阅读说明：本技术 一种蜂窝板的吊顶安装结构 (Suspended ceiling mounting structure of honeycomb panel ) 是由 丁泽成 王文广 周东珊 王聪聪 余广 于 2021-08-09 设计创作，主要内容包括：本发明公开了一种蜂窝板的吊顶安装结构,包括吊顶、第一蜂窝板、第二蜂窝板、第一连接板和第二连接板。主卡块卡入定位槽的过程会撑开定位槽的内壁,由于上述高度差,可以避免主卡块和下定位板接触第一蜂窝板和第二蜂窝板的顶面,一方面防止造成第一蜂窝板和第二蜂窝板的损伤,另一方面避免改变第一蜂窝板和第二蜂窝板的固有结构。通过主卡块和定位槽的卡接效果,确保了第一蜂窝板和第二蜂窝板之间的连接状态,提升了第一蜂窝板和第二蜂窝板之间的连接强度,避免其相互之间产生相对晃动,有效消除后期安全隐患。(The invention discloses a suspended ceiling mounting structure of a honeycomb plate, which comprises a suspended ceiling, a first honeycomb plate, a second honeycomb plate, a first connecting plate and a second connecting plate. The process that the constant head tank was gone into to the master fixture block card can strut the inner wall of constant head tank, because above-mentioned difference in height, can avoid the top surface of master fixture block and the first honeycomb panel of lower locating plate contact and second honeycomb panel, prevents to cause the damage of first honeycomb panel and second honeycomb panel on the one hand, and on the other hand avoids changing the inherent structure of first honeycomb panel and second honeycomb panel. Through the joint effect of main fixture block and constant head tank, ensured the connection status between first honeycomb panel and the second honeycomb panel, promoted the joint strength between first honeycomb panel and the second honeycomb panel, avoided it to produce each other and rock relatively, effectively eliminated later stage potential safety hazard.)

1. A suspended ceiling mounting structure of a honeycomb plate is characterized by comprising a suspended ceiling, a first honeycomb plate, a second honeycomb plate, a first connecting plate and a second connecting plate, wherein the right side edge of the first honeycomb plate is attached to the left side edge of the second honeycomb plate, the first connecting plate is attached and fixed to the top surface of the first honeycomb plate, the right side edge of the first connecting plate extends upwards to form a first limiting plate, the second connecting plate is attached and fixed to the top surface of the second honeycomb plate, the left side edge of the second connecting plate extends upwards to form a second limiting plate, a main clamping block is arranged on the right side surface of the first limiting plate, an upper positioning plate and a lower positioning plate are arranged on the left side surface of the second limiting plate, the suspended ceiling is welded and fixed to the top surface of the upper positioning plate, a gap is reserved between the upper positioning plate and the lower positioning plate, so that the left side surfaces of the upper positioning plate, the second limiting plate and the lower positioning plate are enclosed to form a positioning groove, the main clamping block is clamped in the positioning groove and attached to the left side surface of the second limiting plate, the edge of the lower positioning plate is attached to the right side face of the first limiting plate.

2. The ceiling mounting structure of a honeycomb panel according to claim 1, wherein the left side surface of the second limiting plate is further provided with an auxiliary positioning plate, the auxiliary positioning plate is located below the lower positioning plate and has a gap with the lower positioning plate, so that the left side surfaces of the auxiliary positioning plate, the lower positioning plate and the second limiting plate are enclosed to form an auxiliary positioning groove, the right side surface of the first limiting plate is further provided with an auxiliary clamping block, the auxiliary clamping block is located below the main clamping block, the lower positioning plate is clamped between the main clamping block and the auxiliary clamping block, and the auxiliary clamping block is clamped into the auxiliary positioning groove.

3. The ceiling mounting structure of a cellular board according to claim 2, wherein the auxiliary block is attached to a left side surface of the second restriction plate.

4. The ceiling mounting structure for a cellular board according to claim 3, wherein the main fixture block is located at the top of the first limiting plate, the upper positioning plate is located at the edge of the top of the second limiting plate, the lower positioning plate and the auxiliary positioning plate are attached to the right side of the first limiting plate, and the top of the first limiting plate is located below the upper positioning plate.

5. The ceiling mounting structure of a cellular board as claimed in claim 2, wherein a first hollow cavity is provided between the main fixture block and the auxiliary fixture block.

6. The ceiling mounting structure of cellular board according to claim 5, wherein a second hollow cavity is provided in the middle of the ceiling.

7. The ceiling mounting structure of a honeycomb panel according to claim 2, wherein the upper positioning plate, the lower positioning plate and the auxiliary positioning plate are all horizontally arranged, the first limiting plate and the second limiting plate are both vertically arranged, and the main fixture block and the auxiliary fixture block are both cuboids and are all horizontally arranged.

8. The ceiling mounting structure of cellular board of claim 1, wherein the first connection plate is located at a right side edge of the first cellular board and/or the second connection plate is located at a left side edge of the second cellular board.

9. The ceiling mounting structure of a cellular board according to claim 1, wherein the bottom of the first limiting plate is bent to the left side to form a first arc-shaped plate, and the bottom of the second limiting plate is bent to the right side to form a second arc-shaped plate.

10. A ceiling mounting structure for cellular boards, according to claim 1, wherein the ceiling is positioned directly above the joint between the first and second cellular boards.

Technical Field

The invention relates to a ceiling mounting structure of a honeycomb panel, and belongs to the field of ceiling mounting.

Background

At traditional fast-assembling field, a furred ceiling is installed respectively to each honeycomb panel top surface, and then hoists each honeycomb panel respectively, then draws close the honeycomb panel of difference together, so do not have the relation of connection between the adjacent honeycomb panel, produce relative rocking each other very easily, not only the installation is hardly aimed at, and the later stage still produces potential safety hazard easily moreover.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide a suspended ceiling mounting structure of a honeycomb panel.

The technical scheme adopted by the invention is as follows:

a suspended ceiling mounting structure of a honeycomb plate comprises a suspended ceiling, a first honeycomb plate, a second honeycomb plate, a first connecting plate and a second connecting plate, wherein the right side edge of the first honeycomb plate is attached to the left side edge of the second honeycomb plate, the first connecting plate is attached and fixed to the top surface of the first honeycomb plate, the right side edge of the first connecting plate extends upwards to form a first limiting plate, the second connecting plate is attached and fixed to the top surface of the second honeycomb plate, the left side edge of the second connecting plate extends upwards to form a second limiting plate, a main fixture block is arranged on the right side surface of the first limiting plate, an upper positioning plate and a lower positioning plate are arranged on the left side surface of the second limiting plate, the suspended ceiling is welded and fixed to the top surface of the upper positioning plate, a gap is reserved between the upper positioning plate and the lower positioning plate, so that the left side surfaces of the upper positioning plate and the second limiting plate and the lower positioning plate surround to form a positioning groove, and the main fixture block is clamped in the positioning groove and attached to the left side surface of the second limiting plate, the edge of the lower positioning plate is attached to the right side face of the first limiting plate.

The invention has the beneficial effects that:

the first limiting plate is used as a support for installing the main clamping block on the first connecting plate, so that the height difference between the main clamping block and the first connecting plate is formed. In a similar way, the second limiting plate enables the upper positioning plate and the lower positioning plate to be simultaneously pulled away from the second connecting plate by the height difference. The process that the constant head tank was gone into to the master fixture block card can strut the inner wall of constant head tank, because above-mentioned difference in height, can avoid the top surface of master fixture block and the first honeycomb panel of lower locating plate contact and second honeycomb panel, prevents to cause the damage of first honeycomb panel and second honeycomb panel on the one hand, and on the other hand avoids changing the inherent structure of first honeycomb panel and second honeycomb panel. Through the joint effect of main fixture block and constant head tank, ensured the connection status between first honeycomb panel and the second honeycomb panel, promoted the joint strength between first honeycomb panel and the second honeycomb panel, avoided it to produce each other and rock relatively, effectively eliminated later stage potential safety hazard. The lower locating plate edge is through the first limiting plate of laminating to control main fixture block final position in the constant head tank, make main fixture block and constant head tank inner wall deformation degree moderate, ensure the effect of holding tightly of constant head tank inner wall to main fixture block, avoid constant head tank deformation degree too big simultaneously, lead to the fracture of locating plate and lower locating plate on the second limiting plate.

The left side surface of the second limiting plate is further provided with an auxiliary locating plate, the auxiliary locating plate is located below the lower locating plate, a gap is reserved between the auxiliary locating plate and the lower locating plate, so that the left side surfaces of the auxiliary locating plate, the lower locating plate and the second limiting plate are enclosed to form an auxiliary locating groove, the right side surface of the first limiting plate is further provided with an auxiliary clamping block, the auxiliary clamping block is located below the main clamping block, the lower locating plate is clamped between the main clamping block and the auxiliary clamping block, and the auxiliary clamping block is clamped into the auxiliary locating groove.

The auxiliary clamping block is attached to the left side face of the second limiting plate.

The main fixture block is positioned at the top of the first limiting plate, the upper positioning plate is positioned at the edge of the top of the second limiting plate, the edges of the lower positioning plate and the auxiliary positioning plate are attached to the right side surface of the first limiting plate, and the top of the first limiting plate is positioned below the upper positioning plate.

The first hollow cavities are arranged between the main clamping block and the auxiliary clamping block.

A second hollow cavity is arranged in the middle of the suspended ceiling.

The upper positioning plate, the lower positioning plate and the auxiliary positioning plate are all horizontally arranged, the first limiting plate and the second limiting plate are both vertically arranged, and the main clamping block and the auxiliary clamping block are both cuboids and are all horizontally arranged.

According to the invention, the first connecting plate is positioned at the right side edge of the first honeycomb plate, and/or the second connecting plate is positioned at the left side edge of the second honeycomb plate.

The bottom of the first limiting plate is bent towards the left side to form a first arc-shaped plate, and the bottom of the second limiting plate is bent towards the right side to form a second arc-shaped plate.

The suspended ceiling is positioned right above the joint of the first cellular board and the second cellular board.

Other features and advantages of the present invention will be disclosed in more detail in the following detailed description of the invention and the accompanying drawings.

Drawings

The invention is further described below with reference to the accompanying drawings:

fig. 1 is a schematic perspective view of a first connecting plate according to an embodiment of the invention;

fig. 2 is a schematic front view of a first connecting plate according to an embodiment of the present invention;

FIG. 3 is a schematic perspective view of a second connecting plate according to an embodiment of the present invention;

fig. 4 is a schematic front view of a second connecting plate according to an embodiment of the present invention.

Detailed Description

The technical solutions of the embodiments of the present invention are explained and illustrated below with reference to the drawings of the embodiments of the present invention, but the following embodiments are only preferred embodiments of the present invention, and not all embodiments. Based on the embodiments in the implementation, other embodiments obtained by those skilled in the art without any creative effort belong to the protection scope of the present invention.

In the following description, the appearances of the indicating orientation or positional relationship such as the terms "inner", "outer", "upper", "lower", "left", "right", etc. are only for convenience in describing the embodiments and for simplicity in description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and are not to be construed as limiting the present invention.

Example (b):

referring to fig. 1 to 4, the present embodiment provides a ceiling mounting structure of a cellular board, which includes a ceiling 1, a first cellular board (not shown), a second cellular board (not shown), a first connection plate 2, and a second connection plate 3.

The first cellular board and the second cellular board are both horizontally arranged, and the first cellular board is positioned on the left side of the second cellular board. The first connecting plate 2 is attached to and fixed on the top surface of the first honeycomb plate, the right side edge of the first connecting plate 2 extends upwards to form a first limiting plate 4, and a main fixture block 41 is arranged on the right side surface of the first limiting plate 4. The second connecting plate 3 is attached to and fixed on the top surface of the second honeycomb plate, the left side edge of the second connecting plate 3 extends upwards to form a second limiting plate 5, an upper positioning plate 51 and a lower positioning plate 52 are arranged on the left side surface of the second limiting plate 5, the upper positioning plate 51 is positioned above the lower positioning plate 52, and a gap is reserved between the upper positioning plate 51 and the lower positioning plate 52, so that the left side surfaces of the upper positioning plate 51 and the second limiting plate 5 and the lower positioning plate 52 are enclosed to form a positioning groove 54.

First honeycomb panel and second honeycomb panel draw close each other on left right direction, so that main fixture block 41 joint is in constant head tank 54, paste on the left surface of second limiting plate 5 until main fixture block 41, the right side edge of first honeycomb panel and the left side edge laminating of second honeycomb panel this moment, 52 edges of locating plate are pasted on the right flank of first limiting plate 4 down simultaneously, in order to ensure the joint effect of main fixture block 41 in constant head tank 54, reduce the gap between main fixture block 41 and the constant head tank 54 inner wall, connection status between first honeycomb panel and the second honeycomb panel has been ensured, the joint strength between first honeycomb panel and the second honeycomb panel has been promoted, avoid it to produce relative rocking each other, effectively eliminate later stage potential safety hazard. The edge of the lower positioning plate 52 is attached to the right side surface of the first limiting plate 4, the main fixture block 41 is attached to the left side surface of the second limiting plate 5, the clamping depth of the main fixture block 41 in the positioning groove 54 is limited, and the phenomenon that the deformation degree of the positioning groove 54 is too large, so that the upper positioning plate 51 and the lower positioning plate 52 are broken on the second limiting plate 5 is avoided.

The suspended ceiling 1 is welded and fixed on the top surface of the upper positioning plate 51, and the main fixture block 41 can be clamped and hung through the suspended ceiling 1. In order to avoid the hindrance to 1 hoist and mount process of furred ceiling, main fixture block 41 is located the top edge of first limiting plate 4, and upward locating plate 51 is located the top edge of second limiting plate 5, and consequently 41 joints of main fixture block are accomplished the back, and furred ceiling 1 is located the top of first limiting plate 4 and second limiting plate 5 simultaneously, and first limiting plate 4 and second limiting plate 5 can not produce the interference to 1 hoist and mount of furred ceiling in the horizontal direction.

For the hoist and mount stability of promotion furred ceiling 1, furred ceiling 1 is located first honeycomb panel and second honeycomb panel seam crossing directly over to make main fixture block 41 atress more balanced in constant head tank 54 at hoist and mount in-process, avoid main fixture block 41 to deviate from constant head tank 54, reinforcing hoist and mount process's security.

The main fixture block 41 is pulled open the difference in height between through first limiting plate 4 and first connecting plate 2, go up locating plate 51 and lower locating plate 52 and pull open the difference in height through second limiting plate 5 and second connecting plate 3, the process that the constant head tank 54 was gone into to main fixture block 41 card can strut the inner wall of constant head tank 54, because above-mentioned difference in height, can avoid the top surface of main fixture block 41 and lower locating plate 52 contact first honeycomb panel and second honeycomb panel, prevent to cause the damage of first honeycomb panel and second honeycomb panel, and avoid changing the current inherent structure of first honeycomb panel and second honeycomb panel, and the cost is reduced.

Preferably, the left side surface of the second limiting plate 5 is further provided with an auxiliary positioning plate 53, and the auxiliary positioning plate 53 is located below the lower positioning plate 52 and has a gap with the lower positioning plate 52, so that the auxiliary positioning plate 53, the lower positioning plate 52 and the left side surface of the second limiting plate 5 are enclosed to form an auxiliary positioning groove 55. Correspondingly, the right side surface of the first limit plate 4 is further provided with an auxiliary latch 42, and the auxiliary latch 42 is located below the main latch 41. Therefore, the lower positioning plate 52 is clamped between the main latch 41 and the auxiliary latch 42 during the process of the main latch 41 being clamped into the positioning groove 54, and the auxiliary latch 42 is clamped into the auxiliary positioning groove 55, so as to enhance the connection strength between the first cellular board and the second cellular board. Similarly, the auxiliary blocks 42 and the auxiliary positioning plate 53 do not affect the hoisting process of the suspended ceiling 1.

Similarly, the auxiliary block 42 is attached to the left side of the second position-limiting plate 5, and the edge of the auxiliary positioning plate 53 is attached to the right side of the first position-limiting plate 4, so that the gap between the auxiliary block 42 and the inner wall of the auxiliary positioning groove 55 is reduced, and the deformation degree of the auxiliary block 42 and the auxiliary positioning plate 53 is limited, thereby preventing the auxiliary positioning plate 53 from being broken from the second position-limiting plate 5.

The edge of the lower positioning plate 52 and the edge of the auxiliary positioning plate 53 are attached to the right side face of the first limiting plate 4 at the same time, so that the production precision requirement is high, and under the condition, the top of the first limiting plate 4 is located below the upper positioning plate 51, so that the top of the upper positioning plate 51 and the top of the first limiting plate 4 are prevented from contacting, and the first limiting plate 4 is prevented from blocking the horizontal movement of the lower positioning plate 52 and the auxiliary positioning plate 53.

Preferably, the first hollow cavities 6 are disposed between the main latch 41 and the auxiliary latch 42 to enhance the deformation capability of the main latch 41 and the auxiliary latch 42, so as to ensure that the main latch 41 and the auxiliary latch 42 can be simultaneously latched into the positioning groove 54 and the auxiliary positioning groove 55, respectively.

Furred ceiling 1 can strengthen locating plate 51's intensity, for the joint that prevents too big difficult deformation influence main fixture block 41 of locating plate 51 intensity, cavity 7 in consequently furred ceiling 1's the centre is provided with the second.

Locating plate 51, lower locating plate 52 and the equal level setting of supplementary locating plate 53 on this embodiment, the equal vertical setting of first limiting plate 4 and second limiting plate 5, main fixture block 41 and supplementary fixture block 42 are cuboid and equal level setting, therefore main fixture block 41 matches respectively in constant head tank 54 and supplementary constant head tank 55 with supplementary fixture block 42's shape to furthest reduces between main fixture block 41 and the constant head tank 54, and the gap between supplementary fixture block 42 and the supplementary constant head tank 55.

Preferably, the first connecting plate 2 is located at the right edge of the first cellular board, and the second connecting plate 3 is located at the left edge of the second cellular board, so as to reduce the width of the main fixture block 41, the auxiliary fixture block 42, the upper positioning plate 51, the lower positioning plate 52 and the auxiliary positioning plate 53, prevent the positioning groove 54 and the auxiliary positioning groove 55 from being too large, and ensure that the main fixture block 41 and the auxiliary fixture block 42 can be smoothly clamped.

In the clamping process, the inner walls of the main clamping block 41 and the positioning groove 54 and the inner walls of the auxiliary clamping block 42 and the auxiliary positioning groove 55 act as friction resistance, so that the first limiting plate 4 is bent leftwards and deformed, and the second limiting plate 5 is bent rightwards and deformed, which may affect the clamping effect of the main clamping block 41 and the auxiliary clamping block 42. So the bottom of the first limiting plate 4 of this embodiment is towards left side bending type first arc 43, and the bottom of the second limiting plate 5 is towards right side bending type second arc 56, then restrain the deformation of first limiting plate 4 and second limiting plate 5 on first connecting plate 2 and second connecting plate 3, strengthen the vertical state stability of first limiting plate 4 and second limiting plate 5 to be favorable to the joint of main fixture block 41 and supplementary fixture block 42.

While the invention has been described with reference to specific embodiments thereof, it will be understood by those skilled in the art that the invention is not limited thereto, and may be embodied in many different forms without departing from the spirit and scope of the invention as set forth in the following claims. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.