CN110984435A - Tenon-and-mortise connected assembled partition wall and assembling method thereof - Google Patents

Abstract

The invention discloses a tenon-and-mortise connected assembled partition wall and an assembling method thereof, wherein the partition wall comprises a cross beam, a vertical keel, a transverse keel and a wallboard, wherein the upper end surface or the lower end surface of the cross beam is provided with a plurality of mortise joint connecting pieces A which are in tenon-and-mortise connection with tenon connecting pieces A arranged at the upper end and the lower end of the vertical keel through the mortise joint connecting pieces A; the side surface of the vertical keel is provided with a plurality of mortise head connecting pieces B which are in mortise and tenon connection with tenon connecting pieces B arranged on the side surface of the transverse keel through the mortise head connecting pieces B; the lateral side of the transverse keel is provided with a mortise head connecting piece C which is connected with the tenon head connecting piece C arranged on the lateral side of the wallboard in a sliding manner. The assembling method comprises the following steps: s1, prefabricating a component; s2, wall end vertical keels are installed at two ends of the cross beam; s3, fixing the vertical keel at the wall end on the wall; s4, installing vertical keels between walls; s5, installing a transverse keel; s6, mounting bottom end and left side fixing rods; s7, installing a wallboard; and S8, mounting a top end and a right fixing rod.

Description

Tenon-and-mortise connected assembled partition wall and assembling method thereof

Technical Field

The invention relates to the field of building decoration, in particular to a mortise-tenon connected assembled partition wall and an assembling method thereof.

Background

With the increasing urban population, the demand of people for houses is also increasing. How to carry out environmental protection, high efficiency, convenient secondary construction and fitment to the house indoor has become comparatively general problem. At present, an indoor non-bearing partition wall system of a building is basically composed of a ceiling keel, a partition keel and an expansion pipe. The method has the advantages of large installation size constraint, high difficulty in disassembly and modification, high wet operation occupation ratio, complex process and unrecyclable material. Therefore, the new assembled light partition becomes a research focus.

Currently, many technicians and scholars have created innovations in fabricated partitions. For example, in an assembly type nail-free partition wall disclosed in chinese patent document CN 109372163A, a screw is used to connect a vertical keel and a ceiling keel, and this method realizes assembly type construction and improves the installation efficiency of the partition wall, but the keels are connected by screws only. Compare in tenon fourth of twelve earthly branches node, bolted connection node is comparatively weak, and the installation takes a lot of work, and the node reliability is relatively poor. And the lack of transverse keels makes the stability of the partition poor. Chinese patent document CN 108331209 a discloses an assembled partition wall that possesses dampproofing function, adopts the screw to connect the fossil fragments of horizontal vertical direction, has promoted the efficiency of construction when guaranteeing that the structure is reliable. However, the method still has the problems of difficult adjustment of the lines in the wall in the later period, more labor-consuming assembly and installation and the like. Therefore, there is a need for a light partition wall with simple structure, reliable structure, and easy assembly and disassembly.

Disclosure of Invention

The invention aims to solve the problems and provides the assembled partition wall with the tenon-and-mortise connection structure, which is simple in structure and quick to assemble, and the assembling method of the partition wall.

In order to achieve the purpose, the technical scheme of the invention is as follows:

a tenon-and-mortise connected assembly type partition wall comprises a cross beam, a keel and a wallboard, wherein the cross beam is fixedly connected with the keel, and the wallboard is fixedly connected to the outer side of the keel; the keel comprises a vertical keel and a transverse keel, and a plurality of mortise head connecting pieces A are arranged on the upper end surface or the lower end surface of the cross beam and are in mortise and tenon connection with tenon connecting pieces A arranged at the upper end and the lower end of the vertical keel through the mortise head connecting pieces A; the side surface of the vertical keel is provided with a plurality of mortise head connecting pieces B which are in mortise and tenon connection with tenon connecting pieces B arranged on the side surface of the transverse keel through the mortise head connecting pieces B; the lateral side of the transverse keel is provided with a mortise head connecting piece C which is connected with the tenon head connecting piece C arranged on the lateral side of the wallboard in a sliding manner.

Further, the vertical keels comprise inter-wall vertical keels and wall end vertical keels; vertical fossil fragments of wall end set up at the left and right both ends of assembled partition wall, and vertical fossil fragments setting is between two vertical fossil fragments of wall end between the wall, and one side that vertical fossil fragments were close to vertical fossil fragments between the wall in wall end is provided with fourth of twelve earthly branches connecting piece B, and vertical fossil fragments's left and right both sides all are provided with fourth of twelve earthly branches connecting piece B between the wall, and vertical fossil fragments, wall end vertical fossil fragments upper and lower both ends all with crossbeam mortise-tenon joint between the wall.

Further, the wall end vertical keel upper and lower ends are provided with fixing plates, the fixing plates are connected with the tenon connecting pieces A at the wall end vertical keel upper and lower ends, and the fixing plates are provided with first threaded holes and are connected with the cross beam bolts through the first threaded holes.

Furthermore, the side of the vertical keel at the wall end is provided with a second threaded hole and is connected with the wall surface or the cylindrical surface through the second threaded hole.

Furthermore, mortise head connecting piece B is a front-back bidirectional mortise head connecting piece, and the vertical keel is in mortise-tenon connection with the transverse keels arranged on the front side and the back side of the vertical keel through the mortise head connecting piece B.

Furthermore, the lateral surface of the transverse keel is sequentially provided with a plurality of mortise head connecting pieces C, and the rightmost mortise head connecting piece C is in a full-opening shape.

Further, the wall boards comprise a middle movable wall board and an edge movable wall board; face limit activity wallboard setting at the left and right both ends of assembled partition wall, middle activity wallboard setting faces between the limit activity wallboard, faces one side that limit activity wallboard is close to middle activity wallboard and is provided with the socket that can coincide each other, and middle activity wallboard both sides all are provided with the socket that can coincide each other, and when adjacent wallboard installation target in place, the socket of wallboard both sides coincide each other.

Further, assembled partition wall still includes the dead lever, and the dead lever passes through bolted connection with crossbeam, the vertical fossil fragments of wall end, and when the wallboard installation target in place, one side that the dead lever is close to the wallboard contacts with the wallboard lateral surface.

Further, the fixing rods comprise transverse fixing rods and vertical fixing rods; the cross sections of the transverse fixed rod and the vertical fixed rod are L-shaped, the transverse fixed rod is connected with the cross beam bolt, and after the transverse fixed rod is connected with the cross beam bolt, the transverse fixed rod is contacted with the top end of the wallboard or the bottom end of the wallboard; vertical dead lever and the vertical fossil fragments bolted connection of wall end, after vertical dead lever and the vertical fossil fragments bolted connection of wall end, vertical dead lever contacts with facing limit activity wallboard left side or right side.

An assembling method of a tenon-and-mortise connected assembled partition wall comprises the following steps:

s1, prefabricating a cross beam, an inter-wall vertical keel, a wall end vertical keel, a transverse keel, a middle movable wallboard, an edge movable wallboard, a transverse fixed rod and a vertical fixed rod according to the size;

s2, pre-fixing the cross beam, installing wall end vertical keels at two ends of the cross beam through mortise and tenon connecting pieces A, and screwing bolts into first threaded holes in the fixing plates to fix the two ends of the cross beam and the upper and lower ends of the wall end vertical keels;

s3, fixing the vertical keels at the wall ends on the walls at the two ends of the assembled partition wall by using expansion bolts through the second threaded holes;

s4, installing an inter-wall vertical keel between the upper cross beam and the lower cross beam through a mortise joint connecting piece A and a tenon joint connecting piece A;

s5, installing the transverse keels on the two sides of the vertical keel through the mortise joint connecting piece B and the tenon joint connecting piece B;

s6, connecting the transverse fixing rods with the cross beam at the bottom end of the assembly type partition wall by using bolts, and connecting the vertical keels at the wall end on the left side of the assembly type partition wall with the vertical fixing rods by using bolts;

s7, mounting tenon connecting pieces C on the side faces of the wallboards on the right sides of the assembled partition walls through notches preset by the mortise connecting pieces C on the transverse keels, pushing the wallboards from the right ends to the left ends through horizontal pushing, sequentially mounting the wallboards, and mutually overlapping the adjacent wallboards through the inserting ports until the wallboards are completely mounted;

and S8, connecting the transverse fixing rod with a cross beam bolt above the assembled partition wall, and connecting the vertical fixing rod with a wall end vertical keel bolt on the right side of the assembled partition wall to complete the assembly of the assembled partition wall.

Compared with the prior art, the invention has the advantages and positive effects that:

1. all components of the partition wall are connected in a mortise and tenon assembly mode, construction efficiency is high, and installation, disassembly, component replacement and adjustment of pipelines in the wall are facilitated.

2. According to the invention, steel is preferably used as the framework member and the connecting piece of the assembly type partition wall, so that the wall body has enough durability.

3. In the invention, all the nodes are connected by adopting the mortise and tenon joint, so that the reliability of the connection nodes between the members is ensured, and the stability of the wall body is enhanced.

4. According to the invention, the transverse keels and the vertical keels are arranged in a staggered manner at certain intervals, and the transverse keels and the vertical keels mutually contribute to improving the stability of the internal structure of the wall body and effectively enhancing the anti-seismic performance of the wall body.

5. The surfaces of the cross beam and the transverse fixing rod are made of waterproof materials, so that the keel and the wallboard are prevented from directly contacting the ground, moisture from the ground is isolated, and the service life of the partition wall is prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and 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 creative efforts.

FIG. 1 is a schematic view of the mounting structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic structural view of a cross beam;

FIG. 4 is a schematic view of the construction of a vertical keel between walls;

FIG. 5 is a schematic view of the construction of the wall-end vertical keel;

figure 6 is a schematic structural view of a transverse keel;

FIG. 7 is a schematic front view of a middle movable wall panel;

FIG. 8 is a schematic view of the back structure of the middle movable wall panel;

FIG. 9 is a schematic front view of a movable wall panel with edges;

FIG. 10 is a schematic view of the back structure of the movable wall panel with edges;

FIG. 11 is a view showing an assembled structure of a transverse fixing rod and a cross member;

FIG. 12 is an assembly view of the vertical fixing rod and the vertical keel at the wall end;

FIG. 13 is a view of the assembled structure of the vertical wall end keel and cross beam;

FIG. 14 is an assembly structure diagram of a mortise joint connecting piece B and a tenon joint connecting piece B;

fig. 15 is a partial assembled structural view of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived from the embodiments of the present invention by a person skilled in the art without any creative effort, should be included in the protection scope of the present invention.

As shown in figures 1-12, an assembled partition wall adopting mortise-tenon connection comprises a cross beam 1, a vertical keel, a transverse keel 4, a wallboard and a fixing rod. All adopt mortise-tenon joint spare to connect between crossbeam 1 and vertical keel, vertical keel and horizontal keel 4, horizontal keel 4 and the wallboard. The cross beam 1 is connected with the fixed rod, and the vertical keel is connected with the fixed rod through bolts.

As shown in figures 1-2, the beam 1 is pre-fixed to a designated position before the wall body is assembled, and the vertical keel is vertically arranged and connected with the beam 1. The transverse keel 4 is arranged on two sides of the vertical keel through the mortise-tenon joint piece. The wallboard can be by the opening of reserving on the horizontal fossil fragments 4 promptly mortise head connecting piece C slide in horizontal fossil fragments 4 and carry out slidable mounting, wherein wall body both sides installation face limit activity wallboard 6, activity wallboard 5 in the middle part of wall body installation. The fixed rod comprises a transverse fixed rod 7 and a vertical fixed rod 8, and the transverse fixed rod 7 and the vertical fixed rod 8 are installed beside the cross beam 1 and the vertical keel. All the wall boards at the edge of the wall body are just fixed by the fixing rods.

As shown in fig. 3, a plurality of mortise head connectors a10 are uniformly arranged on the beam 1 along the length direction. Wherein, a vertical screw hole 102 with internal thread is additionally arranged beside the mortise head connecting piece A10 at the two ends. The cross beam 1 is provided with a plurality of bolt holes 101 with internal threads at equal intervals along the length direction.

As shown in fig. 4 and 5, the vertical keel has tenon joints a11 at its upper and lower ends corresponding to the mortise joints a10 on the beam 1. The vertical keel comprises a vertical keel 2 and a vertical keel 3 at the wall end between the walls, and a plurality of bidirectional mortise head connecting pieces B12 are uniformly arranged on two sides of the vertical keel 2 between the walls and used for connecting the transverse keels 4 on two sides of the walls.

As shown in fig. 5, the wall-end vertical keel 3 is provided with a mortise joint connector B12 only on the inner side of the keel. And a fixing plate 16 with a screw hole 9 is additionally arranged on the tenon connecting piece A11 of the wall end vertical keel 3 and is used for secondary connection by adopting a bolt after being connected with the cross beam 1. The four sides of the vertical wall end keel 3 are provided with a plurality of bolt holes with internal threads along the length direction, wherein the bolt holes 301 of the parallel wall surfaces are used for being connected with the vertical fixing rods 8 through bolts, and the bolt holes 302 in the vertical wall surfaces are used for being connected with the wall columns to fix the vertical wall end keel 3 on the wall columns.

As shown in fig. 6, the front of transverse keel 4 is equipped with a plurality of mortise head connecting piece C14, wherein the mortise head connecting piece C14 that is located the rightmost side is not equipped with the mortise head latch (be full open form promptly, it makes last row of wallboard not need slide can install the wallboard in transverse keel 4, makes things convenient for the installation of last row of wallboard). The back of the transverse keel 4 is provided with a tenon connecting piece B13 corresponding to the mortise connecting piece B12. The mortise head connecting piece C and the tenon head connecting piece C are equivalent to a connecting structure of a sliding rail and a sliding block, and the situation that the mortise head connecting piece C and the tenon head connecting piece C are separated from each other is avoided while relative sliding is kept.

As shown in fig. 7, 8, 9 and 10, the back of the wall panel is provided with 2 parallel tenon connectors C15 corresponding to the mortise connectors C14. The edges of the wall panels are provided with sockets 17 which can be folded over each other. The wall board can be divided into a middle movable wall board 5 and an edge movable wall board 6 according to the installation position. The left and right edges of the middle movable wall board 5 are provided with sockets 17 which can be overlapped, when two adjacent wall boards are installed in place, the sockets 17 at the edges can be overlapped. The edge-adjacent movable wall plate 6 is provided with a socket 17 only at one side edge.

As shown in fig. 11, the transverse fixing rod 7 is a long rod with an L-shaped section. The transverse fixing rod 7 is provided with a plurality of bolt holes 701 at equal intervals in the length direction, and the positions of the bolt holes 701 are matched with the positions of the bolt holes 101 arranged on the cross beam 1.

As shown in fig. 12, the vertical fixing rod 8 is a long rod with an L-shaped cross section, a plurality of bolt holes 801 are arranged in the vertical fixing rod 8 at equal intervals in the length direction, and the positions of the bolt holes 801 correspond to the positions of the bolt holes 301 arranged in the wall end vertical keel 3.

As shown in fig. 13, a fixing plate 16 with a screw hole 9 is additionally arranged on the tenon connecting piece a11 of the wall-end vertical keel 3, and after the tenon connecting piece a11 is connected with the tenon connecting piece a10, the fixing plate 16 is anchored by using a screw.

As shown in fig. 14, the tenon connector B13 of the transverse keel 4 is vertically mortise-tenon connected to the bi-directional mortise connector B12.

As shown in fig. 15, after all the components are installed, the edge of the wall panel located at the edge of the wall body is just fixed by the fixing rod.

All tenon connecting pieces are subjected to rounding treatment, so that the tenon-and-mortise connecting pieces are assembled more conveniently and efficiently.

The invention also provides an assembly method of the assembled partition wall adopting mortise and tenon connection, which comprises the following steps:

step 1: according to actual size, a cross beam 1 with a proper size, a wall end vertical keel 3, a wall end vertical keel 2, a transverse keel 4, an edge movable wall plate 6, a middle movable wall plate 5, a transverse fixing rod 7 and a vertical fixing rod 8 are prefabricated in a factory.

Step 2: pre-fixing a cross beam 1 at an appointed position, installing wall end vertical keels 3 at two ends of the cross beam, and fixing the wall end vertical keels 3 at two ends of the cross beam 1 through a fixing plate 16 with screw holes by using bolts;

and step 3: fixing the wall end vertical keels 3 on the wall columns at two ends of the wall body by using expansion bolts;

and 4, step 4: installing an inter-wall vertical keel 2 between the upper and lower cross beams 1 through corresponding tenon-and-mortise connecting pieces;

and 5: installing the transverse keels 4 on two sides of the vertical keels through tenon-and-mortise connecting pieces;

step 6: installing a transverse fixed rod 7 below the wall body and a vertical fixed rod 8 on the left side of the wall body by using bolts;

and 7: sequentially installing the movable wallboards on the left side and the middle part of the wall body on the transverse keels 4 through mortise-tenon connection through notches preset on the transverse keels 4, and then installing the movable wallboards in a row on the right side of the wall body in a flat push mode; the two sides of the wall body are provided with the edge-adjacent movable wall boards 6, the middle part of the wall body is provided with the middle movable wall board 5, and the inserting ports 17 on the wall boards can be mutually overlapped when the wall boards are arranged in place;

and 8: the transverse fixing rod 7 above the wall body is installed on the cross beam 1 above the wall body, the vertical fixing rod 8 on the right side of the wall body is installed on the vertical keel 3 on the right side of the wall body through a bolt, and installation of all the wall bodies is completed at the moment.

The invention has the following beneficial effects:

1. all components of the partition wall are connected in a mortise and tenon assembly mode, construction efficiency is high, and installation, disassembly, component replacement and adjustment of pipelines in the wall are facilitated.

2. According to the invention, steel is preferably used as the framework member and the connecting piece of the assembly type partition wall, so that the wall body has enough durability.

3. In the invention, all the nodes are connected by adopting the mortise and tenon joint, so that the reliability of the connection nodes between the members is ensured, and the stability of the wall body is enhanced.

4. According to the invention, the transverse keels and the vertical keels are arranged in a staggered manner at certain intervals, and the transverse keels and the vertical keels mutually contribute to improving the stability of the internal structure of the wall body and effectively enhancing the anti-seismic performance of the wall body.

5. The surfaces of the cross beam and the transverse fixing rod are made of waterproof materials, so that the keel and the wallboard are prevented from directly contacting the ground, moisture from the ground is isolated, and the service life of the partition wall is prolonged.

Claims (10)

1. A tenon-and-mortise connected assembly type partition wall comprises a cross beam, a keel and a wallboard, wherein the cross beam is fixedly connected with the keel, and the wallboard is fixedly connected to the outer side of the keel; the method is characterized in that: the keel comprises a vertical keel and a transverse keel, and a plurality of mortise head connecting pieces A are arranged on the upper end surface or the lower end surface of the cross beam and are in mortise and tenon connection with tenon connecting pieces A arranged at the upper end and the lower end of the vertical keel through the mortise head connecting pieces A; the side surface of the vertical keel is provided with a plurality of mortise head connecting pieces B which are in mortise and tenon connection with tenon connecting pieces B arranged on the side surface of the transverse keel through the mortise head connecting pieces B; the lateral side of the transverse keel is provided with a mortise head connecting piece C which is connected with the tenon head connecting piece C arranged on the lateral side of the wallboard in a sliding manner.

2. The assembled partition wall of mortise and tenon joints of claim 1, wherein: the vertical keels comprise vertical keels between walls and vertical keels at wall ends; vertical fossil fragments of wall end set up at the left and right both ends of assembled partition wall, and vertical fossil fragments setting is between two vertical fossil fragments of wall end between the wall, and one side that vertical fossil fragments were close to vertical fossil fragments between the wall in wall end is provided with fourth of twelve earthly branches connecting piece B, and vertical fossil fragments's left and right both sides all are provided with fourth of twelve earthly branches connecting piece B between the wall, and vertical fossil fragments, wall end vertical fossil fragments upper and lower both ends all with crossbeam mortise-tenon joint between the wall.

3. The assembled partition wall of mortise and tenon joints of claim 2, wherein: the wall end vertical keel fixing device is characterized in that fixing plates are arranged at the upper end and the lower end of the wall end vertical keel, the fixing plates are connected with tenon connecting pieces A at the upper end and the lower end of the wall end vertical keel, and first threaded holes are formed in the fixing plates and connected with cross beam bolts through the first threaded holes.

4. The assembled partition wall of mortise and tenon joints of claim 3, wherein: and a second threaded hole is formed in the side surface of the vertical keel at the wall end and is connected with the wall surface or the cylindrical surface through a bolt of the second threaded hole.

5. The assembled partition wall of mortise and tenon joints of claim 4, wherein: the mortise head connecting piece B is a front-back bidirectional mortise head connecting piece, and the vertical keel is in mortise-tenon connection with the transverse keels arranged on the front side and the back side of the vertical keel through the mortise head connecting piece B.

6. The mortise and tenon joint assembly type partition wall of claim 5, wherein: the lateral surface of the transverse keel is sequentially provided with a plurality of mortise head connecting pieces C, and the rightmost mortise head connecting piece C is in a full-opening shape.

7. The assembled partition wall of mortise and tenon joints of claim 6, wherein: the wall plates comprise a middle movable wall plate and an edge movable wall plate; face limit activity wallboard setting at the left and right both ends of assembled partition wall, middle activity wallboard setting faces between the limit activity wallboard, faces one side that limit activity wallboard is close to middle activity wallboard and is provided with the socket that can coincide each other, and middle activity wallboard both sides all are provided with the socket that can coincide each other, and when adjacent wallboard installation target in place, the socket of wallboard both sides coincide each other.

8. The mortise and tenon joint assembly type partition wall of claim 7, wherein: the assembled partition wall further comprises a fixed rod, the fixed rod is connected with the cross beam and the vertical keel of the wall end through bolts, and when the wallboard is installed in place, one side, close to the wallboard, of the fixed rod is in contact with the outer side face of the wallboard.

9. The assembled partition wall of mortise and tenon joints of claim 8, wherein: the fixing rods comprise transverse fixing rods and vertical fixing rods; the cross sections of the transverse fixed rod and the vertical fixed rod are L-shaped, the transverse fixed rod is connected with the cross beam bolt, and after the transverse fixed rod is connected with the cross beam bolt, the transverse fixed rod is contacted with the top end of the wallboard or the bottom end of the wallboard; vertical dead lever and the vertical fossil fragments bolted connection of wall end, after vertical dead lever and the vertical fossil fragments bolted connection of wall end, vertical dead lever contacts with facing limit activity wallboard left side or right side.

10. A method of assembling the mortise and tenon jointed assembly type partition wall as set forth in claim 9, wherein: the method comprises the following steps:

s1, prefabricating a cross beam, an inter-wall vertical keel, a wall end vertical keel, a transverse keel, a middle movable wallboard, an edge movable wallboard, a transverse fixed rod and a vertical fixed rod according to the size;

s2, pre-fixing the cross beam, installing wall end vertical keels at two ends of the cross beam through mortise and tenon connecting pieces A, and screwing bolts into first threaded holes in the fixing plates to fix the two ends of the cross beam and the upper and lower ends of the wall end vertical keels;

s3, fixing the vertical keels at the wall ends on the walls at the two ends of the assembled partition wall by using expansion bolts through the second threaded holes;

s4, installing an inter-wall vertical keel between the upper cross beam and the lower cross beam through a mortise joint connecting piece A and a tenon joint connecting piece A;

s5, installing the transverse keels on the two sides of the vertical keel through the mortise joint connecting piece B and the tenon joint connecting piece B;

s6, connecting the transverse fixing rods with the cross beam at the bottom end of the assembly type partition wall by using bolts, and connecting the vertical keels at the wall end on the left side of the assembly type partition wall with the vertical fixing rods by using bolts;

s7, mounting tenon connecting pieces C on the side faces of the wallboards on the right sides of the assembled partition walls through notches preset by the mortise connecting pieces C on the transverse keels, pushing the wallboards from the right ends to the left ends through horizontal pushing, sequentially mounting the wallboards, and mutually overlapping the adjacent wallboards through the inserting ports until the wallboards are completely mounted;

and S8, connecting the transverse fixing rod with a cross beam bolt above the assembled partition wall, and connecting the vertical fixing rod with a wall end vertical keel bolt on the right side of the assembled partition wall to complete the assembly of the assembled partition wall.

Images