JP6535207B2 - Vertical joint structure and construction method of vertical joint - Google Patents

Description

  The present invention relates to a vertical joint structure and a construction method of the vertical joint, and more specifically, to a vertical joint structure and a vertical joint formed between two panels having a ridge on the side end surface having a longitudinal ridge with a vertical direction. It relates to the construction method.

  Patent Document 1 describes a joint structure in which a watertight packing, a backup material, and a sealing material are disposed between two panels having a ridge on the side end surface with the longitudinal direction as the vertical direction.

  In this joint structure, the watertight packing is disposed in the space between the ridges of one panel and the ridges of the other panel, the backup material is disposed on the outdoor side of both ridges, and the backup material and the watertight packing are provided. And are in close contact with each other. Furthermore, the space on the outdoor side of the backup material is filled with a sealing material.

JP, 2011-149245, A

  In the joint structure described in Patent Document 1, when rainwater infiltrates from between the sealing material and the panel, the rainwater is received by the watertight packing to suppress the rainwater from invading the indoor side of the panel. Can. However, in this joint structure, it is difficult to smoothly drain the rainwater which has stopped its entry with the watertight packing.

  Then, this invention makes it a subject to propose the construction method of the vertical joint place structure and vertical joint place which can drain the rainwater which penetrated smoothly.

A vertical joint structure according to an embodiment of the present invention for solving the above problems is a vertical joint structure formed between an adjacent first panel and a second panel, wherein the first panel is the second The side surface facing the panel has a first ridge portion whose longitudinal direction is the vertical direction, and the second panel is the second surface whose longitudinal side is the vertical direction at the side end surface facing the first panel And a packing disposed in a space between the first projection and the second projection between the first panel and the second panel, and a projection having the projection. And a backup material disposed on the outdoor side of the second ridge portion, and a sealing material filling a space on the outdoor side of the backup material, wherein the packing includes the first ridge portion and the second ridge. located Uchiya area inside the space between the ridges, the said packing back Between-up material, characterized in that the gap for drainage is formed.
A vertical joint structure according to another embodiment of the present invention for solving the above-mentioned problems is a vertical joint structure formed between an adjacent first panel and a second panel, wherein the first panel is a vertical joint structure. The first end surface facing the second panel has a first projecting portion whose longitudinal direction is the vertical direction, and the second panel has the longitudinal direction in the vertical direction on the side end surface facing the first panel. A second projecting ridge portion, and a packing disposed in a space between the first projecting ridge portion and the second projecting ridge portion, between the first panel and the second panel; A backup material disposed on the outdoor side of the first ridge portion and the second ridge portion; and a sealing material filling a space on the outdoor side of the backup material, the first ridge portion and the second ridge portion At least one of the projecting ridges has an uneven side surface on the outdoor side surface that hits the backup material Has, during the recessed portion of the uneven surface and said backup member, wherein the gap for drainage is formed.

A vertical joint structure according to still another embodiment of the present invention for solving the above problems is a vertical joint structure formed between an adjacent first panel and a second panel, wherein the first panel In the side end surface facing the second panel, there is provided a first ridge portion whose longitudinal direction is the vertical direction, and the second panel is long in the vertical direction on the side end surface facing the first panel. A packing having a second protrusion in a direction, and disposed between the first panel and the second panel in a space between the first protrusion and the second protrusion; A backup material disposed on the outdoor side of the first ridge portion and the second ridge portion, and a sealing material filling a space on the outdoor side of the backup material, the backup material having the indoor side surface Among the part corresponding to the first protrusion and the part corresponding to the second protrusion A draining gap is formed between at least one of the first protrusion and the second protrusion and at least one of the second protrusion and the recessed portion of the protrusion. It is characterized by
A vertical joint structure according to still another embodiment of the present invention for solving the above problems is a vertical joint structure formed between an adjacent first panel and a second panel, wherein the first panel In the side end surface facing the second panel, there is provided a first ridge portion whose longitudinal direction is the vertical direction, and the second panel is long in the vertical direction on the side end surface facing the first panel. A packing having a second protrusion in a direction, and disposed between the first panel and the second panel in a space between the first protrusion and the second protrusion; A backup material disposed on the outdoor side of the first ridge portion and the second ridge portion; and a sealing material filling a space on the outdoor side of the backup material, the first ridge portion and the second ridge portion A drainage gap is formed between at least one of the two ridges and the backup material. Wherein the order of the spacer is located.

The construction method of the vertical joint of one embodiment of the present invention for solving the above-mentioned subject is to make the first panel which has the 1st projected part which makes a vertical direction a longitudinal direction in a side end face, and makes a vertical direction a longitudinal direction. A second panel having a second ridge portion at a side end face is disposed such that the first ridge portion and the second ridge portion abut against each other via a packing, and the first ridge portion and the second panel It is a construction method of a vertical joint place which arranges backup material on the outdoor side of the 2nd projected part, and fills space in the outdoor side of the backup material with sealing material, wherein the packing is the tip of the first projected part Or a combination of a first packing pre-bonded to the indoor side of the surface and a second packing pre-bonded to the indoor side of the distal end surface of the second protrusion, or Pre-bonded on the indoor side of the ridge or the tip surface of the second ridge Because the packing is located in the area on the indoor side of the space between the first ridge and the second ridge, a drainage gap is formed between the backup material and the packing. It is characterized by being.
Moreover, the construction method of the vertical joint of the other one embodiment of this invention for solving the said subject is the 1st panel which has the 1st projected part which makes an up-down direction a longitudinal direction in a side end face, An up-down direction A second panel having a second ridge in the longitudinal direction on the side end face is disposed such that the first ridge and the second ridge are in contact with each other via a packing, It is a construction method of a vertical joint place which arranges backup material on the outdoor side of a strip part and said 2nd projected part, and fills space in the space of the outdoor side of said backup material with a sealing material, said 1st projected part and said At least one of the second ridges has an uneven surface on the outdoor side surface, and the backup material is applied to the uneven surface to arrange the recessed portion of the uneven surface and the backup material. A gap for drainage is formed between the two.
Moreover, the construction method of the vertical joint of the further another embodiment of this invention for solving the said subject is the 1st panel which has the 1st ridge part which makes an up-down direction a longitudinal direction, and an up-down direction. And a second panel having a second ridge having a longitudinal direction in a side end face thereof so that the first ridge and the second ridge are in contact with each other through the packing, It is a construction method of a vertical joint place which arranges backup material on the outdoor side of a projected part and the 2nd projected part, and fills up a sealing material to the space of the outdoor side of the backed up material, and the backup material is the indoor Among the side surfaces, at least one of the portion corresponding to the first protrusion and the portion corresponding to the second protrusion has an uneven surface, and the first protrusion and the second protrusion By placing a backup material, the first protrusion and the first protrusion Between at least one said irregular surface of recessed portions of the two ridges, and wherein a gap for drainage is formed.
Moreover, the construction method of the vertical joint of the further another embodiment of this invention for solving the said subject is the 1st panel which has the 1st ridge part which makes an up-down direction a longitudinal direction, and an up-down direction. And a second panel having a second ridge having a longitudinal direction in a side end face thereof so that the first ridge and the second ridge are in contact with each other through the packing, A backup material is disposed on the outdoor side of the ridge portion and the second ridge portion, and a sealing material is filled in a space on the outdoor side of the backup material. By arranging a spacer between at least one of the second ridges and the backup material, the spacer is provided between at least one of the first ridges and the second ridge and the backup material. It is characterized in that a clearance for drainage is formed.

  The present invention produces an effect that it is possible to smoothly drain rainwater which has infiltrated into the vertical joint.

It is a plane sectional view showing the vertical joint ground structure of a first embodiment of the present invention. It is a figure which shows an example of the panel in which the vertical joint structure same as the above is formed in the side, FIG. 2A is a perspective view of the whole, FIG. 2B is a side sectional view in the aa line of FIG. 2 is a cross-sectional plan view taken along line bb of FIG. 2A. It is a plane sectional view which shows the vertical joint structure formed between two panels of FIG. It is a plane sectional view showing the vertical joint ground structure of a second embodiment of the present invention. It is a plane sectional view showing a vertical joint place structure of a third embodiment of the present invention. It is a plane sectional view which shows the vertical joint structure of 4th embodiment of this invention. It is a plane sectional view showing the vertical joint place structure of a fifth embodiment of the present invention. It is a plane sectional view showing a vertical joint place structure of a sixth embodiment of the present invention. It is a plane sectional view showing a vertical joint place structure of a seventh embodiment of the present invention.

  The vertical joint structure according to the first embodiment of the present invention shown in FIG. 1 is a vertical joint structure formed between two adjacent panels 1. The vertical joint structure of the present embodiment is used, for example, as a structure of a vertical joint between a plurality of panels 1 constituting an outer wall such as a high-rise building. Below, the direction in which two panels 1 are arranged is referred to as the left-right direction, and the thickness direction of the panels 1 is referred to as the indoor / outdoor direction. In FIG. 1, the direction shown by arrow X1 is the right direction, the opposite direction is the left direction, the direction shown by arrow Y1 is the outdoor side, and the opposite direction is the indoor side. Moreover, in FIG. 2A-FIG. 2C, the direction shown by arrow Z 1 is an upper direction, and the opposite direction is a downward direction.

  An example of the panel 1 is shown in FIGS. 2A to 2C. In the present embodiment, the panel 1 is a sandwich panel integrated by providing the core 12, the reinforcing material 13, the fireproof material 14 and the connecting member 15 between the two metal shells 10 and 11.

  The metal skins 10 and 11 are formed of a desired shape by roll forming a metal plate such as a galvanized steel plate, a coated steel plate, a galvary steel plate (registered trademark), an SSG (registered trademark) steel plate, a stainless steel plate, an aluminum plate, or a titanium plate. Molded into

  At the left and right side end surfaces of the panel 1 are provided protruding portions 2 formed by bending the left and right end portions of the metal outer skin 10 located on the outdoor side. Each protrusion 2 is positioned on the left and right side end surfaces of the panel 1 in the vertical direction. Each of the ridges 2 has a substantially U-shaped flat cross section and is hollow. The ridge portion 2 has an outdoor side surface 20, an indoor side surface 21, and a tip surface 22 facing outward in the left-right direction.

  Further, on the left and right side end surfaces of the panel 1, convex ridges 23 formed by bending the left and right end portions of the metal outer skin 11 located on the indoor side are provided. Each of the ridges 23 has a substantially U-shaped flat cross section and is hollow. The ridges 2 and the ridges 23 are spaced apart in the indoor / outdoor direction, and flat portions 24 are positioned on the left and right side end surfaces of the panel 1 between the ridges 2 and the ridges 23.

  At the upper and lower end surfaces of the panel 1, convex ridges 25 formed by bending the upper and lower end portions of the metal shell 10 located on the outdoor side are provided. Each ridge 25 has a substantially U-shaped side cross section and is hollow. Further, at the upper and lower end surfaces of the panel 1, there are provided bent portions 26 formed by bending the upper and lower end portions of the metal outer skin 11 located on the indoor side into an L shape. Each bent portion 26 is in contact with the refractory material 14.

  The core material 12 is constituted by a plurality of block bodies 120 formed by solidifying a fibrous inorganic material such as rock wool or glass wool into a long and narrow block shape (square rod shape).

  The reinforcing member 13 is an elongated member formed by bending a metal plate into a substantially U-shaped cross section. The panel 1 includes a plurality of reinforcing members 13. The number of reinforcements 13 is the same as the number of block bodies 120. Each reinforcing member 13 is used by being fixed to the surface on the outdoor side or the surface on the indoor side of each block body 120.

  The refractory material 14 has a fire resistance performance higher than that of the core material 12, and is formed in a rectangular plate shape using, for example, gypsum, calcium silicate or the like containing calcium sulfate dihydrate as a main component. is there. The refractory material 14 may be formed by cutting a commercially available gypsum board into a predetermined size. The refractory material 14 is provided over the entire length in the circumferential direction so as to surround the periphery of the core material 12 in a front view.

  The connecting member 15 is a short member (piece-like member) formed by bending a metal plate into a substantially L-shaped flat cross section. The connecting member 15 is disposed between the core 12 and the refractory 14 located on the side thereof. In the connecting member 15, as shown in FIG. 3, a fixing tool 16 such as a screw or the like which is driven into a portion of the metal outer skin 10 closer to the tip end than the ridge portion 2 is struck. A fixing tool 16 such as a screw or the like which is driven into a portion distal to the portion 23 is hit. Thereby, the connection member 15 firmly integrates the metal outer skin 10 and the metal outer skin 11 with each other.

  The core 12 is bonded to the metal sheaths 10 and 11 directly or through a reinforcing material 13. Further, the refractory material 14 is bonded to the metal envelopes 10 and 11.

  The vertical joint structure of this embodiment shown in FIG. 1 includes a packing 3, a backup material 4, and a sealing material 5 between two adjacent panels 1. The two adjacent panels 1 are composed of a first panel 101 located on the left side and a second panel 102 located on the right side. Hereinafter, the protrusion 2 provided to the first panel 101 will be referred to as a first protrusion 201, and the protrusion 2 provided to the second panel 102 will be referred to as a second protrusion 202.

  In the present embodiment, the packing 3 is disposed so as to be located in the area on the indoor side in the space between the first protrusion 201 and the second protrusion 202. Therefore, the outdoor side surface of the packing 3 is located indoors more than the outdoor side surface 20 of the protruding portions 201 and 202. The packing 3 fills the area in the vertical direction. The packing 3 is made of rubber or resin.

  In the present embodiment, the packing 3 includes a first packing 30 bonded in advance to a portion on the indoor side of the tip end surface 22 of the first protrusion 201 and a tip end surface 22 of the second protrusion 202. It combines with the 2nd packing 31 adhered beforehand to the portion by the side of an indoor. In addition, the packing 3 may be configured by one packing bonded in advance to the indoor side portion of the tip surface 22 of any one of the first protrusion 201 and the second protrusion 202. .

  The backup material 4 is disposed on the outdoor side of the first projection 201 and the second projection 202 between the two adjacent panels 101 and 102. Specifically, the backup material 4 is distributed over the outdoor side surface 20 of the first protrusion 201 and the outdoor side surface 20 of the second protrusion 202. The left and right ends of the indoor side surface 40 of the back-up member 4 hit the outdoor side surface 20 of the first projection 201 and the outdoor side surface 20 of the second projection 202 in the vertical direction. The backup material 4 has a right and left width that is a portion on the outdoor side of the first ridge portion 201 of the right end surface of the first panel 101 and a second ridge portion 202 of the left end surface of the second panel 102. The distance between it and the outdoor part is substantially the same as the distance between the two.

  In the present embodiment, the backup material 4 is in the shape of a long strip in the vertical direction, and the cross-sectional shape in the direction orthogonal to the vertical direction is rectangular. In the backup member 4, the surface facing the outdoor side (the outdoor side surface 41) and the surface facing the indoor side (the indoor side surface 40) are respectively flat surfaces and are parallel to each other. In the backup member 4, the surface facing the first panel 101 (the side end surface 42 on the left) and the surface facing the second panel 102 (the side end surface 43 on the right) are flat surfaces, respectively, and are parallel to each other. is there.

  The back-up material 4 is a resin molded product such as ethylene-propylene-terpolymer (EPT) foam or foamed polyurethane, and the outdoor side 41 has a specification in which the sealing material 5 is difficult to adhere. For example, the back-up material 4 has a release paper attached to the outdoor side surface 41 thereof.

  The sealing material 5 vertically fills the space on the outdoor side of the backup material 4 between the two adjacent panels 101 and 102. The sealing material 5 is a caulking material of resin materials such as modified silicones, silicones, polysulfides, and polyisobutylenes.

  The vertical joint structure of the present embodiment further includes a fireproof member 6 disposed in the space between the two flat portions 24 of the two panels 101 and 102, as shown in FIG. The fireproof member 6 is a member which is long in the vertical direction, and fills the space between the two flat portions 24 in the vertical direction.

  The fireproof member 6 has a fireproof core member 60, a fireproof covering member 61 and a reinforcing member 62. The refractory core material 60 is a square bar made of gypsum (gypsum board) or calcium silicate. The fireproof covering material 61 is a felt using a fibrous inorganic material such as rock wool felt. The reinforcing member 62 has a shape obtained by bending a metal plate such as a steel plate into a substantially U-shaped cross section. The reinforcing member 62 is attached to the fireproof core 60 so as to cover the indoor side surface of the fireproof core 60, and the fireproof covering 61 is so as to cover the left and right side surfaces of the fireproof core 60 and the outdoor side. It is attached to the fireproof core material 60.

  Then, the construction method of the vertical joint for forming the vertical joint structure shown in FIG. 1 mentioned above is demonstrated. The method of construction of the vertical joint comprises three steps of the step of arranging the panels 101 and 102, the step of inserting the backup material 4, and the step of filling the sealing material 5.

  In the disposing process of the panels 101 and 102, the two panels 101 and 102 are disposed so that the protruding portions 201 and 202 face each other via the packings 30 and 31, respectively. For example, with the two panels 101 and 102, the surfaces on the indoor side are applied to the wall base such as the body edge and the base plate, and adjacent side end faces are butted, and the ridges 201 and 202 are packed. , 31 can be arranged to face each other. The two panels 101 and 102 are fixed to the wall foundation with fasteners such as screws in such a state where they are butted.

  In the process of inserting the backup material 4, the backup material 4 is inserted between the two panels 101 and 102 from the outdoor side, and the backup material 4 is disposed on the outdoor side of the ridge portions 201 and 202. At this time, the backup material 4 places the left and right ends of the indoor side surface 40 against the outdoor side surface 20 of the protruding portions 201 and 202. The backup material 4 strikes the outdoor side surface 20 of both the protruding portions 201 and 202 in the vertical direction.

  In the sealing material 5 filling process, the sealing material 5 is filled in the space on the outdoor side of the backup material 4 between the two panels 101 and 102.

  By performing the above-described three steps in order, the packing 3 composed of the two packings 30 and 31 is disposed in the area on the indoor side of the space between the projecting ridges 201 and 202, and the packing 3 and the backup material 4 And a gap S1 for drainage is formed. The drainage gap S1 is formed between the two panels 101 and 102 in the vertical direction. The lower end of the drainage gap S1 communicates with the space on the outdoor side through the gap between the panels 101 and 102 and the foundation or the like therebelow.

  In the vertical joint structure of the present embodiment formed as described above, rainwater which has entered through the gap generated between the sealing material 5 and the panels 101 and 102 flows downward through the gap S1 for drainage, and the panel It can drain to the outdoor side of 101,102.

  Moreover, in the construction method of the vertical joint according to the present embodiment, the three members described above are used by using the panels 101 and 102 in which the packings 30 and 31 are attached to the portion on the indoor side of the tip end surface 22 of the protruding portions 201 and 202. The clearance S1 for drainage can be easily formed only by sequentially performing the steps.

  In addition, although the panel which provided the core material 12 grade | etc., Between two metal outer skins 10 and 11 was used as the panels 101 and 102 in the vertical joint structure of this embodiment mentioned above, it is not limited to this. The panels 101 and 102 may be panels having projecting ridges 201 and 202 on the side end faces facing each other, and may be, for example, an ALC plate.

  Subsequently, a vertical joint structure according to a second embodiment of the present invention shown in FIG. 4 will be described. Below, about the structure similar to the vertical joint place structure of 1st embodiment, the same code | symbol is attached | subjected in a figure and detailed description is abbreviate | omitted.

  In the vertical joint structure of the second embodiment, the first panel 101 has the uneven surface 7 corresponding to the backup material 4 on the outdoor side surface 20 of the first ridge portion 201, and the second panel 102 has the second ridge portion An uneven side surface 7 corresponding to the backup material 4 is provided on the outdoor side surface 20 202.

  In the present embodiment, in each of the protruding portions 201 and 202, the recessed portion 70 of the uneven surface 7 is located at the center in the left-right direction of the outdoor side surface 20. Then, in each of the protruding portions 201 and 202, the protruding portions 71 of the uneven surface 7 are located at both end portions in the left-right direction of the outdoor side surface 20. That is, in the vertical joint structure of the present embodiment, each of the first ridge portion 201 and the second ridge portion 202 has a shape in which the central portion in the horizontal direction of the outdoor side surface 20 is recessed toward the indoor side Provided in

  The panels 101 and 102 are sandwich panels, ALC plates, etc., as in the first embodiment.

  When the panels 101 and 102 are sandwich panels, the uneven surface 7 of the protruding portions 201 and 202 is formed, for example, when a metal plate is formed into a desired shape by roll forming processing, press processing, or the like. In addition, the uneven surface 7 of each protruding portion 201, 202 may be formed by processing the outdoor side surface 20 of each protruding portion 201, 202 after forming each protruding portion 201, 202. .

  When the panels 101 and 102 are ALC boards etc., for example, each panel 101 and 102 is shape | molded in the shape which has the uneven surface 7 in each projecting part 201,202. In addition, after forming each panel 101,102, the uneven surface 7 of each protruding part 201,202 is formed by processing the outdoor side 20 of each protruding part 201,202 (excision processing etc.) May be

  The formation of the uneven surface 7 is performed in a manufacturing plant or a processing plant of the panels 101 and 102. Therefore, in the construction site, the first panel 101 having the uneven surface 7 on the outdoor side surface 20 of the first projection 201 and the second panel 102 having the uneven surface 7 on the outdoor side 20 of the second projection 202 Supplied.

  Then, the construction method of the vertical joint place for forming the vertical joint ground structure shown in FIG. 4 is demonstrated. The construction method of the vertical joint of the present embodiment is the same as the construction method of the vertical joint of the first embodiment described above, the step of arranging the panels 101 and 102, the step of inserting the backup material 4, and the step of filling the sealing member 5. The three steps of

  In the present embodiment, when the backup material 4 is placed on the outdoor side surface 20 of the ridge portions 201 and 202 in the insertion step of the backup material 4, the backup material 4 corresponds to the outdoor side surface 20 of the ridge portions 201 and 202. It comes in contact with the protruding portion 71 of the uneven surface 7. As a result, between the recessed portion 70 of the uneven surface 7 of the outdoor side surface 20 of the first ridge portion 201 and the backup material 4 and the recessed portion 70 of the uneven surface 7 of the outdoor side surface 20 of the second ridge portion 202 A clearance S1 for drainage is formed between the first and second backup members 4 respectively. Further, in the present embodiment, a drainage space S1 is also formed between the backup material 4 and the packing 3. These three drainage gaps S1 are formed between the two panels 101 and 102 in the vertical direction. The lower ends of these three drainage gaps S1 communicate with the space on the outdoor side through the gaps between the panels 101 and 102 and the foundation or the like below them.

  Also in the vertical joint structure of the present embodiment formed as described above, the rainwater which has entered through the gap generated between the sealing material 5 and the panels 101 and 102 flows downward through the gap S1 for drainage, It is possible to drain water to the outdoor side of the panels 101 and 102.

  Further, in the vertical joint structure according to the present embodiment, the drainage is performed through the drainage space S1 between the backup material 4 and each of the ridges 201 and 202, whereby the rainwater intruding from the side of the backup material 4 is packed. Contact with 3 can be suppressed, and deterioration of the packing 3 can be suppressed.

  Moreover, in the construction method of the vertical joint according to the present embodiment, by using the panels 101 and 102 provided with the uneven surface 7 on the outdoor side surface 20 of the protruding portions 201 and 202, only by performing the above-described three steps in order The clearance S1 for drainage can be easily formed.

  In the vertical joint structure according to the present embodiment described above, only one of the space between the backup material 4 and the first ridge portion 201 and the space between the backup material 4 and the second ridge portion 202 is a clearance S1 for drainage. May be formed.

  Further, in the vertical joint structure of the present embodiment described above, the drainage gap S1 may not be formed between the backup material 4 and the packing 3. That is, the packing 3 may be located in the entire space between the protruding portions 201 and 202.

  Subsequently, the vertical joint structure according to the third embodiment of the present invention shown in FIG. 5 will be described. Below, about the structure similar to the vertical joint structure of 2nd embodiment, the same code | symbol is attached | subjected in a figure and detailed description is abbreviate | omitted.

  In the vertical joint structure according to the third embodiment, in each of the ridges 201 and 202, the protruding portion 71 of the uneven surface 7 is located at the center in the left-right direction of the outdoor side surface 20. Then, in each of the protruding portions 201 and 202, the recessed portions 70 of the uneven surface 7 are located at both end portions in the left-right direction of the outdoor side surface 20. That is, in the vertical joint structure according to the present embodiment, each of the protruding portions 201 and 202 is provided such that the central portion in the left-right direction of the outdoor side surface 20 protrudes to the outdoor side.

  In the vertical joint structure of the present embodiment, the packing 3 is located in the entire space between the ridges 201 and 202. The surface of the packing 3 facing the outdoor side is substantially flush with the recessed portion 70 of the uneven surface 7.

  In addition, about the construction method of the vertical joint place for forming the vertical joint ground structure shown in FIG. 5, since it is the same as the construction method of the vertical joint ground of 2nd embodiment mentioned above, description is abbreviate | omitted.

  In the vertical joint structure of the present embodiment, the projecting portion of the uneven surface 7 in each of the space between the first ridge portion 201 and the backup material 4 and between the second ridge portion 202 and the backup material 4 On both the left and right sides of 71, a gap S1 for drainage is formed. Each drainage gap S1 is formed between the two panels 101 and 102 in the vertical direction. The lower end of each drainage gap S1 communicates with the space on the outdoor side through the gap between the panels 101 and 102 and the foundation or the like therebelow.

  A drainage gap S1 located on the right side of the two drainage gaps S1 between the first protrusion 201 and the backup material 4 and a drainage gap S1 between the backup material 4 and the packing 3 And the drainage gap S1 located on the left side of the two drainage gaps S1 between the second ridge portion 202 and the backup material 4 are in communication with each other.

  Also in the vertical joint structure of the present embodiment described above, rainwater which has entered through the gap generated between the sealing material 5 and the panels 101 and 102 flows downward through the gap S1 for drainage, and It can be drained to the outdoor side.

  Further, in the vertical joint structure according to the present embodiment, the drainage gap S1 on the left side between the backup material 4 and the first ridge portion 201 and the right side between the backup material 4 and the second ridge portion 202 By draining through each of the draining gaps S1, it is possible to suppress that the rain water which has entered from the side of the backup material 4 comes into contact with the packing 3, and the deterioration of the packing 3 can be suppressed.

  In the vertical joint structure according to the present embodiment, the drainage gap S1 is formed in only one of the space between the backup material 4 and the first ridge portion 201 and the space between the backup material 4 and the second ridge portion 202. It may be

  Further, in the vertical joint structure of the present embodiment described above, the drainage gap S1 may not be formed between the backup material 4 and the packing 3. In this case, the packing 3 is disposed so as to protrude to the outdoor side from the space between the protruding portions 201 and 202 to the position where it hits the backup material 4.

  Moreover, the vertical joint structure of this embodiment may be provided so that packing 3 may be located only in the area | region of the indoor side among the spaces between the protruding part 201,202.

  Subsequently, a vertical joint structure according to a fourth embodiment of the present invention shown in FIG. 6 will be described. Below, about the structure similar to the vertical joint structure of 2nd embodiment, the same code | symbol is attached | subjected in a figure and detailed description is abbreviate | omitted.

  In the vertical joint structure of the fourth embodiment, the recessed portion 70 of the uneven surface 7 of the first protrusion 201 is located at the left end of the outdoor side surface 20 of the first protrusion 201. The protruding portion 71 of the uneven surface 7 of the first ridge portion 201 is located on the entire remaining portion of the outdoor side surface 20 of the first ridge portion 201. The recessed portion 70 of the uneven surface 7 of the second protrusion 202 is located at the right end of the outdoor side surface 20 of the second protrusion 202. Then, the protruding portion 71 of the uneven surface 7 of the second ridge portion 202 is located on the entire remaining portion of the outdoor side surface 20 of the second ridge portion 202. That is, in the vertical joint structure of the present embodiment, each of the protruding portions 201 and 202 is provided such that the end portion on the inner side in the left-right direction of the outdoor side surface 20 has a shape recessed toward the indoor side.

  In the vertical joint structure of the present embodiment, the packing 3 is located in the entire space between the ridges 201 and 202. That is, the packings 30 and 31 are bonded to the whole of the tip end surface 22 of the protruding portions 201 and 202. In the packing 3, the outdoor side surface thereof is substantially flush with the projecting portion 71 of the uneven surface 7 of each of the protruding portions 201 and 202.

  In addition, about the construction method of the vertical joint place for forming the vertical joint ground structure shown in FIG. 6, since it is the same as the construction method of the vertical joint ground of 2nd embodiment mentioned above, description is abbreviate | omitted.

  In the vertical joint structure according to the present embodiment described above, the drainage gap S1 is formed on the indoor side of the left and right end portions of the backup material 4 among the backup material 4 and the ridges 201 and 202. Ru.

  Therefore, in the vertical joint structure of the present embodiment, the rainwater which has entered from the side of the backup material 4 can be drained through the drainage gap S1 adjacent to the entry location, and the rainwater which has entered is packing 3 It is difficult to reach to.

  In the vertical joint structure according to the present embodiment described above, the gap for drainage is only in one of the space between the backup material 4 and the first ridge portion 201 and the space between the backup material 4 and the second ridge portion 202. S1 may be formed.

  Further, in the vertical joint structure according to the present embodiment described above, the drainage gap S1 may be formed between the backup material 4 and the packing 3 as well. In this case, the packing 3 is provided so as to be located only in the area on the indoor side in the space between the protruding portions 201 and 202.

  Subsequently, the vertical joint structure according to the fifth embodiment of the present invention shown in FIG. 7 will be described. Below, about the structure similar to the vertical joint place structure of 1st embodiment, the same code | symbol is attached | subjected in a figure and detailed description is abbreviate | omitted.

  In the vertical joint structure of the fifth embodiment, the backup material 4 has an uneven surface 44 on the indoor side surface 40 thereof. In the present embodiment, both end portions in the left-right direction of the indoor side surface 40 are recessed toward the outdoor side. That is, each of the left and right end portions of the indoor side surface 40 is a recessed portion 45 of the uneven surface 44, and the entire remaining portion of the indoor side surface 40 is a protruding portion 46 of the uneven surface 44. It is.

  In the vertical joint structure of the present embodiment, the packing 3 is located in the entire space between the ridges 201 and 202. In the packing 3, the surface facing the outdoor side is substantially flush with the outdoor side surface 20 of the protruding portions 201 and 202.

  The backup material 4 having the uneven surface 44 on the indoor side surface 40 is formed, for example, by processing (cutting, etc.) the indoor side surface 40 after being formed into a strip shape having a rectangular cross section. In addition, the backup material 4 may be shape | molded by the shape which has the uneven surface 44 in the indoor side 40, for example.

  The formation of the uneven surface 44 is performed in a manufacturing plant or a processing plant of the backup material 4, and the backup material 4 having the uneven surface 44 on the indoor side surface 40 is supplied to the construction site. In addition, since the backup material 4 is easy to process, you may perform formation of the uneven surface 44 in a construction site.

  Then, the construction method of the vertical joint place for forming the vertical joint ground structure shown in FIG. 7 is demonstrated. The construction method of the vertical joint of the present embodiment is the same as the construction method of the vertical joint of the first embodiment described above, the step of arranging the panels 101 and 102, the step of inserting the backup material 4, and the step of filling the sealing member 5. The three steps of

  In the present embodiment, in the step of inserting the backup material 4, the protruding portion 46 of the uneven surface 44 of the backup material 4 is the right end portion of the outdoor side surface 20 of the first protrusion 201 and the second protrusion 202. The left side of the outdoor side surface 20 and the packing 3 are in contact. Thereby, a clearance S1 for drainage is formed between the recessed portion 45 of the uneven surface 44 of the backup material 4 and the outdoor side surface 20 of each of the protruding portions 201 and 202. The drainage gap S1 is located at an end portion on the outer side in the left-right direction in the region between the backup material 4 and each of the ridge portions 201 and 202. The two drainage gaps S1 are respectively formed vertically between the two panels 101 and 102, and the lower ends of the two drainage gaps S1 are respectively the panels 101 and 102 and the foundation below them and the like. It communicates with the space on the outdoor side through the gap between

  Also in the vertical joint structure of the present embodiment formed as described above, the rainwater which has entered through the gap generated between the sealing material 5 and the panels 101 and 102 flows downward through the gap S1 for drainage, It is possible to drain water to the outdoor side of the panels 101 and 102.

  Further, in the vertical joint structure according to the present embodiment, a drainage space S1 is formed on the indoor side of the left and right end portions of the backup material 4 among the backup material 4 and the ridges 201 and 202, respectively. . Therefore, in the vertical joint structure of the present embodiment, the rainwater which has entered from the side of the backup material 4 can be drained through the drainage gap S1 adjacent to the entry location, and the rainwater which has entered is packing 3 It is difficult to reach to.

  In the vertical joint structure of the present embodiment described above, the backup material 4 may have a portion 45 recessed only at one of the left and right ends of the indoor side surface 40.

  Further, in the vertical joint structure according to the present embodiment described above, the packing 3 may be located in the area on the indoor side in the space between the protruding portions 201 and 202.

  Subsequently, the vertical joint structure according to the sixth embodiment of the present invention shown in FIG. 8 will be described. Below, about the structure similar to the vertical joint structure of 5th embodiment, the same code | symbol is attached | subjected in a figure and detailed description is abbreviate | omitted.

  In the vertical joint structure according to the sixth embodiment, in the backup material 4, the center portion in the left-right direction of the indoor side surface 40 is recessed toward the outdoor side. That is, the center portion in the left-right direction of the indoor side surface 40 is the recessed portion 45 of the concavo-convex surface 44, and the remaining part (both ends in the left-right direction) of the indoor side surface 40 is the concave-convex surface 44 It is a projecting portion 46.

  In addition, about the construction method of the vertical joint place for forming the vertical joint ground structure shown in FIG. 8, since it is the same as the construction method of the vertical joint ground of 5th embodiment mentioned above, description is abbreviate | omitted.

  In the present embodiment, in the step of inserting the backup material 4, the protruding portion 46 of the uneven surface 44 of the backup material 4 is the left end portion of the outdoor side surface 20 of the first protrusion 201 and the second protrusion It abuts against the right end portion of the outdoor side surface 20 of the part 202. Thereby, between the recessed portion 45 of the uneven surface 44 of the backup material 4 and the packing 3, between the recessed portion 45 and the right end portion of the first protrusion 201, the recessed portion 45 and the second protrusion Clearance gaps S1 are formed between the left end of the strip portion 202 and the drain portion. Each drainage gap S1 is formed between the two panels 101 and 102 in the vertical direction. The lower end of each drainage gap S1 communicates with the space on the outdoor side through the gap between the panels 101 and 102 and the foundation or the like therebelow. A drainage space S1 formed between the backup material 4 and the packing 3 and a drainage space S1 formed between the backup material 4 and the ridge portions 201 and 202 communicate with each other.

  Also in the vertical joint structure of the present embodiment described above, rainwater which has entered through the gap generated between the sealing material 5 and the panels 101 and 102 flows downward through the gap S1 for drainage, and It can be drained to the outdoor side.

  In the vertical joint structure according to the present embodiment described above, the packing 3 may be located only in the area on the indoor side of the space between the protruding portions 201 and 202.

  Subsequently, a vertical joint structure according to a seventh embodiment of the present invention shown in FIG. 9 will be described. Below, about the structure similar to the vertical joint place structure of 1st embodiment, the same code | symbol is attached | subjected in a figure and detailed description is abbreviate | omitted.

  In the vertical joint structure according to the seventh embodiment, a drainage space S1 is formed in the area between the backup material 4 and the first projection 201 and the area between the backup material 4 and the second projection 202, respectively. A spacer 8 for positioning is provided. Each spacer 8 is a member which makes an up-down direction a longitudinal direction, for example, is a octopus thread. Each spacer 8 is located in the up-down direction in a part of the above-mentioned region in the left-right direction.

  In the vertical joint structure of the present embodiment, the backup material 4 has a rectangular cross-sectional shape in the direction perpendicular to the vertical direction, and the outdoor side surface 41 and the indoor side surface 40 are flat and parallel to each other. The packing 3 is located in the entire space between the projecting portions 201 and 202.

  In the vertical joint structure according to the present embodiment, the backup material 4 is positioned apart from the packing 3 and the ridges 201 and 202 by the thickness of the spacer 8 by interposing the spacer 8. Thereby, in the vertical joint structure of the present embodiment, the area between the backup material 4 and the packing 3, the area between the backup material 4 and the first ridge portion 201, the backup material 4 and the second ridge In each of the areas between the part 202 and the part 202, a drain space S1 is formed.

  Then, the construction method of the vertical joint place for forming the vertical joint ground structure shown in FIG. 9 is demonstrated. In the construction method of the vertical joint of this embodiment, in addition to the three steps of the step of arranging the panels 101 and 102 described above, the step of inserting the backup material 4 and the step of filling the sealing material 5, the step of arranging the spacer 8 is Including.

  In the disposing step of the spacer 8, the spacer 8 is disposed in the region between the first protrusion 201 and the backup material 4 and in the region between the second protrusion 202 and the backup material 4. The arrangement of the spacer 8 is, for example, a part of the outdoor side 20 of the first protrusion 201 in the left-right direction and a part of the outdoor side 20 of the second protrusion 202 in the left-right direction. Perform by attaching 8 by adhesion etc. The spacer 8 may be arranged by attaching the spacer 8 to the indoor side surface 40 of the backup material 4 by adhesion or the like. Further, the arrangement of the spacer 8 may be performed by sandwiching the spacer 8 between the protruding portions 201 and 202 and the backup material 4 instead of attaching by adhesion or the like.

  By including the step of arranging the spacer 8 described above, the backup material 4 is arranged on the outdoor side of the protruding portions 201 and 202 via the spacer 8. Thereby, a clearance for drainage is provided between each of the backup material 4 and the packing 3, between the backup material 4 and the first ridge portion 201, and between the backup material 4 and the second ridge portion 202. S1 is formed. The lower end of each drainage gap S1 communicates with the space on the outdoor side through the gap between the panels 101 and 102 and the foundation or the like therebelow.

  In the present embodiment, drain spaces S1 are formed on the left and right of the spacer 8 between the first projection 201 and the backup material 4 and between the second projection 202 and the backup material 4, respectively. Ru. A clearance S1 for drainage on the right side of the two drainage gaps S1 between the backup material 4 and the first ridge portion 201, and two drainages between the backup material 4 and the second ridge portion 202 Among the gaps S1, the gap S1 for drainage on the left side and the gap S1 for drainage between the backup material 4 and the packing 3 are in communication with each other.

  Also in the vertical joint structure of the present embodiment formed as described above, the rainwater which has entered through the gap generated between the sealing material 5 and the panels 101 and 102 flows downward through the gap S1 for drainage, It is possible to drain water to the outdoor side of the panels 101 and 102.

  Further, in the vertical joint structure according to the present embodiment, the drainage gap S1 on the left side between the backup material 4 and the first ridge portion 201 and the right side between the backup material 4 and the second ridge portion 202 It is possible to drain through the drain space S1, and it is difficult for the rainwater which has entered from the side of the backup material 4 to reach the packing 3.

  In the vertical joint structure according to the embodiment described above, the spacer 8 may be located between one of the first projection 201 and the second projection 202 and the backup material 4. . Also, the spacer 8 may be located between the packing 3 and the backup material 4. That is, the spacer 8 is at least one of the space between the backup material 4 and the packing 3, the space between the backup material 4 and the first ridge portion 201, and the space between the backup material 4 and the second ridge portion 202. , As long as it is located.

  Moreover, the packing 3 may be located in the area | region of the indoor side of the space between the protruding parts 201 and 202 in the vertical joint structure of this embodiment mentioned above. In this case, the spacer 8 is disposed between at least one of the protruding portions 201 and 202 and the backup material 4.

  As described above with reference to the attached drawings, the vertical joint structure according to the first to seventh embodiments of the present invention is characterized by having the following configuration.

  That is, the vertical joint structure in the first to seventh embodiments is a vertical joint structure formed between the adjacent first panel 101 and second panel 102. The first panel 101 has, on the side end face facing the second panel 102, a first protrusion 201 whose longitudinal direction is the vertical direction. The second panel 102 has, on the side end surface facing the first panel 101, a second protrusion 202 whose longitudinal direction is the vertical direction. Between the first panel 101 and the second panel 102, the packing 3 disposed in the space between the first projection 201 and the second projection 202, and the first projection 201 and the second projection The backup material 4 disposed on the outdoor side of the portion 202, and the sealing material 5 filling the space on the outdoor side of the backup material 4 are provided. In the vertical joint structure according to the first to seventh embodiments, the area between the packing 3 and the backup material 4, the area between the first protrusion 201 and the backup material 4, the second protrusion 202 and the backup material A drainage gap S1 is formed in at least one of the four regions.

  In the vertical joint structure according to the first to seventh embodiments, by having the above-described configuration, the rainwater invading through the gap generated between the sealing material 5 and the panels 101 and 102 due to aging deterioration, etc. It can drain smoothly through crevice S1 for drainage formed inside.

  Furthermore, the vertical joint structure according to the first to seventh embodiments of the present invention additionally includes the following configuration in addition to the above configuration.

  That is, in the vertical joint structure according to the first to seventh embodiments, the packing 3 is located in the area on the indoor side of the space between the first projection 201 and the second projection 202, and the packing 3 and the backup A clearance S1 for drainage is formed between the member 4 and the member 4.

  By providing the above-described additional configuration, in the vertical joint structure according to the first to seventh embodiments, the rainwater that has entered through the gap generated between the sealing material 5 and the panels 101 and 102 can be used as the packing 3 and the backup material 4. It can drain smoothly through crevice S1 for drainage formed between these.

  The vertical joint structure according to the second to fourth embodiments of the present invention additionally includes the following configuration in addition to the above configuration.

  That is, in the vertical joint structure according to the second to fourth embodiments, at least one of the first ridge portion 201 and the second ridge portion 202 has the uneven surface 7 corresponding to the backup material 4 on the outdoor side surface 20 thereof. In the vertical joint structure according to the second to fourth embodiments, a drainage space S1 is formed between the recessed portion 70 of the uneven surface 7 and the backup material 4.

  By providing the above-described additional configuration, in the vertical joint structure according to the second to fourth embodiments, the rainwater that has entered through the gap generated between the sealing material 5 and the panels 101 and 102 can be projected into the ridge portions 201 and 202. It can drain smoothly through crevice S1 for drainage formed between concave part 70 and back-up material 4 among concavo-convex surfaces 7 of outdoor side 20 of the above.

  Further, in the vertical joint structure according to the fifth and sixth embodiments of the present invention, the following configuration is additionally provided in addition to the above configuration.

  That is, in the vertical joint structure according to the fifth and sixth embodiments, the backup material 4 has the uneven surface 44 on the indoor side surface 40 corresponding to the first protrusion 201 and the second protrusion 202, and the packing 3 and the third member A drainage space S1 is formed between at least one of the first protrusion 201 and the second protrusion 202 and the recessed portion 45 of the uneven surface 44.

  By providing the above-described additional configuration, in the vertical joint structures according to the fifth and sixth embodiments, the rainwater invading through the gap generated between the sealing material 5 and the panels 101 and 102 is taken as the indoor side surface of the backup material 4 The water is smoothly drained through the recessed portion 45 of the uneven surface 44 of the 40, and the drainage gap S1 formed between the packing 3 and at least one of the first projection 201 and the second projection 202. can do.

  Further, in the vertical joint structure according to the seventh embodiment of the present invention, the following configuration is additionally provided in addition to the above configuration.

  That is, in the vertical joint structure of the seventh embodiment, the area between the packing 3 and the backup material 4, the area between the first protrusion 201 and the backup material 4, the second protrusion 202 and the backup material 4. In at least one of the regions between them, a spacer 8 is located for forming a drainage space S1.

  By providing the above-described additional configuration, in the vertical joint structure according to the seventh embodiment, the spacer 8 is formed by interposing the rainwater which has entered through the gap generated between the sealing material 5 and the panels 101 and 102. Drainage can be carried out smoothly through the drainage gap S1.

  Moreover, the construction method of the vertical joint according to the first to seventh embodiments of the present invention is characterized by having the following configuration.

  That is, in the construction method of the vertical joint according to the first to seventh embodiments, the first panel 101 having the first ridge portion 201 whose longitudinal direction is the longitudinal direction in the vertical direction and the second panel whose longitudinal direction is the vertical direction The first panel 201 and the second panel 202 are disposed so that the first panel 201 and the second panel 202 are in abutment with each other via the packing 3. It is a construction method of the vertical joint which arranges backup material 4 on the outdoor side of the 2nd projected part 202, and fills space on the outdoor side of backup material 4 with sealing material 5. In this construction method, among the area between the packing 3 and the backup material 4, the area between the first protrusion 201 and the backup material 4, and the area between the second protrusion 202 and the backup material 4, In at least one, a clearance S1 for drainage is formed.

  As described above, in the construction method of the vertical joint according to the first to seventh embodiments, the space between at least one of the packing 3, the first projection 201 and the second projection 202 and the backup material 4 is used. By forming the gap S1 for drainage in the area, it is possible to smoothly drain the rainwater which has entered through the gap generated between the sealing material 5 and the panels 101 and 102 through the gap S1 for drainage.

  Furthermore, in addition to said structure, the construction method of the vertical joint of 1st thru | or 7th embodiment of this invention is additionally equipped with the following structure.

  That is, in the construction method of the vertical joint according to the first to seventh embodiments, the packing 3 includes the first packing 30 bonded in advance to the portion on the indoor side of the distal end surface 22 of the first protrusion 201, and the second protrusion The second packing 31 bonded in advance to the indoor side portion of the distal end surface 22 of the strip portion 202 is combined, or the indoor side of the distal end surface 22 of the first projection 201 or the second projection 202 It is adhered in advance to the part of In the construction method of the vertical joint according to the first to seventh embodiments, the packing 3 is positioned in the area on the indoor side in the space between the first ridge portion 201 and the second ridge portion 202 so that the backup material 4 is formed. A clearance S1 for drainage is formed between the and the packing 3.

  In the construction method of the vertical joint according to the first to seventh embodiments as in the above-described additional configuration, the packing 3 is a portion on the indoor side of the tip surface 22 of the first protrusion 201 or the second protrusion 202 The packing 3 can be positioned in the area on the indoor side of the space between the protruding portions 201 and 202 only by abutting the protruding portions 201 and 202. That is, in the construction method of the vertical joint according to the first to seventh embodiments, an arranging step of arranging the panels 101 and 102 by abutting the protruding portions 201 and 202 via the packing 3 and an inserting step of inserting the backup material 4 Further, the drainage gap S1 can be easily formed between the packing 3 and the backup material 4 only by the same three steps as the conventional method such as the filling step in which the sealing material 5 is filled.

  Moreover, in addition to said structure, the construction method of the vertical joint of 2nd thru | or 4th embodiment of this invention is equipped with the following structure additionally.

  That is, in the construction method of the vertical joint according to the second to fourth embodiments, at least one of the first protrusion 201 and the second protrusion 202 has the uneven surface 7 on the outdoor side surface 20 thereof. In the construction method of the vertical joint according to the second to fourth embodiments, by placing the backup material 4 against the uneven surface 7, the space between the recessed portion 70 of the uneven surface 7 and the backup material 4 can be used for drainage. A gap S1 is formed.

  Like the above-mentioned additional composition, in the construction method of the vertical joint according to the second to fourth embodiments, the first protrusion 201 and the second protrusion 202 have the uneven surface 7 on the outdoor side surface 20. Since the back-up material 4 is disposed on the outdoor side of the ridges 201 and 202, a drainage space S1 can be formed between the backup material 4 and the ridges 201 and 202. That is, in the construction method of the vertical joint according to the second to fourth embodiments, the backup material 4 and the ridge portions 201 and 202 can be constructed only by the three steps of the placement step, the insertion step and the filling step as in the conventional method. In the meantime, the clearance S1 for drainage can be easily formed.

  Moreover, in addition to said structure, the construction method of the vertical joint of 5th and 6th embodiment of this invention is equipped with the following structure additionally.

  That is, in the construction method of the vertical joint according to the fifth and sixth embodiments, the backup material 4 has the uneven surface 44 on the indoor side surface 40 thereof, and the first projection 201 and the second projection 202 By placing the back-up material 4 in contact, for drainage, between at least one of the first projection 201, the second projection 202, the packing 3, and the recessed portion 45 of the uneven surface 44, A gap S1 is formed.

  In the construction method of the vertical joint according to the fifth and sixth embodiments as in the above-described additional configuration, since the backup material 4 has the uneven surface 44 on the indoor side surface 40, the ridge portion 201, The drainage space S1 can be formed on the indoor side of the backup material 4 simply by placing the backup material 4 against the 202. That is, in the construction method of the vertical joint according to the fifth and sixth embodiments, the construction process can be performed on the indoor side of the backup material 4 only by the same three steps as the conventional arrangement step, insertion step and filling step. The clearance S1 for drainage can be easily formed.

  Moreover, in addition to said structure, the construction method of the vertical joint of 7th embodiment of this invention is additionally equipped with the following structure.

  That is, in the construction method of the vertical joint according to the seventh embodiment, the spacer 8 is disposed between the backup material 4 and at least one of the first projection 201, the second projection 202, the packing 3, and the like. A clearance S1 for drainage is formed.

  Like the above-mentioned additional composition, in the construction method of the vertical joint of a 7th embodiment, crevice S1 for drainage can be formed only by adding the process of making spacer 8 intervene. Therefore, in the construction method of the vertical joint according to the seventh embodiment, it is not necessary to use the protruding portions 201 and 202 having the concavo-convex surface 7 and the backup material 4 having the concavo-convex surface 44, and the formation of the clearance S1 for drainage It can be done easily.

  As mentioned above, although this invention was demonstrated based on embodiment shown to an attached drawing, this invention is not limited to said embodiment, As long as it is in the range which this invention intends, a design change is possible suitably. It is.

DESCRIPTION OF SYMBOLS 3 packing 4 backup material 5 sealing material 7 uneven surface 8 spacer 20 outdoor side surface 40 indoor side surface 44 uneven surface 45 recessed portion 70 recessed portion 101 first panel 102 second panel 201 first protrusion portion 202 second protrusion portion S1 gap

Claims (8)

A vertical joint structure formed between adjacent first and second panels, wherein
The first panel has a first ridge portion having a vertical direction as a longitudinal direction on a side end surface facing the second panel,
The second panel has a second ridge portion having a vertical direction as a longitudinal direction on the side end surface facing the first panel,
Between the first panel and the second panel
A packing disposed in a space between the first protrusion and the second protrusion;
A backup material disposed on the outdoor side of the first protrusion and the second protrusion;
And a sealant filling the space on the outdoor side of the backup material,
The packing is located in an area on the indoor side of the space between the first ridge and the second ridge , and a drainage gap is formed between the packing and the backup material. A vertical joint structure characterized by A vertical joint structure formed between adjacent first and second panels, wherein
The first panel has a first ridge portion having a vertical direction as a longitudinal direction on a side end surface facing the second panel,
The second panel has a second ridge portion having a vertical direction as a longitudinal direction on the side end surface facing the first panel,
Between the first panel and the second panel
A packing disposed in a space between the first protrusion and the second protrusion;
A backup material disposed on the outdoor side of the first protrusion and the second protrusion;
And a sealant filling the space on the outdoor side of the backup material,
At least one of the first protrusion and the second protrusion has an uneven surface on the outdoor side surface corresponding to the backup material,
Vertical joints structure between the backup material and recessed portions of said uneven surface, you characterized in that the gap for drainage is formed. A vertical joint structure formed between adjacent first and second panels, wherein
The first panel has a first ridge portion having a vertical direction as a longitudinal direction on a side end surface facing the second panel,
The second panel has a second ridge portion having a vertical direction as a longitudinal direction on the side end surface facing the first panel,
Between the first panel and the second panel
A packing disposed in a space between the first protrusion and the second protrusion;
A backup material disposed on the outdoor side of the first protrusion and the second protrusion;
And a sealant filling the space on the outdoor side of the backup material,
The backup material has an uneven surface on at least one of a portion corresponding to the first protrusion and a portion corresponding to the second protrusion in the indoor side surface,
Vertical joints structure and at least one of the second protrusions and the first protrusions, between the recessed portion of the uneven surface, characterized in that the gap for drainage is formed . A vertical joint structure formed between adjacent first and second panels, wherein
The first panel has a first ridge portion having a vertical direction as a longitudinal direction on a side end surface facing the second panel,
The second panel has a second ridge portion having a vertical direction as a longitudinal direction on the side end surface facing the first panel,
Between the first panel and the second panel
A packing disposed in a space between the first protrusion and the second protrusion;
A backup material disposed on the outdoor side of the first protrusion and the second protrusion;
And a sealant filling the space on the outdoor side of the backup material,
Vertical joints structure you characterized in that between at least one and said backup member, a spacer for forming a gap for drainage is located among the said second protrusions and first protrusions. The first protrusion has a first panel having a first protrusion having a longitudinal direction in the vertical direction and a second panel having a second protrusion having the longitudinal direction in the vertical direction. The second projection and the second projection are arranged to face each other through the packing,
A backup material is disposed on the outdoor side of the first protrusion and the second protrusion,
It is the construction method of the vertical joint place which fills the sealing material in the space of the outdoor side of the above-mentioned backup material,
The packing is
The first packing previously adhered to the indoor side portion of the tip end surface of the first protrusion and the second packing previously adhered to the indoor side portion of the tip end surface of the second protrusion are combined. Or the part adhered to the indoor side of the tip surface of the first protrusion or the second protrusion in advance,
When the packing is positioned in the area on the indoor side of the space between the first ridge and the second ridge, a drainage gap is formed between the backup material and the packing. construction method of vertical joints you, characterized in that. The first protrusion has a first panel having a first protrusion having a longitudinal direction in the vertical direction and a second panel having a second protrusion having the longitudinal direction in the vertical direction. The second projection and the second projection are arranged to face each other through the packing,
A backup material is disposed on the outdoor side of the first protrusion and the second protrusion,
It is the construction method of the vertical joint place which fills the sealing material in the space of the outdoor side of the above-mentioned backup material,
At least one of the first protrusion and the second protrusion has an uneven surface on the outdoor side,
Wherein the uneven surface be disposed against the backup material, construction method of a vertical joint you characterized in that the gap for drainage is formed between the recessed portion of the uneven surface and the backup material. The first protrusion has a first panel having a first protrusion having a longitudinal direction in the vertical direction and a second panel having a second protrusion having the longitudinal direction in the vertical direction. The second projection and the second projection are arranged to face each other through the packing,
A backup material is disposed on the outdoor side of the first protrusion and the second protrusion,
It is the construction method of the vertical joint place which fills the sealing material in the space of the outdoor side of the above-mentioned backup material,
The backup material has an uneven surface on at least one of a part corresponding to the first protrusion and a part corresponding to the second protrusion among the indoor side surfaces,
By placing the backup material against the first ridge and the second ridge and arranging the backup material, at least one of the first ridge and the second ridge and the concave and convex surface are recessed. between the parts, construction method of a vertical joint you characterized in that the gap for drainage is formed. The first protrusion has a first panel having a first protrusion having a longitudinal direction in the vertical direction and a second panel having a second protrusion having the longitudinal direction in the vertical direction. The second projection and the second projection are arranged to face each other through the packing,
A backup material is disposed on the outdoor side of the first protrusion and the second protrusion,
It is the construction method of the vertical joint place which fills the sealing material in the space of the outdoor side of the above-mentioned backup material,
By arranging a spacer between at least one of the first protrusion and the second protrusion and the backup material, at least one of the first protrusion and the second protrusion may be provided. method of constructing a vertical joint you characterized in that the clearance for waste water is formed between the backup material.

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