CN106639262B - Roof panel joint processing device and method - Google Patents

Abstract

The ceiling plate piece joint processing device comprises a pressing strip (1) used for abutting against a top plate (3) and a hook (2) used for connecting the pressing strip (1) and clamping the top plate (3) in a piece joint mode, wherein a hook groove (11) is formed in the pressing strip (1) of a long strip-shaped structure and connected with a hook (21) in the hook (2), a connecting body (22) used for connecting the hook (21) is arranged at the end part of the hook (21), and an adjusting groove (23) used for adjusting the position of the top plate (3) is formed between the connecting body (22) and the hook (21); the adjustable detachable type positioning device has the advantages of simple structure, easiness in popularization, accurate and compact positioning, high stability, small occupied space, convenience in production and manufacturing, adjustability and detachability in installation.

Description

Roof panel joint processing device and method

Technical Field

The application relates to the field of architectural decoration, in particular to a ceiling top board splicing seam processing device and a method thereof, which are used for installing ceiling boards.

Background

Common forms of building top surface decoration are light steel keel gypsum board suspended ceilings, metal plate suspended ceilings, integrated suspended ceilings and the like. Different furred ceilings, the treatment methods of its top surface plate piece are all different, and traditional gypsum board furred ceiling plate piece carries out the post processing through puttying mode, and the piece of metal sheet furred ceiling and integrated furred ceiling then is the smooth circle processing through self corner and makes the piece neat, careful, perhaps blocks into the caulking strip and beautifies.

However, metal plate suspended ceilings and integrated suspended ceilings are mostly used in areas such as tools, home-decoration toilets and kitchens, and if the suspended ceilings are popularized to other areas of the home-decoration, higher requirements on the number and quality of abutted seams are bound to be met.

The form of the modularized ceiling material for home decoration in the current market mainly takes a strip shape as a main part, various light and thin plates suitable for the ceiling are produced through a composite technology, and through modularized assembling construction, the number of top surface joints is reduced, and the overall attractiveness is increased. However, since the long lath is stressed in a single-panel mode, the plates are easy to deform along the long edge direction, and the deformation of the adjacent plates is different, so that the height difference exists between the plates, and in daily life, the splicing seams are easily uneven under the action of light, so that the attractiveness of the suspended ceiling is damaged.

In the prior art, for example, the metal plate suspended ceiling anti-drop adaptor-CN 201420567076.8 of the chinese patent [ utility model ], the suspended ceiling metal panel and the suspended ceiling main keel are effectively and fixedly connected, so that various damages to the suspended ceiling of a large space or an open building can be effectively avoided due to wind vibration, and the suspended ceiling has the advantages of simple structure, reasonable design, strong universality, easy processing, convenient installation, strong deformation resistance of the metal plate suspended ceiling anti-drop adaptor and the metal plate suspended ceiling and good use effect.

However, the installation is carried out by adopting a mode of directly fixing the hoisting structure and the top plate block, the occupied space is large, the position of a gap is difficult to control in use, and the layers are still uneven.

In view of this, how to design a ceiling panel piece processing device, which overcomes the above-mentioned defects in the prior art, is a technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

The application aims to overcome the technical problems in the prior art and provides a ceiling plate piece joint processing device.

The utility model provides a purpose is accomplished through following technical scheme, a furred ceiling plate piece seam processing apparatus, including the layering and the connection layering that are used for contradicting the roof and carry out the tight couple of piece seam clamp to the roof, be equipped with the hook groove on the layering of rectangular shape structure and be connected with the hook in the couple, be equipped with the connector of connecting the hook on the tip of hook, be equipped with the adjustment tank of adjusting the roof position between connector and the hook.

The top end of the hook is detachably buckled in the hook groove.

The hook centre gripping is in the roof, and the connector of hook lower part is established under the roof, and the layering of hook upper portion joint is established on the roof.

A bolt for adjusting the top plate is arranged in the adjusting groove between the connecting body and the top plate.

The bolt is a right triangle structure, a right-angle side of the bolt is in contact with the surface of the top plate, and a bevel side of the bolt is in contact positioning with the connecting body.

And the two sides of the contact surface of the pressing strip and the top plate are adhered with glue.

The hooks are E-shaped structures, the lower parts of the hooks are fixedly connected with the connecting body, and adjusting grooves are formed between the adjacent hooks.

The hook includes middle convex arch, and bellied upper portion is equipped with the bayonet socket of joint layering, and protruding lower part is equipped with the interface that is used for holding the bolt.

The length of the hook L2 is less than the length of the hook slot L1.

Compared with the prior art, the application has the following obvious advantages and effects:

1. simple structure, easy popularization, accurate and compact positioning and high stability.

2. The occupied space is small, the production and the manufacture are convenient, and the installation is adjustable and detachable.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a perspective view of a molding in the present application.

Fig. 2 is an enlarged schematic view of the molding in the present application.

Fig. 3 is a perspective view of the hook of the present application.

Fig. 4 is an enlarged schematic view of the hanger of the present application.

Fig. 5 is a connection diagram of the pressing strip and the hook in the application.

Fig. 6 is a schematic view showing a state after a top plate is installed in the present application.

FIG. 7 is a schematic diagram illustrating adjustment of the abutted seam after two top plates are installed.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1 to 5, the top plate seam processing device described in the present application is used for assisting alignment and installation of a top plate 3 when the top plate of a suspended ceiling in the field of building decoration is installed, and the top plate seam processing device includes a pressing strip 1 for abutting against the top plate 3 and a hook 2 for connecting the pressing strip 1 and clamping the top plate 3 in a seam manner. As shown in fig. 1 and 2, the pressing strip 1 is a long strip structure, hook grooves 11 are equally spaced along a long side direction of the pressing strip, the hook grooves 11 are rectangular long holes, and each hook groove 11 has the same length (marked as L1 in fig. 2) and is used for mounting the hook 2 on the pressing strip 1. In this embodiment, the material of the pressing strip 1 is aluminum alloy. The hook grooves 11 are located on the central axis of the bead 1 in the longitudinal direction.

As shown in fig. 3, is a schematic structural view of the hook 2. The hook 2 comprises a connecting body 22 and a plurality of hooks 21 extending from the connecting body 22, wherein the hooks 21 are respectively perpendicular to the connecting body 22; this couple 2 is detachable and reuse's multi-functional couple, and its thickness can be customized and select according to the piece size between the roof 3. The connecting body 22 has a long bar shape, the hooks 21 are arranged on it at equal intervals, and the width of the hooks 21 is the same as the width of the connecting body 22 when viewed from the length direction of the hooks 2.

Fig. 4 is an enlarged schematic view of the hook 2. As shown, the hanger 2 includes a connecting body 22 and a plurality of hooks 21 extending from the connecting body 22. The hook 21 has an F-shaped structure and includes a bayonet 212, a protrusion 211 and a socket 213, wherein the protrusion 211 is a middle protruding portion located between the bayonet 212 and the socket 213 for separating the two. The interface 213 is located at the lower part of the protrusion 211, which connects the connector 22 with the hook 21, and the bayonet 212 is located at the upper part of the protrusion 211, which is used for clamping the hook groove 11 of the compression moulding 1. In this embodiment, the bayonet 212 and the interface 213 are two lateral grooves. Further, an adjusting groove 23 is formed between each two adjacent hooks 21 and the connecting body 22, and the adjusting groove 23 is used for adjusting the position of the top plate 3.

Preferably, in actual practice, the plug 4 may be placed in advance at the interface 213 as shown in fig. 4 for convenience. Referring to fig. 6, the shape of the latch 4 is shown, in one embodiment, the latch 4 has a triangular structure, and preferably, in another embodiment, the latch 4 has a right-angled triangular structure, wherein one angle is a right angle.

In one embodiment of the present invention, the height H1 of the hook 21 is less than or equal to the vertical right-angle side of the latch 4, so as to avoid the latch 4 from being clamped in the height range of the hook 21 and being inconvenient to hold.

Fig. 5 is a schematic view of the assembly of the bead 1 and the hook 2. This figure is a view from below looking up at the viewing angle. As can be seen from the figure, the hook groove 11 of the bead 1 is connected with the hook 21 of the hook 2. Preferably, after the hook 21 of the hook 2 is inserted into the hook slot 11 of the bead 1, the hook 2 and the bead 1 are moved relative to each other in a horizontal direction so that the bead 1 is just snapped at the bayonet 212 and the hook above the bayonet 212 catches the bead 1. The hook 21 is inserted into the hook groove 11, and the end of the hook 21 is mechanically blocked by the end of the hook groove 11, so that a detachable clamping mode is realized. In fig. 5, the bayonet 212 and the end of the hook 21 are blocked by the bead 1. It should be noted that, the length (labeled as L2 in fig. 4) of each hook 21 is smaller than the length (labeled as L1 in fig. 2) of the hook slot 11, so that the hook slot 11 is prevented from being too small to mount the hooks 21, thereby facilitating the mounting and fixing of the hooks. Also, the height of each hook 21 (labeled as H1 in fig. 4) is greater than the height of the connector 22 (labeled as H2 in fig. 4), and the numerical relationship between the height H1 of the hook 21 and the height H2 of the connector 22 is: H1-3H 2 ensures that the connector 22 can provide stable support strength for the hook 21. In this way, a temporary assembly is formed between the bead 1 and the hook 2, and does not fall off, i.e., the assembled state as shown in fig. 5. In the combination, the hook groove 11 of the pressing strip 1 is located on the central axis of the pressing strip 1 along the long side direction, and the hook 2 is clamped with the hook groove 11, so that the pressing strip 1 is arranged in bilateral symmetry relative to the hook 2. The design has the advantages of simple structure, easy processing and lower manufacturing cost.

Fig. 6 is a schematic view illustrating a process of splicing the ceiling panel 3 of the suspended ceiling by using the temporary assembly shown in fig. 5. On the basis of the temporary combination of the pressing strip 1 and the hook 2 shown in fig. 5, a sizing material 5 is pasted and shaped on one surface of the pressing strip 1 facing the connecting body 22 of the hook 2, the sizing material 5 is a double-sided adhesive, one surface of the sizing material 5 is pasted on the pressing strip 1, and the other surface is coated with the oiled paper. The hook groove 11 of the molding 1 is then engaged with the bayonet 212 of the hook 21, so that the molding 1 is connected with the hook 2 to form a temporary assembly. Then, uniformly clamping a plurality of triangular bolts 4 into the adjusting grooves 23 respectively; then, a top plate 3 to be patched is respectively placed on both sides of the long side direction of the hook 2 as a symmetry axis between the pressing strip 1 and the connector 22 of the hook 2. Fig. 6 is a schematic view of the effect of fig. 5 when the top plate 3 is placed on one side of the hook 2 and another top plate 3 is not placed on the other side.

As shown in fig. 7, the effect of the hook 2 is schematically shown from bottom to top after the top plate 3 is placed on each side. In fig. 7, the top plate 3 covers the upper half of the hook 2, and only the lower half of the connecting body 22 and the latch 4 located in the adjustment groove 23 of the connecting body 22 are exposed. In an embodiment of the present disclosure, the width D1 of the pressing strip 1 is greater than the gap between adjacent top plates 3, so as to prevent the pressing strip 1 from falling off from the gap between the top plates 3.

At this time, after the top plate 3 is placed, the sizing material 5 shaped on the press strip 1 of the aluminum alloy is subjected to surface oiling and tearing.

Then, the bolt 4 is slid in the adjusting groove 23 back and forth, left and right to adjust the height of the top plate 3, so that the top plate 3 has uniform seams. Wherein, the height H1 of the hook 21 is less than or equal to the vertical right-angle side of the bolt 4, so as to avoid the bolt 4 from being clamped in the height range of the hook 21. The height is designed so that the latch 4 can slide back and forth and left and right in the adjustment groove 23 of the hook 2. Meanwhile, since the latch 4 has a triangular structure, one end is a pointed end, and the other end is a tail end with a certain height, the sliding of the latch 4 in the direction perpendicular to the connecting body 22 will drive the top plate 3 to move along the direction of the hook 21. That is, the height H1 of the hook 21 provides a sliding region for the latch 4, so that the latch 4 can slide within a height range defined by the height of the hook 21 and the thickness of the top plate 3 and the molding 1. When the tail end of the bolt 4 is close to the hook 2, the top plate 3 can be lifted to be tightly attached to the pressing strip 1. Meanwhile, the bolt 4 slides forwards, backwards, leftwards and rightwards in the adjusting groove 23, so that all parts of the top plate 3 are tightly attached to the pressing strip 1. In this way, the bead 1 does not move upward in the vertical direction of the hook 21 because it is already pressed against the top end of the hook 2. Thus, the top plate 3 is pushed upwards by the pin 4, and the top plate 3 is bound to the bead 1. The vertical height difference of the top plate 3 can be adjusted by sliding the pin 4. Through the mode, the top plate 3 is adjusted and installed in place, and at the moment, as the oiled paper of the glue 5 is torn off, the top plate 3 and the pressing strip 1 are tightly attached together through the glue 5 under the action of the bolt 4. In the embodiment of the application, bolt 4 is the right triangle structure, can make the laminating of bolt 4 and roof 3's bottom surface, and the bolt 4 of being convenient for carries out lateral sliding, and this simple structure, the preparation of being convenient for.

After the time required for the adhesion of the shaped glue 5 is satisfied, the hook 21 of the hook 2 is clamped and moved in the longitudinal direction with respect to the hook groove 11 of the bead 1, and the pressure of the tip of the hook 21 against the bead 1 is removed. The latch 4 caught at the adjustment groove 23 of the top plate 3 and the hook 2 is then pushed downward so that the hook 2 generates a downward pulling force. The hook 2 is disengaged from the hook groove 11 of the bead 1 of aluminum alloy until the hook 2 is completely removed. Finally the pin 4 is removed. At the moment, the top plate 3 and the pressing strip 1 are fixed and spliced together by virtue of the bonding effect of the rubber 5, the splicing seam of the top plate 3 is uniform, and finally the adjustment and the fixation of the splicing seam of the top plate 3 are finished.

Further, the top plate 3 can be slightly pulled downwards by hands or a bolt 4, the sizing material 6 shaped on the pressing strip 1 is subjected to pressure test, so that the adhesive force with better effect is generated, and the height difference of the top plate 3 is adjusted.

In the technical scheme, the sizing material 5 adopts sizing glue, common double-sided glue and the like, and only needs to generate ideal bonding force.

Through above step, can make 3 modularization furred ceilings of polylith roof, realize roof 3 wholeization, strengthen the stability between roof 3 simultaneously, guarantee neat, even and pleasing to the eye of piece.

The top plate seam processing device has the advantages of simple structure, easy popularization, accurate and compact positioning, high stability, small occupied space, convenient production and manufacture, and adjustable and detachable installation.

In the embodiment of the application, the hook 2 can be detached, and the top plate 3 can be uniformly installed in a splicing mode. Through 2 centre gripping of couple between roof 3, and then realize the setting in roof 3 clearance, this kind of setting is comparatively accurate.

The interface 213 of the hook 2 is matched with the triangular bolt 4 for use, and is mainly used for lifting the whole temporary assembly upwards so as to be convenient for adjusting the abutted seam between the top plates 3; treat roof 3 and adjust the back, remove the position of bolt 4, with interim subassembly whereabouts, bond roof 3, reuse bolt 4 fastens simultaneously, and produce fastening force between the layering 1 at roof 3 back, make 5 adhesive force play a role in sizing material, adjust the difference in height between the roof 3, and then realize the accurate regulation of roof 3 vertical and transverse position, make the gap between roof 3 the same, realize compactness and aesthetic property between the structure.

The hooks 21 are fixedly arranged on the long-strip-shaped connecting body 22 at equal intervals, and the hooks 21 are fixedly mounted on the connecting body 22 uniformly. An adjusting groove 23 is arranged between the connecting body 22 and the top plate 3, and the adjusting groove 23 is formed by adjacent hooks 21 at intervals. The adjustability is achieved by filling the adjustment groove 23 with a triangular plug. The hook groove 11 on the pressing strip 1 is clamped with the hook 21 in the hook 2, so that a detachable connection mode is realized, and a combined connection structure is formed conveniently.

The top plate 3 is clamped between the pressing strip 1 and the hook 2, and the adjustable installation of the upper position and the lower position of the top plate 3 and the transverse gap is realized by utilizing the adjusting groove 23 below the hook 2 and the connecting body 22 for supporting the adjusting groove 23.

The vertical structure of the hook 21 is fully utilized, and the plate-shaped structure in the vertical direction of the hook 21 is utilized to realize the arrangement of the gap of the top plate 3 through the thickness of the plate. The gap between adjacent top plates 3 corresponds to the thickness of the hook 21, i.e., the gap between the top plates 3 can be adjusted by the hook 21.

The lower part of the hook 21 is arranged below the top plate 3, the upper part of the hook 21 is clamped on the top plate 3, namely, the hook 21 clamps the top plate 3 downwards, the lower part of the hook 21 is supported and fixedly installed by using the strip-shaped connecting body 22, wherein the hook 21 hooks the edge of the top plate 3 downwards and is supported by being pushed upwards through the bolt 4 of the connecting body 22.

A right-angle edge of the bolt 4 is contacted with the surface of the top plate 3, and a bevel edge of the bolt 4 is contacted with the connecting body 22 for positioning. The right-angle edge is used for transverse sliding, so that the clamping position between the sliding adjusting pressing strip 1 and the hook 2 is convenient to adjust. The oblique edge of the bolt 4 is used for abutting and positioning the connecting body 22, and the clamping or opening position between the pressing strip 1 and the hook 2 is adjusted through the oblique edge.

In the embodiment of the application, two sides of the contact surface of the pressing strip 1 and the top plate 3 are adhered with glue 5. The contact surface of the top plate 3 is adhered by glue 5. Wherein, the sizing material 5 adopts sizing glue to realize the positioning and fixing of the position of the top plate 3.

In the embodiment of the present application, the hook 21 has an F-shaped structure, which is easy to form and can form two grooves, one above the other. The clamping positioning between the hook 21 and the hook groove 11 can be realized through the groove at the upper part. The installation and positioning of the bolt 4 can be realized through the groove at the lower part. The lower parts of the hooks 21 are fixedly connected with the connecting body 22, so that the hooks 21 are simultaneously arranged on the connecting body 22, and the fixed clamping of multiple positions on the edge of the top plate 3 is realized. An adjusting groove 23 is formed between the adjacent hooks 21, and the hooks 21 are clamped, positioned and installed on the edge of the top plate 3 through the adjusting groove 23.

Through above mode, can progressively realize the installation of polylith roof 3 of whole furred ceiling.

The above description is only an example of the present application, and the names of the components in the present application may be different, and the present application is not limited to the names. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (8)

1. The utility model provides a roof piece processing apparatus which characterized in that: the clamping device comprises a pressing strip (1) used for abutting against a top plate (3) and a hook (2) which is connected with the pressing strip (1) and used for performing seam clamping on the top plate (3), wherein a hook groove (11) is formed in the pressing strip (1) in a long strip-shaped structure, the hook (2) comprises a connector (22) and a hook (21) which extends out of the connector (22) and is perpendicular to the connector (22), and the hook groove (11) of the pressing strip (1) is detachably connected with the hook (21);

the hook (21) is in an F-shaped structure and comprises a bayonet (212), a protrusion (211) and an interface (213), the protrusion (211) is a middle convex part and is positioned between the bayonet (212) and the interface (213), the interface (213) is positioned at the lower part of the protrusion (211) and is connected with the connecting body (22) and the hook (21), and the bayonet (212) is positioned at the upper part of the protrusion (211) and is used for clamping a hook groove (11) of the pressing strip;

every two adjacent hooks (21) and the connecting body (22) form an adjusting groove (23); a top plate (3) is arranged between the pressing strip (1) and the connecting body (22); a bolt (4) for adjusting the top plate (3) is arranged in an adjusting groove (23) between the connecting body (22) and the top plate (3); the bolt (4) is of a right-angled triangle structure, a right-angled edge of the bolt (4) is in surface contact with the top plate (3), and a bevel edge of the bolt (4) is in contact positioning with the connecting body (22).

2. The top panel patchwork processing device according to claim 1, wherein: the connecting body (22) and the hook (21) have the same thickness in the direction perpendicular to the longitudinal direction.

3. The top panel patchwork processing apparatus according to claim 1, wherein: the hook grooves (11) are arranged on the connecting body (22) at equal intervals and are positioned on the central axis of the batten along the long side direction.

4. The top panel patchwork processing apparatus according to claim 1, wherein: the width of the pressing strip (1) is larger than the gap between the adjacent top plates (3).

5. The top panel patchwork processing apparatus according to claim 1, wherein: the height of the hook (21) is less than or equal to the vertical right-angle side of the bolt (4).

6. The top panel patchwork processing apparatus according to claim 1, wherein: and the contact surfaces of the pressing strips (1) and the top plate (3) are respectively adhered with glue (5).

7. The top panel patchwork processing apparatus according to claim 1, wherein: the length of the hook (21) is less than that of the hook groove (11).

8. A top plate seam processing method is characterized by comprising the following steps:

providing a pressing strip (1) and a hook (2), wherein the pressing strip (1) is of a long strip-shaped structure, a hook groove (11) is formed in the pressing strip, and the hook (2) comprises a connecting body (22) and a hook (21) which extends out of the connecting body (22) and is perpendicular to the connecting body (22);

sticking a sizing material (5) in a fixed shape on one surface of the pressing strip (1) facing the connecting body (22) of the hook (2), wherein one surface of the sizing material (5) is stuck on the pressing strip (1), and the other surface is coated with oiled paper;

the hook groove (11) of the pressing strip is clamped with the bayonet (212) of the hook (21), so that the pressing strip (1) and the hook (2) are connected to form a temporary assembly which can be detachably connected;

a plurality of bolts (4) are respectively and uniformly clamped into an adjusting groove (23) formed by the connecting body (22) and every two adjacent hooks (21);

a top plate (3) to be spliced is respectively arranged on two sides of the space between the pressing strip (1) and the connecting body (22) by taking the long side direction of the pressing strip (1) as a symmetry axis;

the surface of the sizing material (5) on the pressing strip (1) is coated with the oil paper and torn off;

the bolt (4) slides forwards, backwards, leftwards and rightwards in the adjusting groove (23) to adjust the height of the top plate (3);

after the time required for bonding the shaped sizing material (5) is met, clamping a hook (21) of the hook (2), moving the hook relative to a hook groove (11) of the batten (1) along the long side direction, and removing the pressure of the top end of the hook (21) on the batten (1);

pushing the bolt (4) downwards to enable the hook (2) to generate a downward pulling force until the hook (2) is completely removed;

and removing the bolt (4) to finish the adjustment and fixation of the abutted seam of the top plate (3).

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