SUMMERY OF THE UTILITY MODEL
In order to solve the problem, the utility model provides a can the quick replacement installation, and can the leveling assembly wall install fossil fragments fast with the industrialization.
In order to achieve the above purpose, the present invention is realized by the following technical solutions:
the utility model provides an assembly wall is with industrialization quick installation fossil fragments, includes fossil fragments main part, at least one leveling structure and the assembly parts of setting on fossil fragments main part;
the leveling structure comprises a base, a leveling piece and a leveling connecting piece, wherein the base is fixed on the wall surface through screws; the leveling piece is cylindrical and is arranged in the keel, a threaded hole is formed in the center of the leveling piece, at least one positioning convex strip and/or positioning groove are/is formed in the surface of the leveling piece, and the positioning convex strip and the positioning groove extend along the axial direction of the leveling piece; the leveling connecting piece comprises a connecting head and a headless screw rod connected with the connecting head, the connecting head is embedded into the base and clings to the wall surface, and the headless screw rod penetrates through a threaded hole in the center of the leveling piece and is in threaded connection with the leveling piece;
the keel main body is provided with a leveling member mounting hole, and the leveling member mounting hole comprises a first slotted hole, a second slotted hole and a third slotted hole; the first slotted hole is matched with the base, the second slotted hole is matched with the leveling piece, and the third slotted hole is matched with the headless screw rod; a limiting groove matched with the positioning convex strip on the surface of the leveling part or a limiting convex strip matched with the positioning groove on the surface of the leveling part are arranged in the leveling part mounting hole;
the assembly parts are arranged at one end, far away from the wall, of the keel body, the assembly parts comprise connecting protrusions and/or connecting grooves used for being connected with an assembly wall body in a clamped mode, and the connecting protrusions and the connecting grooves are provided with anti-skidding parts.
Further, the axial direction of the leveling piece is perpendicular to the axial direction of the keel.
Furthermore, a thread section is arranged in the middle of the headless screw and is in threaded connection with a thread hole in the center of the leveling member; the length of the threaded section is not more than the height of the leveling piece.
Furthermore, one end of the headless screw rod, which is far away from the wall surface, is provided with a straight hole or a hexagonal hole along the axial direction.
Furthermore, be equipped with the screw that is used for being fixed in the wall in the base, the screw is embedded extremely in the base.
Furthermore, the apertures of the first slot, the second slot and the third slot are sequentially reduced along the direction far away from the wall surface.
Furthermore, the connecting protrusion and the keel are integrally formed, and the connecting groove and the keel are integrally formed.
Further, the anti-skid component is an anti-skid pattern; the lines of the antiskid lines are parallel to the axial direction of the keel and/or intersect at any angle.
Furthermore, the cross sections of the connecting protrusions and the connecting grooves are square, circular or special-shaped.
The utility model discloses assembly wall is with industrialization installation fossil fragments fast, its beneficial effect lies in:
(1) be equipped with coupling groove and connection arch on the fossil fragments, can regard as horizontal fossil fragments or perpendicular fossil fragments to install on the wall body, carry out the joint through coupling groove and connection arch with integrated into one piece's fossil fragments on the wooden wallboard, simple to operate is swift, convenient to detach and installation, is applicable to current one-piece type assembly wall body.
(2) The keel is provided with a leveling structure, the distance between the leveling piece and the base is adjusted through the headless screw rod, so that the keel is leveled, and finally the wallboard is clamped and installed on the installation surface of the keel through the connecting groove and the connecting protrusion.
(3) In the leveling structure, a screwdriver is stretched into the straight hole or the hexagonal hole, and the leveling piece is driven by rotation to move the keel main body, so that the keel main body is parallel to the wall surface, and the leveling is more convenient. And the base is embedded into the keel main body, so that the distance between the keel and the wall surface is shortened, the whole keel is installed smoothly, and the supporting effect is better.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.
Figure 1 is a schematic view of the keel structure of example 1 (transverse connecting projections);
figure 2 is a schematic view of the keel structure of example 1;
FIG. 3 is a schematic view of the leveling of the adjusting structure of the present invention;
fig. 4 is a schematic view of the state of the adjusting structure of the present invention;
FIG. 5 is a schematic view of a structure of a leveling member (positioning projection);
FIG. 6 is a schematic view of a structure of a leveling member (positioning groove);
figure 7 is a schematic view of the keel structure (transverse connecting grooves) of example 1.
Figure 8 is a schematic view of the keel structure (longitudinal attachment tab);
FIG. 9 is a schematic view, partially in cross-section, of the leveling member of FIG. 8 within the keel;
figure 10 is a schematic view of the keel structure (longitudinal connecting grooves);
FIG. 11 is a schematic view, partially in section, of the leveling member of FIG. 10 within the keel;
wherein, 1 keel body and 4 wall surfaces;
201, 202 leveling parts, 203 screws, 204 positioning convex strips, 205 positioning grooves, 206 connectors, 207 headless screws, 208 first slotted holes, 209 second slotted holes, 210 third slotted holes, 211 threaded sections and 212I-shaped holes;
301 connecting projection, 302 connecting groove and 303 antiskid component.
Detailed Description
The present invention will be described in further detail with reference to the following embodiments and accompanying drawings.
Example 1
An industrialized rapid installation keel for assembling a wall body is shown in figures 1-6 and comprises a keel main body 1, a leveling structure arranged on the keel main body 1 and an assembling part;
the keel body 1 can be a vertical keel (corresponding, the keel on the assembly wallboard is a horizontal keel) installed on the wall surface 4, and can also be a horizontal keel (corresponding, the keel on the assembly wallboard is a vertical keel). In this embodiment, a cross keel is taken as an example.
The leveling structures are at least two and are respectively installed at two ends of the cross keel, and after the two ends are leveled and fixed, the whole cross keel can be leveled.
On the other hand, the fitting part is a coupling projection 301, and the cross section of the coupling projection 301 is square. In the utility model, the length of the connecting bulge 301 can be the same as the length of the whole keel; the length of the keel can be smaller, namely point type connection is formed on the keel, and the installation, the maintenance and the replacement are more convenient and faster. The connecting protrusion 301 and the keel main body 1 are integrally formed, so that the installation is more stable.
In addition, the surface of the connecting bulge 301 is provided with anti-skid grains; due to the transverse keel, the lines of the antiskid lines are intersected with the axial direction of the keel at any angle, preferably perpendicularly. The crossing purpose is to prevent the vertical keel from moving up and down even if friction is formed between the horizontal keel and the vertical keel.
In this embodiment, the leveling structure includes a base 201, a leveling member 202 and a leveling connector, and the base 201 is fixed on the wall surface 4 by a screw 203.
Specifically, the base 201 is fixed on the wall surface 4 by a screw 203, and the screw 203 is embedded into the base 201. This design can ensure that the contact surface of base 201 and fossil fragments is level and smooth. An operation hole for conveniently adjusting the screw 203 is arranged in the keel main body, and a screwdriver can go deep into the adjusting screw 203.
Specifically, the leveling member 202 is cylindrical and is arranged in the keel, a threaded hole is formed in the center of the leveling member 202, a positioning convex strip 204 is arranged on the surface of the leveling member 202, and the positioning convex strip 204 extends along the axial direction of the leveling member 202; the axial direction of the leveling member 202 is perpendicular to the axial direction of the keel.
Illustratively, there are two positioning ribs 204, the two positioning ribs 204 are on the same diameter of the leveling member 202, and the two positioning ribs 204 are oppositely disposed. The positioning rib 204 mainly ensures that the keel body 1 and the leveling member 202 do not rotate radially in the circumferential direction.
Specifically, the leveling connector includes a connector 206 and a headless screw 207 connected to the connector 206, the connector 206 is embedded into the base 201 and tightly attached to the wall surface 4, and the headless screw 207 is fixedly connected to the connector 206. The headless screw 207 passes through a threaded hole in the center of the leveling piece 202 and is in threaded connection with the leveling piece 202; the coupling head 206 and the headless screw 207 are rotatable, but do not move axially relative to the base 201.
In addition, a threaded section 211 is arranged in the middle of the headless screw 207, and the threaded section 211 is in threaded connection with a threaded hole in the center of the leveling member 202; the length of the threaded section 211 is no greater than the height of the leveling members 202. The end of the headless screw 207 remote from the wall surface 4 is provided with a straight hole 212 or a hexagonal hole along the axial direction.
In this embodiment, the main keel body 1 is provided with mounting holes for the leveling members 202, and the mounting holes for the leveling members 202 include a first slot hole 208, a second slot hole 209 and a third slot hole 210; the first slot 208 is matched with the base 201, the second slot 209 is matched with the leveling member 202, and the third slot 210 is matched with the headless screw 207. A limiting groove matched with the positioning convex strip 204 on the surface of the leveling piece 202 is arranged in the mounting hole of the leveling piece 202; the keel body 1 is inserted into the surface of the leveling member 202 through the stopper groove.
The first slot 208, the second slot 209 and the third slot 210 decrease in sequence in a direction away from the wall surface 4.
After the headless screw 207 in the leveling connecting piece passes through the base 201, the whole base 201 and the leveling connecting piece are fixedly installed on the wall surface 4, then the leveling piece 202 is inserted into the second slot 209 of the keel main body 1, and the leveling piece 202 is fixed relative to the keel main body 1. The headless screw 207 sequentially passes through the leveling piece 202 and the keel body 1, the screw 203 is used for operating the straight hole 212 or the hexagonal hole, the leveling connecting piece is rotated, and the leveling piece 202 cannot rotate in the keel, so that the leveling piece 202 is close to or far away from the base 201 through rotation, and keel leveling is realized.
Example 2
An industrialized rapid installation keel for assembling a wall body is shown in figures 3-7 and comprises a keel main body 1, a leveling structure arranged on the keel main body 1 and an assembling part;
the keel body 1 can be a vertical keel (corresponding, the keel on the assembly wallboard is a horizontal keel) installed on the wall surface 4, and can also be a horizontal keel (corresponding, the keel on the assembly wallboard is a vertical keel). In this embodiment, a cross keel is taken as an example.
The leveling structures are at least two and are respectively installed at two ends of the cross keel, and after the two ends are leveled and fixed, the whole cross keel can be leveled.
On the other hand, the fitting member is a connection groove 302, and the cross section of the connection groove 302 is square. In the utility model, the length of the connecting groove 302 can be the same as the length of the whole keel; the length of the keel can be smaller, namely point type connection is formed on the keel, and the installation, the maintenance and the replacement are more convenient and faster. Connecting groove 302 and fossil fragments main part 1 integrated into one piece, the installation is more stable.
In addition, the surface of the connecting groove 302 is provided with anti-skid lines; due to the transverse keel, the lines of the antiskid lines are intersected with the axial direction of the keel at any angle, preferably perpendicularly. The crossing purpose is to prevent the vertical keel from moving up and down even if friction is formed between the horizontal keel and the vertical keel.
In this embodiment, the leveling structure includes a base 201, a leveling member 202 and a leveling connector, and the base 201 is fixed on the wall surface 4 by a screw 203.
Specifically, the base 201 is fixed on the wall surface 4 by a screw 203, and the screw 203 is embedded into the base 201. This design can ensure that the contact surface of base 201 and fossil fragments is level and smooth. An operation hole for conveniently adjusting the screw 203 is arranged in the keel main body, and a screwdriver can go deep into the adjusting screw 203.
Specifically, the leveling member 202 is cylindrical and is arranged in the keel, a threaded hole is formed in the center of the leveling member 202, a positioning groove 205 is formed in the surface of the leveling member 202, and the positioning groove 205 extends along the axial direction of the leveling member 202; the axial direction of the leveling member 202 is perpendicular to the axial direction of the keel.
Illustratively, the positioning grooves 205 are two, two positioning grooves 205 are on the same diameter of the leveling member 202, and the two positioning grooves 205 are oppositely arranged. The positioning groove 205 mainly ensures that the keel body 1 and the leveling member 202 do not rotate radially in the circumferential direction.
Specifically, the leveling connector includes a connector 206 and a headless screw 207 connected to the connector 206, the connector 206 is embedded into the base 201 and tightly attached to the wall surface 4, and the headless screw 207 is fixedly connected to the connector 206. The headless screw 207 passes through a threaded hole in the center of the leveling piece 202 and is in threaded connection with the leveling piece 202; the coupling head 206 and the headless screw 207 are rotatable, but do not move axially relative to the base 201.
In addition, a threaded section 211 is arranged in the middle of the headless screw 207, and the threaded section 211 is in threaded connection with a threaded hole in the center of the leveling member 202; the length of the threaded section 211 is no greater than the height of the leveling members 202. The end of the headless screw 207 remote from the wall surface 4 is provided with a straight hole 212 or a hexagonal hole along the axial direction.
In this embodiment, the main keel body 1 is provided with mounting holes for the leveling members 202, and the mounting holes for the leveling members 202 include a first slot hole 208, a second slot hole 209 and a third slot hole 210; the first slot 208 is matched with the base 201, the second slot 209 is matched with the leveling member 202, and the third slot 210 is matched with the headless screw 207. A limiting convex strip matched with the positioning groove 205 on the surface of the leveling piece 202 is arranged in the mounting hole of the leveling piece 202; the keel body 1 is inserted into the surface of the leveling member 202 through the limit ribs.
The first slot 208, the second slot 209 and the third slot 210 decrease in sequence in a direction away from the wall surface 4.
After the headless screw 207 in the leveling connecting piece passes through the base 201, the whole base 201 and the leveling connecting piece are fixedly installed on the wall surface 4, then the leveling piece 202 is inserted into the second slot 209 of the keel main body 1, and the leveling piece 202 is fixed relative to the keel main body 1. The headless screw 207 sequentially passes through the leveling piece 202 and the keel body 1, the screw 203 is used for operating the straight hole 212 or the hexagonal hole, the leveling connecting piece is rotated, and the leveling piece 202 cannot rotate in the keel, so that the leveling piece 202 is close to or far away from the base 201 through rotation, and keel leveling is realized.
Example 3
The leveling structure of example 1 was fitted over the keel body.
In this embodiment, as shown in fig. 8 and 9, the assembling parts in the main body of the keel are connecting protrusions, and the connecting protrusions are distributed along the longitudinal direction of the main body of the keel. The connecting bulge is provided with a mounting hole for mounting the leveling structure. The upper surface of the leveling structure is lower than the upper surface of the connecting bulge, so that the mounting effect of the connecting bulge in the keel is ensured.
Example 4 the leveling structures of example 1 were assembled onto a keel body.
In this embodiment, as shown in fig. 10 and 11, the assembling parts in the main body of the keel are connecting grooves, and the connecting grooves are distributed along the longitudinal direction of the main body of the keel. The connecting groove is provided with a mounting hole for mounting the leveling structure. The upper surface of the leveling structure is lower than the upper surface of the connecting groove, so that the mounting effect of the connecting groove in the keel is ensured.
Example 5
As shown in fig. 1 to 7, in addition to embodiment 1 or embodiment 2, a rubber mat is further provided in the antiskid member 303. The rubber non-slip mat has two functions, firstly, the non-slip mat is non-slip, and the non-slip mat is prevented from being worn by the cross keel and the vertical keel in the installation and replacement process.
The technical solutions provided by the embodiments of the present invention are described in detail above, and the principles and embodiments of the present invention are explained herein by using specific examples, and the descriptions of the above embodiments are only applicable to help understand the principles of the embodiments of the present invention; meanwhile, for a person skilled in the art, according to the embodiments of the present invention, there may be variations in the specific implementation manners and application ranges, and in summary, the content of the description should not be construed as a limitation to the present invention.