阅读说明：本技术 一种高稳定性的装配式吊顶板组件 (Assembled furred ceiling board subassembly of high stability ) 是由 何静姿 吴龙 马航城 楼银松 李稳稳 丁茂轩 于 2021-09-28 设计创作，主要内容包括：本发明属于装配式家居技术领域,尤其涉及一种高稳定性的装配式吊顶板组件。本发明提供一种高稳定性的装配式吊顶板组件,其能通过在竖向墙板上设置吊顶板主体、卡合板单元、安装板单元、连接板单元、安装框体单元以及倒梯形板单元的方式,达到吊顶板主体安装稳定、拆装方便的目的。本发明具有以下优点：第一、连接板单元处弯矩分散、自身结构强度大,吊顶板主体安装稳定、不易掉落；第二、吊顶板主体插接式活动安装,拆装维修和更换操作简单方便,吊顶板主体具有后期再夹紧功能,不易松动,夹紧强度灵活可调；第三、整个装配式吊顶板组件内部结构紧凑性高,零部件适用性强,整体使用方便、高效。(The invention belongs to the technical field of assembly type home furnishing, and particularly relates to an assembly type ceiling board assembly with high stability. The invention provides a high-stability assembled ceiling board assembly, which can achieve the purposes of stable installation and convenient disassembly and assembly of a ceiling board main body by arranging the ceiling board main body, a clamping board unit, an installation board unit, a connecting board unit, an installation frame body unit and an inverted trapezoidal board unit on a vertical wallboard. The invention has the following advantages: firstly, the bending moment at the connecting plate unit is dispersed, the structural strength of the connecting plate unit is high, and the main body of the ceiling plate is stably installed and is not easy to fall off; secondly, the ceiling board main body is movably installed in a plug-in mode, the dismounting, the maintenance and the replacement operation are simple and convenient, the ceiling board main body has a later-stage re-clamping function, the looseness is not easy to occur, and the clamping strength is flexible and adjustable; thirdly, the whole assembled ceiling plate component has high internal structure compactness, strong applicability of parts and high efficiency, and is convenient to use integrally.)

1. A high stability's assembled furred ceiling board subassembly, includes vertical wallboard (11) to and furred ceiling board main part (12), its characterized in that: the ceiling board is characterized by further comprising a clamping plate unit (1) arranged at the upper end of the vertical wall board (11), a mounting plate unit (2) arranged on the upper surface of the ceiling board main body (12), and a connecting plate unit (3) arranged between the clamping plate unit (1) and the mounting plate unit (2).

2. A high stability fabricated ceiling panel assembly in accordance with claim 1, wherein: the clamping plate unit (1) comprises a transverse fixing plate (101) arranged at the upper end of the vertical wallboard (11), a vertical clamping plate (102) arranged on the transverse fixing plate (101) and used for clamping and fixing the inner side surface of the vertical wallboard (11), a wallboard screw hole (103) arranged on the transverse fixing plate (101), and a wallboard screw (104) arranged on the wallboard screw hole (103) and used for connecting the vertical wallboard (11).

3. A high stability fabricated ceiling panel assembly in accordance with claim 2, wherein: the mounting plate unit (2) comprises a main body plate (201) arranged on the upper surface of the ceiling board main body (12), a ceiling board screw hole (202) arranged on the main body plate (201), and a ceiling board screw (203) arranged on the ceiling board screw hole (202).

4. A high stability fabricated ceiling panel assembly in accordance with claim 3, wherein: the connecting plate unit (3) comprises a vertical connecting plate (301) and a transverse connecting plate (302) arranged between the transverse fixing plate (101) and the main body plate (201), or an inclined connecting plate (303), or the transverse connecting plate (302) and the inclined connecting plate (303).

5. A high stability fabricated ceiling panel assembly in accordance with claim 4, wherein: the connection plate unit (3) further comprises a rib plate (304).

6. A high stability fabricated ceiling panel assembly in accordance with claim 3, wherein: the ceiling plate is characterized by further comprising an installation frame body unit (4) arranged on the lower surface of the main body plate (201) and used for inserting and installing the ceiling plate main body (12), and an inverted trapezoidal plate unit (5) arranged in the installation frame body unit (4) and used for clamping and fixing the ceiling plate main body (12) in a side pushing mode through downward pushing of the ceiling plate screw (203), wherein the two sides of the ceiling plate main body (12) are provided with upward inclined planes.

7. A high stability fabricated ceiling panel assembly in accordance with claim 6, wherein: the mounting frame body unit (4) comprises a U-shaped plate (401) with a lateral opening and used for being inserted into the ceiling board main body (12), and a frame body screw hole (402) which is arranged on a plate body above the U-shaped plate (401) and used for penetrating through the ceiling board screw (203); inverted trapezoidal board unit (5) is including pressing from both sides riser (501) of the vertical medial surface of U template (401), sets up bottom connecting plate (502) on riser (501) side sets up just press from both sides tightly on bottom connecting plate (502) tilt plate (503) down of inclined plane up, and set up riser (501) with between tilt plate (503) opposite flank down and be used for receiving anti-screw hole board portion (504) of the downward thrust of furred ceiling board screw (203).

8. A high stability fabricated ceiling panel assembly in accordance with claim 7, wherein: the reverse screw hole plate portion (504) comprises a first transverse plate (504 a) arranged on the inner side face of the vertical plate (501), a second transverse plate (504 b) arranged on the inner side face of the downward inclined plate (503), transverse notches (504 c) arranged on the opposite side faces of the first transverse plate (504 a) and the second transverse plate (504 b) respectively, and a pushing plate (504 d) clamped on the transverse notches (504 c), wherein the pushing plate (504 d) is arranged on the pushing plate (504 d), and a reverse screw hole (504 e) is arranged on the pushing plate (504 d) and has a thread direction opposite to that of the frame screw hole (402).

9. A high stability fabricated ceiling panel assembly in accordance with claim 8, wherein: the number of the reverse screw hole plate parts (504) is 3-8, the reverse screw hole plate parts are vertically arranged, and the distances between the inner side surfaces of all the transverse paired transverse notches (504 c) are equal.

10. A high stability fabricated ceiling panel assembly in accordance with claim 8, wherein: the reverse screw hole plate part (504) further comprises two bending dents (504 f) which are arranged on the lower surface of the pushed plate (504 d) and are respectively positioned at the positions of two sides of the reverse screw hole (504 e), the pushed plate (504 d) is used for changing the thread direction of the reverse screw hole (504 e) in an up-down turning mode, and then the vertical wall plate (11) is used for installing the wall plate screw (104).

Technical Field

The invention belongs to the technical field of assembly type home furnishing, and particularly relates to an assembly type ceiling board assembly with high stability.

Background

The assembled ceiling board is a modularized ceiling board product convenient to install, the board of the assembled ceiling board is completely produced and processed according to the requirements of customers, and the customers only need to assemble the assembled ceiling board in the last step on site.

And be used in the assembled furred ceiling board in bathroom, can adopt the mode of not being connected with the top surface to guarantee that the bathroom top has sufficient ventilation and accommodation space, the problem of doing so and bringing is that need other mounting structure to guarantee the installation stability of assembled furred ceiling board, and current common solution is exactly to set up the shingle, installs the furred ceiling board on the shingle.

The existing wall panel and ceiling integrated assembly type assembly has at least the following problems in the long-term use process: firstly, the bending moment of the connecting part between the wall panel and the ceiling board is too concentrated, and the connecting part is easy to break, so the service life of the connecting part is relatively short; second, since the ceiling plate is fixed by screws, it is troublesome to replace it.

In view of the foregoing, there is a need for a fabricated ceiling panel assembly with improved structure, which has high strength and is easy to assemble, disassemble and maintain, and can be used in bathroom and kitchen.

Chinese utility model patent with patent publication number CN212200749U and publication date 2020.12.22 discloses a ceiling tile connecting piece, which has: the mounting groove is used for mounting the side part of the ceiling board, and the isolation groove is used for isolating the side part of the ceiling board and the side part of the wall board; the mounting groove is along transversely setting up, and the isolation groove is along vertically setting up, the groove diapire of mounting groove with an groove lateral wall of isolation groove is shared. The present application additionally provides a modular building.

But the ceiling board connecting piece in the utility model patent, its mode of installing the ceiling board still is screwed connection, consequently when the ceiling board need be pulled down and changed, still need remove the spiro union, and this is just very troublesome.

Disclosure of Invention

The invention provides a high-stability assembled ceiling board assembly, which can achieve the purposes of stable installation and convenient disassembly and assembly of a ceiling board main body by arranging the ceiling board main body, a clamping board unit, an installation board unit, a connecting board unit, an installation frame body unit and an inverted trapezoidal board unit on a vertical wallboard.

The technical scheme adopted by the invention for solving the problems is as follows: the utility model provides a high stability's assembled furred ceiling board subassembly, includes vertical wallboard to and the furred ceiling board main part, still including setting up the closure plate unit of vertical wallboard upper end sets up mounting panel unit on the furred ceiling board main part upper surface, and set up the closure plate unit with connecting plate unit between the mounting panel unit.

The further preferred technical scheme is as follows: the clamping plate unit comprises a transverse fixing plate arranged at the upper end of the vertical wallboard, a vertical clamping plate arranged on the transverse fixing plate and used for clamping and fixing the inner side surface of the vertical wallboard, a wallboard screw hole arranged on the transverse fixing plate, and a wallboard screw arranged on the wallboard screw hole and used for connecting the vertical wallboard.

The further preferred technical scheme is as follows: the mounting plate unit comprises a main body plate arranged on the upper surface of the main body of the ceiling board, a ceiling board screw hole arranged on the main body plate, and a ceiling board screw arranged on the ceiling board screw hole.

The further preferred technical scheme is as follows: the connecting plate unit comprises a vertical connecting plate and a transverse connecting plate arranged between the transverse fixing plate and the main body plate, or an inclined connecting plate, or the transverse connecting plate and the inclined connecting plate.

The further preferred technical scheme is as follows: the connection plate unit further includes a rib plate.

The further preferred technical scheme is as follows: still including setting up be used for the grafting installation on the main part board lower surface the installation frame body unit of furred ceiling board main part, and set up in the installation frame body unit and through the furred ceiling board screw promotes downwards and then the side direction pushes away the mode in order to be used for pressing from both sides the trapezoidal plate unit of tightly fixing the furred ceiling board main part, the both sides of furred ceiling board main part are equipped with inclined plane up.

The further preferred technical scheme is as follows: the installation frame body unit comprises a U-shaped plate with a lateral opening and used for being inserted into the ceiling board main body, and a frame body screw hole which is arranged on a plate body above the U-shaped plate and used for penetrating through a ceiling board screw; the inverted trapezoidal plate unit is including pressing from both sides tight the riser of the vertical medial surface of U template sets up bottom connecting plate on the riser side sets up on the bottom connecting plate and press from both sides tightly the downward hang plate on inclined plane up, and set up the riser with be used for receiving between the relative side of downward hang plate the anti-screw board of the downward driving force of furred ceiling board screw.

The further preferred technical scheme is as follows: the reverse screw board portion is including setting up first horizontal board on the riser medial surface sets up the horizontal board of second on the downward sloping board medial surface sets up respectively first horizontal board with horizontal notch on the second horizontal board opposite flank, the block sets up two receive the slurcam on the horizontal notch, and set up receive on the slurcam and the screw thread direction with the reverse screw that the framework screw is opposite.

The further preferred technical scheme is as follows: the number of the reverse screw hole plate parts is 3-8, the reverse screw hole plate parts are vertically arranged, and the distances between the inner side surfaces of the transverse notches in all transverse paired transverse notches are equal.

The further preferred technical scheme is as follows: the reverse screw hole plate part is characterized by further comprising two bending dents which are arranged on the lower surface of the pushing plate and are respectively located at the positions on two sides of the reverse screw hole, the pushing plate is used for changing the thread direction of the reverse screw hole in an up-and-down turning mode, and the vertical wallboard is used for installing wallboard screws.

The invention has the following advantages: firstly, the bending moment at the connecting plate unit is dispersed, the structural strength of the connecting plate unit is high, and the main body of the ceiling plate is stably installed and is not easy to fall off; secondly, the ceiling board main body is movably installed in a plug-in mode, the dismounting, the maintenance and the replacement operation are simple and convenient, the ceiling board main body has a later-stage re-clamping function, the looseness is not easy to occur, and the clamping strength is flexible and adjustable; thirdly, the whole assembled ceiling plate component has high internal structure compactness, strong applicability of parts and high efficiency, and is convenient to use integrally.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the position structure of the engaging plate unit, the mounting plate unit and the connecting plate unit in the present invention.

Fig. 3 is a schematic view of a second structure of the connecting plate unit of the present invention.

Fig. 4 is a schematic view of a third structural style of the connecting plate unit in the invention.

Fig. 5 is a schematic view of the position structure of the installation frame unit and the inverted trapezoidal plate unit in the invention.

FIG. 6 is a schematic view of the structure of the reverse-threaded plate portion of the present invention.

Fig. 7 is a top view of a pushed plate of the present invention.

Fig. 8 is a schematic view of the use of the push plate of the present invention at a vertical wall panel after being bent.

FIG. 9 is a schematic view of the pushed plate of the present invention in a folded state from a top view.

Detailed Description

The following description is only a preferred embodiment of the present invention and is not intended to limit the scope of the present invention.

Example (b): as shown in fig. 1 to 9, an assembled ceiling plate assembly with high stability comprises a vertical wall plate 11, a ceiling plate main body 12, a snap plate unit 1 arranged at the upper end of the vertical wall plate 11, a mounting plate unit 2 arranged on the upper surface of the ceiling plate main body 12, and a connecting plate unit 3 arranged between the snap plate unit 1 and the mounting plate unit 2.

In this embodiment, the material of vertical wallboard 11 and furred ceiling board main part 12 is current hollow aluminum plate or plastic slab, guarantees sufficient intensity and weight relatively lighter, and vertical wallboard 11 is fixed on the wall, the furred ceiling board main part 12 is installed again on the vertical wallboard 11, like this the furred ceiling board main part 12 just need not take place to have concerned with the top surface, guarantees relatively simpler installation engineering, and the material requirement of saving relatively.

In addition, the block board unit 1, the connecting board unit 3 and the mounting board unit 2 form a whole in proper order, be used for vertical wallboard 11 with form connection structure between the furred ceiling board main part 12, guarantee the furred ceiling board main part 12 has sufficient installation intensity, guarantees to be difficult for dropping after using for a relatively long time.

The clamping plate unit 1 comprises a transverse fixing plate 101 arranged at the upper end of the vertical wallboard 11, a vertical clamping plate 102 arranged on the transverse fixing plate 101 and used for clamping and fixing the inner side surface of the vertical wallboard 11, a wallboard screw hole 103 arranged on the transverse fixing plate 101, and a wallboard screw 104 arranged on the wallboard screw hole 103 and used for connecting the vertical wallboard 11.

In this embodiment, the vertical wall plate 11 may be provided with a transverse plate or an end plate inside to serve as an installation base of the wall plate screw 104, and the inner transverse plate or the end plate may also be provided with a screw hole in advance to facilitate the wall plate screw 104 to be screwed in.

The vertical engaging plate 102 is used for hooking the vertical wall plate 11 at the inner side to ensure that the horizontal fixing plate 101 has a horizontal limiting effect, so that the vertical wall plate 11 is opposite to the wall surface with a certain gap left therebetween, or a side notch for accommodating the vertical engaging plate 102 is formed above the inner side surface.

The mounting plate unit 2 includes a main body plate 201 provided on the upper surface of the ceiling plate main body 12, ceiling plate screw holes 202 provided on the main body plate 201, and ceiling plate screws 203 provided on the ceiling plate screw holes 202.

In this embodiment, the ceiling board main body 12 is horizontally disposed, so that the entire upper surface is a flat plate, and a threaded hole corresponding to the position of the ceiling board screw 203 may be formed to ensure smooth and stable installation of the ceiling board screw 203.

The connecting plate unit 3 includes a vertical connecting plate 301 and a horizontal connecting plate 302, or an inclined connecting plate 303, or the horizontal connecting plate 302 and the inclined connecting plate 303, which are disposed between the horizontal fixing plate 101 and the main body plate 201. The connection plate unit 3 further includes a rib plate 304.

In the present embodiment, the connection plate unit 3 is provided in segments in order to disperse the bending moment generated by the weight of the ceiling main body 12 and avoid the problem that a certain portion of the connection plate unit 3 is broken in a short time due to the concentrated bending moment.

The connecting plate unit 3 can have the following various structural styles: firstly, the whole body is composed of the vertical connecting plate 301 and the transverse connecting plate 302, and a step is formed between the transverse fixing plate 101 and the main body plate 201 so as to ensure sufficient connection strength; secondly, the effect of bending moment dispersion can be achieved by comprising a plurality of transverse connecting plates 302 and a plurality of inclined connecting plates 303; thirdly, the inclined connecting plates 303 are included, and the same is also true; fourth, a plurality of arc plates can be connected.

Finally, in the above solution with only the vertical connecting plate 301 and the transverse connecting plate 302, the connecting plate unit 3 further includes a rib plate 304 to ensure a structural reinforcing effect of a reinforcing rib between the vertical connecting plate 301 and the transverse connecting plate 302.

The installation frame body unit 4 is arranged on the lower surface of the main body plate 201 and used for inserting and installing the ceiling board main body 12, the inverted trapezoidal plate unit 5 is arranged in the installation frame body unit 4 and is used for clamping and fixing the ceiling board main body 12 in a manner that the ceiling board screw 203 pushes downwards and pushes laterally, and upward inclined planes are arranged on two sides of the ceiling board main body 12.

In this embodiment, the installation frame unit 4 is used to change the direct screwing relationship between the ceiling plate screw 203 and the ceiling plate main body 12 into the direct screwing relationship between the ceiling plate screw 203 and the installation frame unit 4, and the ceiling plate main body 12 is inserted into the installation frame unit 4, so that the ceiling plate main body 12 which is relatively easy to be damaged has the advantage of convenient disassembly and maintenance.

In addition, the inverted trapezoidal plate unit 5 is used for reinforcing the insertion function between the installation frame unit 4 and the ceiling board main body 12, and avoiding unsafe factors that the ceiling board main body 12 is stably installed and is not easy to fall off but always shakes or loosens.

The mounting frame unit 4 comprises a U-shaped plate 401 with a lateral opening and used for inserting the ceiling board main body 12, and a frame screw hole 402 which is arranged on a plate body above the U-shaped plate 401 and used for penetrating through the ceiling board screw 203; inverted trapezoidal board unit 5 is including pressing from both sides riser 501 of the vertical medial surface of U template 401 sets up bottom connecting plate 502 on the riser 501 side sets up on the bottom connecting plate 502 and press from both sides tightly inclined plate 503 down of inclined plane up, and set up riser 501 with be used for receiving between the inclined plate 503 opposite flank down the anti-screw hole board 504 of the downward thrust of furred ceiling screw 203.

In this embodiment, the reverse screw hole portion 504 is formed by the same method as the frame screw hole 402, and only the reverse screw hole portion 504 is turned upside down, so that the rotation direction of the screw thread of the reverse screw hole portion 504 is opposite to the rotation direction of the screw thread of the ceiling plate screw hole 202, and the ceiling plate screw hole 202 can only push the reverse screw hole portion 504 downward and cannot be screwed into the reverse screw hole portion 504.

And the corresponding advantages are: the ceiling tile screw 203 can push the reverse threaded hole plate portion 504 downward, and the ceiling tile screw 203 is prevented from being directly screwed into the reverse threaded hole plate portion 504, so that the downward screwing action of the ceiling tile screw 203 can effectively push the downward inclined plate 503 downward.

In addition, the whole downwards of falling trapezoidal plate unit 5 can promote inclined plane up, and two of both sides fall trapezoidal plate unit 5 and push relatively simultaneously, can stably press from both sides tightly fixed furred ceiling board main part 12 guarantees furred ceiling board main part 12 has easy dismounting nature and installation stability concurrently.

The reverse screw hole plate portion 504 includes a first transverse plate 504a disposed on the inner surface of the vertical plate 501, a second transverse plate 504b disposed on the inner surface of the downward inclined plate 503, transverse notches 504c respectively disposed on the opposite side surfaces of the first transverse plate 504a and the second transverse plate 504b, a push-receiving plate 504d disposed on the transverse notches 504c, and a reverse screw hole 504e disposed on the push-receiving plate 504d and having a thread direction opposite to that of the frame screw hole 402. The number of the inverse screw plate portions 504 is 3-8, the inverse screw plate portions are vertically arranged, and the distances between the inner side surfaces of all the two transverse notches 504c in transverse pairs are equal.

In this embodiment, the plurality of reverse screw plate portions 504 enables the inverse trapezoidal plate unit 5 to have downward pushing actions with different distances, for example the lower tip of the ceiling screw 203 is 8mm lower than the uppermost lateral notch 504c, and the distance between the transverse notches 504c at each vertical stage is 2mm, the inverted trapezoidal plate unit 5 can push down 8mm when the pushed plate 504d is installed at the uppermost transverse notch 504c, corresponding to the maximum clamping force achieved at the ceiling tile body 12, and if the pushed plate 504d is mounted at the second upper transverse slot 504c, the inverted trapezoidal plate unit 5 can be pushed down 6mm, corresponding to the second highest clamping force achieved at the ceiling tile body 12 and so on to ensure that sufficient and appropriate clamping securement force is achieved at the ceiling tile body 12.

The reverse screw hole plate portion 504 further includes two bending dents 504f disposed on the lower surface of the pushed plate 504d and respectively located at two sides of the reverse screw hole 504e, the pushed plate 504d is used for changing the thread direction of the reverse screw hole 504e in an up-down turning manner, and then the vertical wall plate 11 is used for installing the wall plate screw 104.

In the prior art, in consideration of light weight, the vertical wall plate 11 is a hollow plate, and includes two side plate bodies and a middle connecting plate, so when the wall plate screws 104 are fixed, a side plate must be arranged at the upper end of the vertical wall plate 11, or a fixing plate is arranged in the middle of the vertical wall plate 11, so as to ensure that a horizontal installation base is provided for the wall plate screws 104, and the side plate or the fixing plate can also be provided with a threaded hole.

In this embodiment, a plurality of inverted trapezoidal plate units 5 correspond to one inverted trapezoidal plate unit 5, so as to ensure that the side edge of the ceiling main body 12 has a proper multi-point clamping function, and a plurality of inverted trapezoidal plate units 5 may be provided with surplus pushed plates 504d, so as to ensure that the inverted trapezoidal plate units 5 have multiple selectable downward pushing forces, and at this time, the pushed plates 504d are surplus.

Therefore, the pushed plate 504d is turned over up and down, originally, because the thread directions are opposite, the reverse screw hole 504e into which the screw can not be screwed is changed into a forward screw hole, namely the screw can be screwed in and installed, and then the two bending dents 504f are matched to form a U-shaped plate structure, so that the fixing plate is arranged in the middle of the wallboard screw 104 which needs to be additionally arranged originally, and the wallboard screw 104 can be smoothly screwed.

Finally, the pushed plate 504d that has been bent for use in the vertical wall panel 11 may be welded or screwed to the side plate of the vertical wall panel 11, or may be welded or screwed to the intermediate plate of the vertical wall panel 11, and finally, the pushed plate 504d is ensured to have the following advantages.

Firstly, the inverted trapezoidal plate unit 5 and the vertical wall plate 11 can be switched for use, both can be used, and the use method and the action are completely different; secondly, when the inverted trapezoidal plate unit 5 is arranged, the thread direction is not matched with the thread direction of the ceiling plate screw hole 202, so that the ceiling plate screw hole 202 can only push the pushed plate 504d downwards and cannot be screwed in, otherwise, the pushing action is substantially disabled; thirdly, when in the vertical wall panel 11, since the pushed plate 504d is turned over up and down, the rotation direction of the thread is changed, so that the wall panel screw 104 can be screwed into the threaded installation, which is very ingenious.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various modifications can be made within the knowledge of those skilled in the art without departing from the gist of the present invention. These are non-inventive modifications, which are intended to be protected by patent laws within the scope of the claims appended hereto.