboard.

The utility model has the preferable technical scheme that: the depth of the fixing groove is smaller than the width of the auxiliary clamping groove.

The utility model has the preferable technical scheme that: the angle code comprises an intermediate plate connected with the first inserting plate and the second inserting plate, the first inserting plate is parallel to the intermediate plate and is arranged at intervals, the second inserting plate is perpendicular to the intermediate plate, and when the first inserting plate is inserted into the auxiliary clamping groove, the intermediate plate is in contact with the outer wall of the auxiliary clamping groove.

The utility model has the preferable technical scheme that: the bottoms of the two connecting grooves are connected, and the openings of the two connecting grooves are arranged in a back-to-back and symmetrical mode.

The utility model has the preferable technical scheme that: the inserting groove is arranged above the connecting groove, the inserting groove comprises a connecting plate, the second inserting plate is inserted into the inserting groove, and the tapping screw is connected with the second inserting plate and the connecting plate.

The utility model has the preferable technical scheme that: the connecting plates are arranged in two, the two connecting plates are arranged at intervals, and the two connecting plates are symmetrically arranged at the bottom of the connecting groove.

The ceiling board mounting structure has the following beneficial effects:

1. The edge collecting piece is directly connected with the wallboard, the whole wallboard is of an independent frame structure and is not connected with the original wall surface, and the installation standard of the whole wallboard is less influenced by the original wall surface;

2. The corner connector and the splicing piece are connected with the suspended ceiling plate, and support is provided on the side edge of the suspended ceiling plate, so that the condition that the suspended ceiling plate cannot be overlapped with the edge receiving piece is avoided;

3. The corner connector and the edge receiving piece are connected in an inserting mode, the corner connector and the splicing piece are connected in an inserting mode, the connecting mode is simple and easy to operate, all parts are in surface contact directly, the supporting stability is high, and good bearing capacity is achieved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description, serve to explain the principles of the utility model. In the drawings, like reference numerals are used to identify like elements. The drawings, which are included in the description, illustrate some, but not all embodiments of the utility model. Other figures can be derived from these figures by one of ordinary skill in the art without undue effort.

FIG. 1 is a schematic diagram of an embodiment of the present utility model.

Fig. 2 is a schematic structural view of an edge receiver according to an embodiment of the present utility model.

Fig. 3 is a schematic structural diagram of a corner connector according to an embodiment of the present utility model.

Fig. 4 is a schematic structural view of a splice according to an embodiment of the present utility model.

Fig. 5 is a schematic view of the connection between the corner connector and the splice in an embodiment of the present utility model.

In the figure: 10. edge collecting pieces; 11. a main clamping groove; 12. a secondary clamping groove; 13. overlapping edges; 14. a main board; 15. a fixing groove; 20. an angle code; 21. a first plugboard; 22. an intermediate plate; 23. a second plugboard; 30. a splice; 31. a connecting groove; 32. a plug-in groove; 33. a connecting plate; 40. a ceiling plate; 50. wall panels.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model. It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be arbitrarily combined with each other.

Please refer to fig. 1 to 5. The utility model provides a furred ceiling board 40 mounting structure, including receiving limit piece 10, angle sign indicating number 20 and splice 30, receive the limit piece 10 and hang to locate wallboard 50 tip, be provided with overlap edge 13 on receiving the limit piece 10, the furred ceiling board 40 tip is set up on overlap edge 13, splice 30 is used for connecting two adjacent furred ceiling boards 40 through angle sign indicating number 20 setting on receiving the limit piece 10, splice 30 is used for connecting two adjacent furred ceiling boards 40, the butt joint piece is connected to furred ceiling board 40 tip, the furred ceiling board 40 side, when the condition of the unable overlap joint with receiving limit piece 10 of its tip takes place appears in furred ceiling board 40, splice 30 can replace to receive the limit piece 10 and provide support for furred ceiling board 40.

Referring to fig. 2, the edge receiving member 10 includes a main board 14, a main clamping groove 11 for connecting with the wall board 50, and a sub clamping groove 12 for connecting with the corner brace 20, wherein the main clamping groove 11 and the sub clamping groove are respectively disposed on two opposite end surfaces of the main board 14, and the main clamping groove 11 is downward open so that the edge receiving member 10 can be clamped at the end of the wall board 50 through the main clamping groove 11; the opening of the auxiliary clamping groove 12 faces upwards, and the corner brace 20 is inserted into the auxiliary clamping groove 12. The main board 14 is further provided with a joint edge 13, the joint edge 13 is arranged below the auxiliary clamping groove 12, the joint edge 13 is perpendicular to the main board 14, a fixing groove 15 is further formed between the auxiliary clamping groove and the joint edge 13, the opening of the fixing groove 15 faces towards the main board 14 and is perpendicular to the main board 14, the self-tapping screws are arranged in the fixing groove 15, the edge collecting piece 10 is fixedly connected with the main board 14, the edge collecting piece 10 is supported by the wallboard 50, the wallboard 50 and the ceiling board 40 are integrally of independent structures and are not associated with an original wall surface, and the positioning reference of the edge collecting piece is not influenced by the original wall surface to deviate.

Referring to fig. 3, the corner bracket 20 includes a first insert plate 21 for connecting the edge receiving member 10, a second insert plate 23 for connecting the splicing member 30, and an intermediate plate 22 for connecting the first insert plate 21 and the second insert plate 23, where the first insert plate 21 and the intermediate plate 22 are parallel to each other and spaced apart, and the corner bracket 20 is used for inserting the first insert plate 21 into the sub-clamping slot 12 to connect the edge receiving member 10. Preferably, the interval between the first inserting plate 21 and the middle plate 22 is equal to or slightly greater than the thickness of the slot wall of the auxiliary clamping slot 12, so that when the first inserting plate 21 is inserted into the auxiliary clamping slot 12, the middle plate 22 can be attached to the outer wall of the auxiliary clamping slot 12, when the corner bracket 20 is prevented from bearing load, the end of the side wall of the auxiliary clamping slot 12 acts on the first inserting plate 21 or acts on the connection part of the first inserting plate 21 and the middle plate 22 to cause the first inserting plate 21 to bend, and the attachment of the middle plate 22 and the outer wall of the auxiliary clamping slot 12 can increase the contact surface of the corner bracket 20 and the edge receiving piece 10, thereby increasing the stability of the auxiliary clamping slot 12 for supporting the corner bracket 20 and preventing the corner bracket 20 from being deformed under force.

Because the opening of the auxiliary clamping groove 12 is upward, when the corner connector 20 is connected with the edge receiving piece 10, the auxiliary clamping groove 12 forms a stop at two sides of the first plugboard 21, and the first plugboard 21 and the middle board 22 form a stop at two sides of the side wall of the auxiliary clamping groove 12, so that the auxiliary clamping groove 12 and the corner connector 20 can be mutually limited, the corner connector 20 is not easy to separate from the edge receiving piece 10, and the connection stability of the corner connector 20 and the edge receiving piece 10 is ensured. The second plugboard 23 is perpendicular to the bottom of the middle board 22 and is used for connecting the splice 30.

Further, in order to avoid that the fixing groove 15 protrudes beyond the middle plate 22 to affect the contact between the middle plate 22 and the outer wall of the auxiliary clamping groove 12 when the corner connector 20 is connected to the edge connector 10, the groove depth of the fixing groove 15 should be smaller than the width of the auxiliary clamping groove 12, so that after the self-tapping screw is connected to the edge connector 10 and the wall plate 50, the end of the self-tapping screw does not protrude out of the fixing groove 15 and interfere with the middle plate 22 of the corner connector 20.

Referring to fig. 4, the splice member 30 includes a connecting slot 31 for connecting two adjacent ceiling tiles 40 and a mating slot 32 for connecting the corner connector 20. Since the suspended ceiling plates 40 are normally installed on a horizontal plane, the openings of the two connecting grooves 31 are arranged on the same horizontal plane in a back-to-back manner for horizontally connecting the two suspended ceiling plates 40; in the present application, in order to reduce the weight of the splice 30, the two connecting grooves 31 share the same bottom plate, and the bottoms of the two connecting grooves 31 are connected and the openings are opposite and symmetrically arranged. The side edges of the ceiling tile 40 are snapped into the attachment slots 31 to connect with the splice members 30 such that the splice members 30 effectively limit the displacement of the ceiling tile 40, and the width of the attachment slots 31 should be equal to or slightly greater than the thickness of the ceiling tile 40.

A plugging groove 32 is also arranged above the connecting groove 31, and the plugging groove 32 comprises a connecting plate 33. In the present application, in order to reduce the weight of the splice 30, the insertion groove 32 is formed by using the side walls of two connection grooves 31 as the bottom, the connection plate 33 is disposed above the connection groove 31, the end surface of the connection plate 33 is spaced from the outer wall of the connection groove 31, the second insertion plate 23 is inserted between the connection plate 33 and the connection groove 31, and the connection plate 33 and the second insertion plate 23 are fixed by disposing self-tapping screws, so as to connect the corner brace 20 and the splice 30.

Preferably, since two sides of the splicing element 30 are respectively spliced with the two suspended ceiling boards 40, two connecting plates 33 are provided for ensuring the symmetrical and uniform stress of the splicing element 30, and the two connecting plates 33 are symmetrically arranged at two sides with respect to the bottom of the connecting groove 31, and the two connecting plates 33 are spaced to reduce the overall weight of the splicing element 30. When the corner connector 20 is connected with the splicing piece 30, the second inserting plate 23 is inserted into the inserting groove 32, and self-tapping screws are arranged on the two connecting plates 33 to fix the splicing piece 30 and the corner connector 20.

Further, to achieve that the splice member 30 can provide support for the ceiling tile 40 when the end of the ceiling tile 40 cannot overlap the overlap edge 13, the height of the second insert plate 23 on the corner bracket 20, the height of the insert groove 32 on the splice member 30, and the height of the connecting groove 31 should be satisfied, and when the splice member 30 is connected to the receiving edge member 10 by the corner bracket 20, the side wall of the connecting groove 31 at the bottom for contacting the ceiling tile 40 should be on the same level with the overlap plate.

The utility model comprises the following steps:

s1, after all wallboards 50 are installed, clamping a main clamping groove 11 of a side collecting piece 10 into the top end of the wallboard 50, adjusting the side collecting piece 10 to enable a main board 14 to be attached to the outer surface of the wallboard 50, and arranging self-tapping screws in a fixing groove 15 to fix the side collecting piece 10 and the wallboard 50;

S2, installing the outermost suspended ceiling plate 40, and overlapping the end part of the suspended ceiling plate 40 on the overlap edge 13 of the edge receiving piece 10;

S3, connecting the corner connector 20 and the splicing piece 30, inserting the second plugboard 23 of the corner connector 20 into the insertion groove 32 at the top of the splicing piece 30, and fixing the second plugboard 23 and the connecting plate 33 by using a tapping screw;

S4, moving the corner connector 20 and the splicing piece 30 which are connected, so that the first plugboard 21 of the corner connector 20 is inserted into the auxiliary clamping groove 12, and moving the corner connector 20 and the splicing piece 30 along the length direction of the edge receiving piece 10, so that the side edge of the outermost suspended ceiling board 40 is inserted into the connecting groove 31 of the splicing piece 30;

S5, installing the next suspended ceiling plate 40, overlapping the end part of the suspended ceiling plate 40 on the overlap edge 13 of the edge receiving piece 10, and moving to enable the side edge of the suspended ceiling plate 40 to be inserted into the connecting groove 31 at the other side of the splicing piece 30;

And S6, repeating the steps S3 to S5 until the suspended ceiling plate 40 is completely installed.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting. Although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. The suspended ceiling plate mounting structure is characterized by comprising a side receiving piece (10), an angle brace (20) and a splicing piece (30), wherein a main clamping groove (11) used for connecting a wallboard (50), a secondary clamping groove (12) used for connecting the angle brace (20) and a splicing edge (13) used for connecting a suspended ceiling plate (40) are arranged on the side receiving piece (10), and the end part of the suspended ceiling plate (40) is spliced on the splicing edge (13); the corner connector (20) is provided with a first plugboard (21) which can be inserted into the auxiliary clamping groove (12) and a second plugboard (23) which is used for connecting the splicing piece (30); the splicing piece (30) is symmetrically provided with connecting grooves (31) for connecting two adjacent suspended ceilings (40), the side edges of the suspended ceilings (40) are inserted into the connecting grooves (31), the top of the splicing piece (30) is provided with inserting grooves (32), and the second inserting plates (23) are inserted into the inserting grooves (32); a plurality of suspended ceilings (40) are arranged along the length direction of the edge collecting piece (10), and two adjacent suspended ceilings (40) are connected through a splicing piece (30).

2. The ceiling board mounting structure according to claim 1, wherein the edge receiving member (10) comprises a main board (14), the main clamping groove (11) and the auxiliary clamping groove (12) are respectively arranged on two opposite end surfaces of the main board (14), the overlap edge (13) and the auxiliary clamping groove (12) are arranged on the same side of the main board (14), the opening of the main clamping groove (11) is downwards, and the opening of the auxiliary clamping groove (12) is upwards.

3. The ceiling tile mounting structure according to claim 2, wherein the joint edge (13) is perpendicular to the main board (14), the auxiliary clamping groove (12) is arranged above the joint edge (13), a fixing groove (15) is arranged between the auxiliary clamping groove (12) and the joint edge (13), an opening of the fixing groove (15) is perpendicular to the main board (14), and a tapping screw is arranged in the fixing groove (15) to connect the edge receiving piece (10) with the wallboard (50).

4. A ceiling tile mounting structure according to claim 3, wherein the fixing groove (15) has a depth smaller than the width of the secondary snap groove (12).

5. A ceiling tile mounting structure according to claim 2, wherein the corner brace (20) comprises an intermediate plate (22) connecting the first insert plate (21) and the second insert plate (23), the first insert plate (21) and the intermediate plate (22) are parallel to each other and are arranged at intervals, the second insert plate (23) is perpendicular to the intermediate plate (22), and when the first insert plate (21) is inserted into the sub-clamping groove (12), the intermediate plate (22) is in contact with the outer wall of the sub-clamping groove (12).

6. A ceiling tile installation according to claim 5, wherein the bottoms of the connecting grooves (31) are connected, and the openings of the connecting grooves (31) are arranged opposite and symmetrically.

7. The ceiling tile installation structure according to claim 6, wherein the insertion groove (32) is disposed above the connection groove (31), the insertion groove (32) includes a connection plate (33), the second insertion plate (23) is inserted into the insertion groove (32), and the tapping screw connects the second insertion plate (23) and the connection plate (33).

8. A ceiling tile mounting structure according to claim 7, wherein two of said connection plates (33) are provided, the two connection plates (33) being arranged at intervals, and the two connection plates (33) being symmetrically arranged with respect to the bottom of said connection groove (31).