CN215889097U - Wallboard splicing structure - Google Patents

Abstract

The utility model discloses a wallboard splicing structure which comprises a first wallboard, a second wallboard, a first splicing plate and a second splicing plate, wherein the back surface of the first splicing plate is fixedly attached to the front surface of the first wallboard, the first splicing plate is positioned at the edge of the front surface of the first wallboard, the back surface of the second splicing plate is fixedly attached to the front surface of the second wallboard, the second splicing plate is positioned at the edge of the front surface of the second wallboard, the first splicing plate and the second splicing plate are spliced, so that one part of the back surface of the first splicing plate is attached to the front surface of the second wallboard, one part of the back surface of the second splicing plate is attached to the front surface of the first wallboard, and the edge of the first wallboard is spliced to the edge of the second wallboard. Because first wallboard and second wallboard are less with the second splice plate volume ratio to first splice plate, consequently first splice plate can aim at with the second splice plate comparatively easily, has higher alignment accuracy.

Description

Wallboard splicing structure

Technical Field

The utility model relates to a wallboard splicing structure, and belongs to the field of wallboard installation.

Background

The splicing of wallboard and wallboard is fixed to paint glue at the concatenation department of two blocks of wallboards usually and realizes, and this kind of concatenation process wallboard does not support, and when the wallboard volume was great, the dislocation takes place very easily between wallboard and the wallboard, leads to the wallboard concatenation effect very poor.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to overcome the defects of the prior art and provide a wallboard splicing structure.

The technical scheme adopted by the utility model is as follows:

the utility model provides a wallboard splicing structure, including first wallboard, the second wallboard, first splice plate and second splice plate, the back of first splice plate is laminated fixedly with the front of first wallboard, first splice plate is located the front edge of first wallboard, the back of second splice plate is laminated fixedly with the front of second wallboard, the second splice plate is located the front edge of second wallboard, first splice plate splices with the second splice plate to make the laminating of a part at the first splice plate back and the front of second wallboard, the laminating of a part at the second splice plate back and the front of first wallboard, and the edge of first wallboard and the edge splicing of second wallboard.

The utility model has the beneficial effects that:

the first wallboard and the second wallboard are driven to be spliced in the mode that the first splicing plate and the second splicing plate are spliced. Because first wallboard and second wallboard are less with the second splice plate volume ratio to first splice plate, consequently first splice plate can aim at with the second splice plate comparatively easily, has higher alignment accuracy. Because first splice plate and first wallboard are fixed, second splice plate and second wallboard, consequently also can have higher concatenation precision between final first wallboard and the second wallboard. In addition, the first wallboard is in contact with the second splicing plate, and the second wallboard is in contact with the first splicing plate, so that after splicing is completed, the first wallboard can be fixed with the second splicing plate, the second wallboard can be fixed with the first splicing plate, and the first splicing plate and the second splicing plate can be connectors of the first wallboard and the second wallboard, so that the connection strength between the first wallboard and the second wallboard is ensured finally. Taking the first splice plate as an example, the first splice plate can be gradually attached to the front surface of the second wallboard in the splicing process with the second splice plate, so that the splicing precision of the first splice plate and the second splice plate is improved by utilizing the second wallboard. In a similar way, the first wallboard can also improve the splicing precision of the first splicing plate and the second splicing plate.

According to the utility model, the first splicing plate and the second splicing plate are both in a hook jade shape, the inner side edge of the first splicing plate is provided with a clamping strip, the inner side edge of the second splicing plate is provided with a clamping groove, the clamping strip is inserted into the clamping groove, and the inner side edge of the first splicing plate is attached to the inner side edge of the second splicing plate.

A gap is reserved between the clamping strip and the clamping groove.

The head of the first splicing plate is positioned on the front side of the second wallboard, the head of the second splicing plate is positioned on the front side of the first wallboard, and the head of the first splicing plate and the head of the second splicing plate are both provided with screw holes so that the head of the first splicing plate and the head of the second splicing plate are fixed through screws, and the head of the second splicing plate and the head of the first wallboard are fixed through screws.

The clamping strip is an arc-shaped clamping strip, the clamping strip extends along the inner side edge of the first splicing plate, the clamping groove is an arc-shaped clamping groove, and the clamping groove extends along the inner side edge of the second splicing plate.

The screw hole on the second splicing plate is positioned outside the clamping groove.

The head of the first splicing plate is provided with a first limiting plane, the tail end face of the first splicing plate is a second limiting plane, the head of the second splicing plate is provided with a third limiting plane, the tail end face of the second splicing plate is a fourth limiting plane, the first limiting plane and the fourth limiting plane are attached, and the second limiting plane and the third limiting plane are attached.

The first limiting plane, the second limiting plane and the edge side face of the first wall plate are positioned on the same plane, and the third limiting plane, the fourth limiting plane and the edge side face of the second wall plate are positioned on the same plane.

The first splicing plate is positioned in the middle of the edge of the first wallboard, and the second splicing plate is positioned in the middle of the edge of the second wallboard.

According to the utility model, the first splicing plate is fixedly adhered to the first wallboard, and the second splicing plate is fixedly adhered to the second wallboard.

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

Drawings

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

FIG. 1 is a schematic front view of a first splice plate according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of a first splice plate according to an embodiment of the present invention;

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

FIG. 4 is a schematic perspective view of a second splice plate according to an embodiment of the present invention;

fig. 5 is a schematic diagram of an assembling process of the first splicing plate and the second splicing plate according to the 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. 1-5, the present embodiment provides a wall panel splicing structure, which includes a first wall panel 1, a second wall panel 2, a first splicing plate 3 and a second splicing plate 4.

The back of first splice plate 3 is fixed with the front laminating of first wallboard 1, and first splice plate 3 is located the front edge of first wallboard 1. The back of the second splice plate 4 is fixed with the front of the second wallboard 2, and the second splice plate 4 is located at the front edge of the second wallboard 2.

The shapes of the first splicing plate 3 and the second splicing plate 4 are matched with each other, so that the first splicing plate 3 and the second splicing plate 4 can be spliced with each other. For example, in this embodiment, the first splicing plate 3 and the second splicing plate 4 are both in a hook jade shape, the head of the first splicing plate 3 can be spliced into the groove of the second splicing plate 4, and the head of the second splicing plate 4 can be spliced into the groove of the first splicing plate 3. Of course, in other embodiments, the first splicing plate 3 and the second splicing plate 4 may be spliced in other shapes, which is the prior art, and in this embodiment, they are not further unfolded.

In the direction perpendicular to the first wall panel 1, the head of the first splicing plate 3 projects outside the first wall panel 1, and the rest projects inside the first wall panel 1. In the direction perpendicular to the second wall panel 2, the head of the second splice plate 4 projects out of the second wall panel 2, and the rest projects into the second wall panel 2. Therefore, in the splicing process of the first splicing plate 3 and the second splicing plate 4, the edge of the first wallboard 1 and the edge of the second wallboard 2 are driven to be spliced with each other, the back face of the head of the first splicing plate 3 can be gradually attached to the front face of the second wallboard 2, the back face of the head of the second splicing plate 4 is gradually attached to the front face of the first wallboard 1, and therefore the first splicing plate 3 and the second splicing plate 4 are guaranteed to be located in the same plane as far as possible all the time in the splicing process, the splicing precision of the first splicing plate 3 and the second splicing plate 4 is guaranteed, and the splicing precision and the splicing effect of the first wallboard 1 and the second wallboard 2 are finally guaranteed.

Therefore, the first splicing plate 3 can be fixed on the first wall plate 1 by gluing, and the second splicing plate 4 can also be fixed on the second wall plate 2 by gluing. Taking first wallboard 1 as an example, if there is unnecessary glue between first wallboard 1 and first splice plate 3 and can extrude to the position that first wallboard 1 openly is located first splice plate 3 groove to and on the top edge side of first wallboard 1, thereby strengthen the joint strength to the head of second splice plate 4 and the bottom edge side of second wallboard 2 when the concatenation is accomplished.

First wallboard 1 and 2 volumes of second wallboard are very big, and relative to it, first splice plate 3 is less with 4 volumes of second splice plate, consequently carries out direct aim at first splice plate 3 and second splice plate 4, compares directly to aim at first wallboard 1 and second wallboard 2, and the degree of difficulty is lower, and the precision is also higher relatively. In addition, the installation angle of the first splicing plate 3 on the first wallboard 1 is fixed, and the installation angle of the second splicing plate 4 on the second wallboard 2 is fixed, so that the splicing precision of the first wallboard 1 and the second wallboard 2 can be ensured as long as the first splicing plate 3 and the second splicing plate 4 are accurately spliced.

After splicing is completed, the back face of the head of the first splicing plate 3 is in front contact with the second wallboard 2, and the back face of the head of the second splicing plate 4 is in front contact with the first wallboard 1, so that the head of the first splicing plate 3 and the head of the second splicing plate 4 are both provided with screw holes 5, the head of the first splicing plate 3 and the second wallboard 2 are fixed through screws, and the head of the second splicing plate 4 and the first wallboard 1 are fixed through screws. At this moment, the first splicing plate 3 is simultaneously fixed on the first wallboard 1 and the second wallboard 2, the second splicing plate 4 is also simultaneously fixed on the first wallboard 1 and the second wallboard 2, and the first splicing plate 3 and the second splicing plate 4 are simultaneously used as connecting pieces of the first wallboard 1 and the second wallboard 2, so that the splicing strength and the stability of the first wallboard 1 and the second wallboard 2 are finally ensured.

Preferably, the inner side edge of the first splicing plate 3 is provided with a clamping strip 31, the inner side edge of the second splicing plate 4 is provided with a clamping groove 41, and in the splicing process of the first splicing plate 3 and the second splicing plate 4, the clamping strip 31 is gradually inserted into the clamping groove 41 until the inner side edge of the first splicing plate 3 is attached to the inner side edge of the second splicing plate 4, so that the splicing process of the first splicing plate 3 and the second splicing plate 4 is completed. Because the inboard edge of first splice plate 3 and the inboard edge of second splice plate 4 are arc curved surface, therefore the inboard edge of first splice plate 3 and the inboard edge of second splice plate 4 slide each other easily when just contacting, and card strip 31 can receive the limiting action of certain degree after getting into draw-in groove 41 to reduce the emergence of the inboard edge of first splice plate 3 and the inboard edge condition of second splice plate 4 of sliding each other.

Additionally, a gap is left between the clamping strip 31 and the clamping groove 41 in this embodiment to avoid the excessive resistance from being applied to the splicing process of the first splicing plate 3 and the second splicing plate 4, and meanwhile, to avoid the matching requirement between the clamping strip 31 and the clamping groove 41 from affecting the splicing precision of the first splicing plate 3 and the second splicing plate 4.

The part of the clamping strip 31 positioned at the head of the first splicing plate 3 is exposed outside the first wall plate 1, so that the clamping strip 31 is an arc-shaped clamping strip, and the safety of the splicing process of the first splicing plate 3 and the second splicing plate 4 is improved. Card strip 31 extends along the inboard edge of first splice plate 3 to promote the length of card strip 31, and then ensure the restriction effect of draw-in groove 41 to card strip 31, the width of card strip 31 also need not too wide, and corresponding draw-in groove 41 degree of depth also need not too deeply, reduces the fluting degree of difficulty of draw-in groove 41, also avoids draw-in groove 41 lateral wall intensity to hang down excessively. The clamping groove 41 is an arc-shaped clamping groove matched with the shape of the clamping strip 31, and the clamping groove 41 extends along the inner side edge of the second splicing plate 4.

In addition, because the depth of the clamping groove 41 is not large, the screw hole 5 on the second splicing plate 4 can be positioned outside the clamping groove 41, and the screw on the screw hole 5 of the second splicing plate 4 cannot enter the clamping groove 41 to damage the clamping strip 31, so that the screw can avoid the clamping strip 31.

The head of the first splice plate 3 is provided with a first limit plane 32, the tail end face of the first splice plate 3 is a second limit plane 33, the head of the second splice plate 4 is provided with a third limit plane 42, and the tail end face of the second splice plate 4 is a fourth limit plane 43. After the first splice plate 3 and the second splice plate 4 are spliced, the first limiting plane 32 and the fourth limiting plane 43 are attached, and the second limiting plane 33 and the third limiting plane 42 are attached, so that the effect of mutual positioning between the first splice plate 3 and the second splice plate 4 is achieved. The fourth limiting plane 43 and the second limiting plane 33 ensure that the tail end of the second splicing plate 4 and the tail end of the first splicing plate 3 have certain thickness, so that the tail end of the second splicing plate 4 and the tail end of the first splicing plate 3 are not easy to hurt people, the safety is improved, and meanwhile, the mechanical strength is increased and is not easy to break.

Because the first limiting plane 32, the second limiting plane 33, the third limiting plane 42 and the fourth limiting plane 43 are arranged, the splicing surfaces of the first splicing plate 3 and the second splicing plate 4 are not completely smooth curved surfaces, so after the first splicing plate 3 and the second splicing plate 4 are spliced, the first splicing plate 3 and the second splicing plate 4 are not easy to slide left and right, and the splicing stability of the first splicing plate 3 and the second splicing plate 4 is improved.

Preferably, the first limiting plane 32, the second limiting plane 33 and the side of the top edge of the first wall plate 1 are located on the same plane, and the third limiting plane 42, the fourth limiting plane 43 and the side of the bottom edge of the second wall plate 2 are located on the same plane. First, the fourth limiting plane 43 is located in the middle of the second wall plate 2, and the second limiting plane 33 is located in the middle of the first wall plate 1, so that the second wall plate 2 and the first wall plate 1 are utilized to respectively protect the tail end of the second splice plate 4 and the tail end of the first splice plate 3. And meanwhile, when the first limiting plane 32 and the fourth limiting plane 43 are attached and the second limiting plane 33 and the third limiting plane 42 are attached, the bottom edge side of the second wallboard 2 is ensured to be attached to the top edge side of the first wallboard 1, so that the splicing process of the first splicing plate 3 and the second splicing plate 4 and the splicing process of the second wallboard 2 and the first wallboard 1 are completed simultaneously.

Generally speaking, the first splice plate 3 is located in the middle of the edge of the first wall panel 1, and the second splice plate 4 is located in the middle of the edge of the second wall panel 2, so that the stress of the first wall panel 1 and the second wall panel 2 is as uniform and symmetrical as possible.

While the utility model has been described with reference to specific embodiments thereof, it will be understood by those skilled in the art that the utility model is not limited thereto, and may be embodied in many different forms without departing from the spirit and scope of the utility model 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.

Claims (10)

1. The utility model provides a wallboard splicing structure, a serial communication port, including first wallboard, the second wallboard, first splice plate and second splice plate, the back of first splice plate is laminated fixedly with the front of first wallboard, first splice plate is located the front edge of first wallboard, the back of second splice plate is laminated fixedly with the front of second wallboard, the second splice plate is located the front edge of second wallboard, first splice plate and second splice plate splice, so that the laminating of a part at the first splice plate back and the front of second wallboard, the laminating of a part at the second splice plate back and the front of first wallboard, and the edge of first wallboard and the edge splicing of second wallboard.

2. The wall panel splicing structure of claim 1, wherein the first splicing plate and the second splicing plate are both in a hook jade shape, a clamping strip is arranged on the inner side edge of the first splicing plate, a clamping groove is arranged on the inner side edge of the second splicing plate, the clamping strip is inserted into the clamping groove, and the inner side edge of the first splicing plate is attached to the inner side edge of the second splicing plate.

3. The wall panel splicing structure of claim 2, wherein a gap is left between the clamping strip and the clamping groove.

4. The wall panel splicing structure of claim 2, wherein the head of the first splicing plate is located at the front face of the second wall panel, the head of the second splicing plate is located at the front face of the first wall panel, and the head of the first splicing plate and the head of the second splicing plate are both provided with screw holes, so that the head of the first splicing plate and the head of the second wall panel are fixed by screws, and the head of the second splicing plate and the head of the first wall panel are fixed by screws.

5. The wall panel splicing structure of claim 4, wherein the clamping strip is an arc-shaped clamping strip, the clamping strip extends along the inner side edge of the first splicing plate, the clamping groove is an arc-shaped clamping groove, and the clamping groove extends along the inner side edge of the second splicing plate.

6. The wall panel splicing structure of claim 5, wherein the screw holes of the second splicing plate are positioned outside the clamping grooves.

7. The wall panel splicing structure of claim 2, wherein the head of the first splicing plate is provided with a first limiting plane, the tail end surface of the first splicing plate is a second limiting plane, the head of the second splicing plate is provided with a third limiting plane, the tail end surface of the second splicing plate is a fourth limiting plane, the first limiting plane and the fourth limiting plane are attached, and the second limiting plane and the third limiting plane are attached.

8. The wall panel splicing structure of claim 7, wherein the first limiting plane, the second limiting plane and the edge side of the first wall panel are located on the same plane, and the third limiting plane, the fourth limiting plane and the edge side of the second wall panel are located on the same plane.

9. The wall panel splicing structure of claim 1, wherein the first splicing plate is positioned intermediate the edges of the first wall panel and the second splicing plate is positioned intermediate the edges of the second wall panel.

10. The wall panel splicing structure of claim 1, wherein the first splicing plate is adhesively secured to the first wall panel and the second splicing plate is adhesively secured to the second wall panel.

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