JP6567862B2 - Mounting structure of building material having unevenness adjustment function and mounting structure of storage unit using the building material - Google Patents

Description

The present invention relates to a building material mounting structure , and more particularly to a building material mounting structure having an unevenness adjusting function that is used in contact with a fixed portion.

  When construction is performed with the abutment surface of the building material in contact with a fixed part such as a wall or floor, if there is unevenness in the fixed part, the fixed part and the contact surface of the building material are There is a problem that gaps occur between them and the appearance is not good.

  As a method for improving the above problem, it is generally well known that a non-land adjuster is sandwiched between a fixed portion and a contact surface of a building material.

  For example, in the one disclosed in Patent Document 1, a foam having flexibility is interposed on the entire back side of the front panel between the base material and the front panel, and the unevenness is adjusted by adjusting the insertion length of the screw type screw. Like to do. In this case, the unevenness of the base material can be absorbed by the flexibility of the foam.

  Further, in Patent Document 2, a non-land surface adjustment material that can be elastically deformed is provided on at least one of the outer wall surface or the back surface of the exterior material, and the exterior material is fixed to the wall surface with a screw. A material has been proposed that absorbs irregularities on the outer wall surface by compressing and elastically deforming the unevenness adjusting material between them.

JP 2009-13739 A JP 2007-2433 A

  However, in the above-mentioned conventional Patent Documents 1 and 2, since the unevenness adjusting material that elastically deforms is interposed between the fixed portion and the contact surface of the building material, the building material is firmly and stably fixed to the fixed portion. There was a problem that it could not be installed.

This invention is made | formed in view of such a point, The objective is improving the non-land adjustment with respect to the to-be-fixed part which has unevenness by improving the contact structure of the building material constructed to a to-be-fixed part. An object of the present invention is to provide a building material mounting structure that can be securely and stably mounted.

  In order to achieve the above object, according to the present invention, a flat contact surface and a storage portion that is recessed from the contact surface are provided in the building material body, and the storage portion is provided with an elastically deformable unevenness adjusting material. By mounting so that it protrudes from the contact surface, the building material body can be firmly and stably attached to the wall surface of the building at the contact surface while adjusting the unevenness by elastic deformation of the unevenness adjusting material. .

Specifically, in the first invention, in the mounting structure for a building material having a non-landing adjustment function that is mounted and used in contact with the wall surface of the building, the building material has a flat contact surface. A building material main body made of a wood material provided to extend in the longitudinal direction is provided, and the abutting surface of the building material main body is attached to the wall surface among the corners in the width direction of the abutting surface of the building material main body. A storage portion that is cut out along the longitudinal direction over the entire longitudinal direction is provided at a corner portion that is located where it can be seen from the outside when used. When the protruding elastically deformable non-land adjuster is attached so that the outer end face is flush with the end face in the width direction of the building material and is used in contact with the wall surface of the building, The land adjustment material has a tip surface in the protruding direction whose wall is the above building The building is compressed in a direction pushed in the direction opposite to the projecting direction and accommodated in the storage portion, while the abutment surface of the building material main body is at least two places spaced apart in the longitudinal direction. It is contact | abutted to the wall surface of this.

  In the first aspect of the present invention, the storage portion that is recessed from the contact surface is provided over the entire length of the contact surface, and the unevenness adjusting material is attached to the storage portion. It can construct in the state which the fixed part of at least 2 places of the wall surface of contact | abutted. This makes it possible to fix the building material firmly and stably to the wall surface of the building as compared to the case where the entire surface of the unevenness adjusting material is interposed between the contact surface and the wall surface of the building as in the case of conventional building materials. Can be made.

Furthermore, when the building material is used in contact with the wall surface of the building, when viewed from the side surface of the storage unit side (notch portion side), the unevenness adjusting material having a predetermined width corresponding to the depth of the storage unit Is visible throughout the longitudinal direction. Thereby, for example, even when the wall surface of the building is uneven, it is possible to make the unevenness and curvature of the wall surface of the building difficult to see (not conspicuous) and improve the design.

  According to a second invention, in the first invention, when the building material is used in contact with the wall surface of the building, the unevenness adjusting material is at least partially flush with the contact surface. It is characterized by being pushed in.

  In the second invention, similarly to the first invention, the building material can be firmly and stably fixed to the wall surface of the building.

  According to a third invention, in the first invention, at least one spacer member made of a rigid member is attached to the wall surface of the building, and the building material main body is at least one of the contact surfaces. Is in contact with the spacer member, and at least one other part of the contact surface that is spaced apart in the longitudinal direction from the attachment position of the spacer member is in contact with the wall surface of the building. It is characterized by.

  In a fourth aspect based on the first aspect, at least two spacer members made of a rigid member are attached to the wall surface of the building apart from each other in the longitudinal direction, and the contact surface is The spacer member is in contact with at least two points spaced apart in the longitudinal direction.

  In these third and fourth inventions, a spacer member made of a rigid member is provided on the wall surface of the building, and the contact surface of the building material main body is in contact with this spacer member. Since the spacer member is made of a rigid material, the spacer member acts in the same manner as the wall surface of the building. That is, the building material can be firmly and stably fixed to the wall surface of the building.

  5th invention is either 1st-4th invention, The said building material main body is a elongate plate-shaped material, The said contact surface is on the surface or back surface of the said plate-shaped material. It is provided.

7th invention uses the building material as described in any one of Claims 1-4 as a left-right side board, and connects between the top plate which connects between the upper ends of the said left-right side board, and the lower end of the said left-right side board. In the mounting structure of a storage unit made of a wood material of a rectangular frame shape provided with a bottom plate, the left and right side plates are plate materials that are fixed and constructed on the wall surface of the building, and the contact surfaces of the left and right side plates Is provided on the wood end surface of the plate-like material, and the wood end surface is constructed in contact with the wall surface of the building.

In these fifth and seventh inventions, the building material main body is a plate-like material, and these building material main bodies can be firmly and stably fixed to the wall surface of the building.

A sixth invention is Oite to the first invention, the is the width of said storage unit, not land adjustment member, characterized in that the same.

As described above, according to the building material mounting structure of the present invention, a flat contact surface and a storage portion recessed from the contact surface are provided in the building material body of the building material, and the storage portion is elastically deformable. By attaching the unevenness adjustment material so that it protrudes from the contact surface, the unevenness adjustment material is used to adjust the unevenness while the contact surface of the building material main body and the fixed part are brought into direct contact with each other. Thus, the building material can be firmly and stably attached to the fixed portion.

FIG. 1 is a perspective view of a storage unit according to an embodiment of the present invention. FIG. 2 is an enlarged perspective view of the side plate. Fig.3 (a) is a left view which shows the state which fixed the side plate of the storage unit to the wall, FIG.3 (b) is the right view. FIG. 4 is a partially enlarged view of a region B in FIG. FIG. 5 is a cross-sectional view taken along line VV in FIG. FIG. 6 is a plan view in which the side plate according to the modification is fixed to the wall.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following description of the preferred embodiments is merely exemplary in nature and is in no way intended to limit the invention, its application, or its application.

  FIG. 1 shows the overall configuration of a storage unit A according to an embodiment of the present invention. The storage unit A is installed (constructed) so as to abut against a wall W such as an entrance or a living room, and is used for storing clothes, bags, shoes, and the like, for example.

  The storage unit A includes left and right side plates 1, 1, a partition plate 3 erected between the left and right side plates 1, 1, and a top plate 4 that connects between the upper ends of the left and right side plates 1, 1 and the partition plate 3. 4 and bottom plates 5 and 5 that connect the lower ends of the left and right side plates 1 and 1 and the partition plate 3, respectively, with a rectangular thin space between the rear ends of the left and right side plates 1 and 1. They are connected by a back plate 6 made of a plate material. As shown in FIG. 1, the storage unit A is fixed to the wall W so that a space of a predetermined height is formed between the floor F and the bottom plates 5 and 5. The partition plate 3 is erected on the front side of the back plate 6, and the space between the left and right side plates 1, 1 is partitioned into two chambers by the partition plate 3. Further, the front side of the storage unit A is opened, and a door for opening and closing the opening is not provided. Although not shown, a door that can open and close all or part of the front opening of the storage unit A may be provided.

  The back plate 6 includes an upper back plate 6a, a middle back plate 6b, and a lower back plate 6c. Specifically, the lower back plate 6c is integrally formed so as to extend downward from a corner portion on the back side of the lower end of the lower support 7b spanned on the lower side of the rear end of the left side plate 1 and the right side plate 1. The middle back plate 6b is fitted and inserted from above into a recess (not shown) provided at a corner on the upper end back side of the lower support 7b. In addition, on the upper side of the middle back plate 6b, an upper support 7a is integrally and continuously fixed over the rear end upper side of the left side plate 1 and the right side plate 1, and the upper side of the upper support 7a. The upper back plate 6a is fixed so as to extend continuously and integrally upward.

  At positions corresponding to the upper and lower supports 7a and 7b of the partition plate 3, rectangular cutout portions 31 and 31 that are slightly larger than the outer shape of the supports 7a and 7b and penetrate in the left-right direction are formed. Further, at the corners inside the rear ends of the left and right side plates 1 and 1, at positions corresponding to the upper and lower supports 7a and 7b, from the outer shape of the supports 7a and 7b so as to be fitted to the upper and lower supports 7a and 7b. A slightly large bottomed rectangular cutout 17, 17,... Is formed. Although not shown, for example, the upper and lower supports 7a and 7b are provided with connecting and fixing dowels protruding toward the front side, and the upper and lower portions of the notches 17, 17,... The inner walls facing the supports 7a and 7b are provided with bottomed dowel holes for fitting and fixing dowels protruding from the supports 7a and 7b, respectively, and the side plate 1 is supported by the upper and lower supports. It is comprised so that it can be fixedly supported by 7a, 7b.

  A movable shelf 8 configured to change the height position is suspended between the left side plate 1 and the partition plate 3. Similarly, the movable shelf boards 8 and 8 comprised so that a height position can be changed are spanned between the right side board 1 and the partition board 3. As shown in FIG. The structure which makes these movable shelf boards 8,8, ... movable can use the technique known conventionally. For example, although not shown, bottomed dowel holes (two front and rear) are formed on the inner surfaces 15 and 15 of the left and right side plates 1 and 1 (surfaces facing the partition plate 3) and the left and right side surfaces 32 and 32 of the partition plate 3, respectively. ) Are arranged side by side in the height direction, and the height position of the movable shelf plates 8, 8,... Placed on the upper portion of the dowel hole is changed by changing the height position of the step of the dowel hole into which the dowel is inserted. Just change.

  As shown in FIG. 2, the side plate 1 includes a plate-like side plate main body 10 made of a wood material, and an elastically deformable uneven adjustment material 19 attached integrally to the side plate main body 10. The side plate main body 10 is made into a predetermined size (for example, a thickness of 35 mm, a length of 1800 mm, and a width of 230 mm), and a coating process or a sheet winding process is performed on the surface thereof.

  The rear end surface 11 (wood end surface) of the side plate main body 10 has a predetermined depth over the entire length in the longitudinal direction of the side plate main body 10 at a corner portion located outside the storage unit A among the corner portions facing in the thickness direction. A stepped portion 13 is formed that is cut into a rectangular cross section at a length D1.

  The unevenness adjusting material 19 has a longitudinal dimension substantially the same as the length of the side plate body 10, a widthwise dimension perpendicular to the longitudinal direction is substantially the same as the width of the bottom surface 13 a of the stepped portion 13, and The height (the length in the width direction of the side plate main body 10) is higher than the height D 1 from the bottom surface 13 a of the step portion 13 to the rear end surface 11. The unevenness adjusting material 19 is fixed to the inner surface (at least one of the bottom surface 13a and the side surface) of the stepped portion 13 using an adhesive or the like, and the rear end surface of the unevenness adjusting material 19 in the attached and fixed state. (End surface on the outside in the protruding direction) 19a is in a state of protruding from the rear end surface 11 toward the outer side in the width direction of the side plate 1 (a state of protruding from the rear end surface 11 by a predetermined height D2). The unevenness adjusting material 19 may be configured to be elastically deformable, and the material thereof is not particularly limited. For example, various cushion materials, foam materials, rubbers, and the like can be applied.

In FIG. 1 and FIG. 2, 14, 14,... Are upper and lower end surfaces of the side plate main body 10 of the side plate 1 (surfaces facing the ceiling or floor F after the installation of the storage unit A). Reference numeral 16 denotes a front end face of the side plate main body 10 (end face on the front side of the storage unit after installation of the storage unit A).
[Construction method of storage unit]
When constructing the storage unit A on the wall W, the operator first fixes the upper and lower supports 7a and 7b and the back plate 6 to the wall W. Specifically, for example, the lower support 7b to which the lower back plate 6c is integrally fixed is fixed to the wall W with screws or the like, and then the middle back plate 6b and the upper back plate 6a are integrally fixed. The upper support 7a is fixed to the wall W (FIG. 1 shows a state after construction).

  Next, the left and right side plates 1, 1 are applied to the wall W. Specifically, the operator first arranges the left and right side plates 1, 1 so that the rear end surfaces 11, 11 and the wall W face each other, and the stepped portion 13 faces the outside in the left-right direction of the storage unit A. Next, the dowels (not shown) of the upper and lower supports 7a and 7b fixed to the wall W and the dowel holes (not shown) provided in the notches 17 and 17 of the left and right side plates 1 and 1 are aligned. Thus, the rear end face 11 and the wall W are brought into direct contact with each other by pushing the left and right side plates 1 and 1 into the back side until the rear end face 11 comes into contact with the wall W. Thereafter, the left and right side plates 1, 1 and the upper and lower supports 7a, 7b are fixed with a knock-down fitting (not shown) or the like.

  Hereinafter, the contact state between the side plate and the wall W at this time will be described in detail with reference to FIGS. 3-5 is the figure which showed the state which made the right side board 1 contact | abut to the wall W, and was fixed (construction). FIG. 3A is a left side view showing the fixed state, and FIG. 3B is a right side view thereof. 4 is a partially enlarged view in which the vicinity of the upper and lower ends of the region B in FIG. 3A is enlarged, and FIG. 5 shows an example of a cross-sectional view taken along the line VV in FIG. It is a figure. As shown in FIGS. 3 to 5, the wall W is assumed to be a wall with unevenness (in FIGS. 3 to 5, the size of the unevenness is exaggerated).

  As shown in FIG. 3A, by pushing the right side plate 1 inward until the rear end surface 11 abuts against the wall W, the rear end surface 11 of the right side plate 1 moves up and down on the wall W where there is unevenness. It abuts against the wall W at at least two points apart. A contact portion on the wall W is defined as a fixed portion T.

  Here, a spacer member 9 made of a rigid material may be attached and fixed on the wall W in order to eliminate unevenness. Therefore, with reference to FIG. 4, with respect to the contact state between the rear end surface 11 of the right side plate 1 and the fixing portion T, there is no spacer member 9 (FIG. 4A), and there is a spacer member 9 (FIG. 4). (B) and (c)) will be described in more detail for each case. Such a spacer member 9 is used when, for example, the wall W is slightly inclined in a direction away from the rear end surface 11 with respect to the vertical direction as it goes to at least one of the vertical directions, and the like according to the degree of inclination. The thickness (for example, 1 mm) is determined and fixed with screws or the like. The spacer member 9 may be a rigid material, and the material is not particularly limited. For example, a highly rigid synthetic resin such as polypropylene, a metal, or the like can be applied. Further, the mounting position of the spacer member 9 is, for example, between the upper and lower supports 7a and 7b and the wall W. When the upper and lower supports 7a and 7b and the back plate 6 are installed on the wall W, the spacer 9 is attached. It inserts into the back side of the upper and lower supports 7a and 7b as necessary, and adjusts the inclination in the vertical direction.

  In the example of FIG. 4A, the rear end surface 11 is in contact with the fixing portions T, T,... On the wall W in at least two places including the vicinity of the upper end and the vicinity of the lower end of the right side plate 1. That is, in the example of FIG. 4A, the fixing portion T includes two or more fixing portions T, T,... On the wall W. As described above, the right side plate 1 is attached to the wall W while the rear end surface 11 of the right side plate 1 is in contact with the fixing portions T, T,. It is firmly attached to W. As a result, even if there is unevenness on the wall W, the right side plate 1 can be firmly attached to the wall W by direct contact with the wall W of the rear end face 11 and the stability of the fixation is fixed. Can also be improved.

  In the example of FIG. 4B, the rear end surface 11 abuts the fixed portion T on the wall W at at least one location including the vicinity of the upper end of the right side plate 1, while the wall W near the lower end of the right side plate 1. The outer surface of the upper one spacer member 9 (the surface facing the rear end surface 11 at the time of construction) is in contact with it as a fixed portion T. That is, in the example of FIG. 4B, the fixing portion T includes one or more fixing portions T on the wall W and one or more fixing portions T provided on the one or more spacer members 9. Become. In other words, the rear end surface 11 directly contacts the fixed portion T on the wall W at one or more locations, and directly contacts the fixed portion T of the spacer member 9 at one or more locations. Here, since the spacer member 9 is made of a rigid material, the rear end surface 11 is directly attached to the fixed portion T on the wall W by performing the construction in a state where the rear end surface 11 and the fixed portion T of the spacer member 9 are in contact with each other. It is possible to perform the strong fixation equivalent to the case where the attachment is performed in contact with each other, and the fixation is highly stable.

    In the example of FIG. 4C, the rear end surface 11 is in contact with the fixing portion T of the spacer member 9 in the vicinity of the upper end and the lower end of the right side plate 1. That is, in the example of FIG. 4C, the fixing portion T includes the fixing portion T on each spacer member 9 with respect to two or more spacer members 9, 9,. In other words, in the vertical direction of the rear end surface 11, the spacer member 9 is in direct contact with the fixed portion T at two or more locations. Here, as in the case of FIG. 4B, the spacer member 9 is made of a rigid material. Therefore, the rear end surface 11 is constructed in a state in which the rear end surface 11 is in contact with the fixing portion T of the spacer member 9. Can be firmly fixed in the same manner as when directly attached to the fixing portion T on the wall W, and the fixing stability is also high.

  As described above, in the state where the side plate 1 is pushed into the back side (the wall W side) and the rear end surface 11 is in contact with the fixed portion T, the unevenness adjusting member 19 is in the direction of the thickness of the rear end surface 11 and the side plate. In an adjacent position, the wall W and the step portion 13 are compressed and deformed. Specifically, as shown in FIG. 3B and FIG. 5, the unevenness adjusting member 19 is disposed on the rear side of the side plate body 10 in a state where the rear end surface 11 of the side plate body 10 and the fixing portion T are in contact with each other. The unevenness of the wall W that is compressed in the stepped portion 13 until it becomes substantially flush with the rear end surface 11 at a position adjacent to the end surface 11 in the side plate thickness direction and the rear end surface 19a of the non-land adjustment material 19 contacts. It is elastically deformed so as to close the gap with the wall W along the unevenness. In such a state, when viewed from the outside of the storage unit A (on the right side of the right side plate 1 or on the left side of the left side plate 1), the stepped portion 13 is formed between the rear end of the side plate 1 and the wall W over the entire vertical direction. The unevenness adjusting material 19 having a width corresponding to the depth D1 can be seen.

  After the side plate 1 is constructed on the wall W as described above, the top plates 4, 4, the bottom plates 5, 5 and the movable shelf plates 8, 8, 8 are attached and the construction is completed. For this attachment, a conventionally known technique can be used. For example, it can be attached using a dowel, a knock-down fitting, or the like.

  Therefore, according to this embodiment, the rear end surface 11 of the side plate 1 can be brought into contact with the fixing portions T, T,... At least in two places. The side plate 1 can be firmly and stably fixed to the wall W as compared with the case where the land adjustment material is interposed. As in the prior art, when the unevenness adjusting material is interposed between the entire abutment surface of the building material and the wall, there is no portion where the building material and the wall abut, so that strong fixation is prevented, and However, in some cases, such stability does not occur.

  Further, according to the present embodiment, when the rear end surface 11 of the side plate 1 and the fixing portion T on the wall W are in contact with each other, the unevenness adjusting material 19 is deformed along the shape of the wall W, and the side plate When the storage unit A is viewed from the outside of 1, the gap between the rear end surface 11 of the side plate 1 and the wall W is closed, and a step is formed between the rear end surface 11 of the side plate 1 and the wall W over the entire vertical direction. The unevenness adjusting material 19 having a width corresponding to the depth D1 of the portion 13 is visible. Thereby, for example, even when the wall W is uneven, the side plate 1 provided with the unevenness adjusting material 19 having a predetermined width D1 at first glance can be constructed on a flat wall. . That is, by making the unevenness adjusting material 19 having the predetermined width D1 appear positively, at first glance, it appears as if the gap between the rear end surface 11 of the side plate 1 and the wall W is constant over the entire vertical direction. .

  Here, for example, when the unevenness adjusting material 19 is attached to the side plate body 10 without providing the step portion 13, the gap between the rear end surface 11 and the wall W of the side plate 1 in the vertical direction is There is a gap between the position where the side plate 1 and the wall W are close to each other with almost no gap between the rear end surface 11 and the wall W, and the rear end surface 11 and the wall W of the side plate 1. The location where the material 19 is allocated may occur. Then, since the appearance is remarkably different between the place where the rear end surface 11 of the side plate 1 and the wall W are close to each other and the place where there is a gap between the rear end face 11 of the side plate 1 and the wall W, the unevenness of the wall And the curvature is conspicuous, and there is a problem that the design property is deteriorated.

  In addition, when the entire surface of the unevenness adjusting material is interposed between the contact surface and the fixed part as in the case of conventional building materials, in order to prevent the unevenness and curvature of the wall from being noticeable, Although it is conceivable to increase the thickness of the layer having the property, there is a problem that the building material cannot be firmly and stably attached to the fixed portion. Furthermore, since the predetermined thickness is required after the unevenness adjusting material is elastically deformed, there is a problem that the cost of the member increases.

  On the other hand, according to this embodiment, as described above, the unevenness corresponding to the depth D1 of the step portion 13 at the boundary portion between the side plate 1 and the wall W (contact surface Wc) over the entire vertical direction of the side plate 1. Since the adjustment material 19 is visible, even when there is a place where there is no gap between the storage unit and the wall W (side plate 1) and a place where there is a gap in the vertical direction, it becomes difficult to distinguish the difference in the gap between the building material and the wall. That is, it becomes easy to see a clearance gap uniformly, and the design property can be improved.

  Furthermore, the gap between the building material (side plate 1) and the wall W is easily adjusted while maintaining the fixing strength and stability between the building material (side plate 1) and the wall W by changing the depth D1 of the stepped portion 13. be able to. Thereby, for example, it can be seen between the building material and the wall according to the non-landing state of the fixed part such as the wall (for example, the uneven state or the curved state of the wall W) or the place where the building material is installed or attached. There is an advantage that the width of the unevenness adjusting material can be adjusted.

  The preferred embodiments of the present invention have been described above, but the technology in the present disclosure is not limited to this, and can be applied to embodiments that have been appropriately changed, replaced, added, omitted, and the like.

(Other embodiments)
In the above-described embodiment, the unevenness adjusting material 19 is attached to the step portion 13 having an L-shaped cross section provided at the corner portion of the side plate body 10, but is not limited thereto.

  For example, as shown in FIG. 6, a groove 18 extending in the entire longitudinal direction is provided at the center in the thickness direction on the rear end face 11 side of the side plate body 10, and the unevenness adjusting material 19 is attached in the groove 18. Good. More specifically, the unevenness adjusting member 19 is attached and fixed to the groove 18 so as to protrude from the rear end surface 11 by a predetermined height, as in the above-described embodiment. As shown in FIG. 6, when the rear end surface 11 of the side plate 1 is in contact with the fixing portion T of the wall W, the rear end surface 19a is compressed and deformed so as to follow the shape of the contact surface Wc. It is configured. Other configurations and construction methods are the same as those in the above-described embodiment and modification. In addition, in FIG. 6, the state before the rear-end surface 19a of the unevenness adjusting material 19 is compressively deformed by the virtual line is shown.

  As described above, even when the unevenness adjusting material 19 is attached to the groove 18 provided in the side plate body 10, the rear end surface 11 and at least two fixing portions can be brought into contact with each other. It can be firmly and stably fixed to the wall W. Moreover, since it can be made to contact | abut with a wall in the plate | board thickness direction both sides of a groove | channel by providing such a groove | channel, there exists a merit which can be made to contact | abut more stably. In addition, the position of the groove | channel 18 is not limited to the center of a plate | board thickness direction, You may be brought close to either one side of a plate | board thickness direction.

  In the above embodiment, the example in which the fixing portions T are provided at the upper and lower ends of the right side plate 1 one by one in FIG. 4 is shown. However, the positions of the at least two fixing portions T are on the right side. It is not limited to the positions of the upper and lower ends of the plate 1. For example, in the intermediate part of the building material, the abutment surface of the building material main body may abut against at least two spaced apart fixing parts provided on the fixed part. You may contact | abut at least 2 fixed parts which are spaced apart. Moreover, in said embodiment, the one fixing | fixed part T consists of several fixing | fixed part T, T, ..., and the fixing | fixed part T consisting of this some fixing | fixed part T, T, ... is spaced apart in two or more places. The rear end surface 11 of the side plate main body 10 may be in direct contact with the wall W at the two or more locations.

  In the above embodiment, the building material is the right side plate 1 of the storage unit A, and the unevenness adjusting material 19 is provided at a position facing the wall W. However, the present invention is not limited to this. For example, the right side plate 1 according to the present embodiment can be applied to the left side plate 1 of the storage unit, and is not limited to the side plate 1 and can be applied to other building materials. Specifically, it can be widely applied as a plate-shaped building material used for general storage unit products, partitioning materials for simple spaces, and the like. In this case, a stepped portion may be provided on the end face or the end face of the tree. For example, in the example of FIG. 1, the storage unit A is installed with a space having a predetermined height from the floor F. However, the storage unit A is installed on the floor F in a mounted state, and the side plate 1 You may apply this invention with respect to the contact surface of the lower end surface 14 and the floor board F of this. In this case, a step portion 13 may be provided at the corner portion connecting the lower end surface 14 and the surface 12 of the side plate 1, and the unevenness adjusting material 19 may be attached to the step portion 13.

  Further, for example, when the storage unit A extends to the ceiling, a step portion 13 is provided at a corner portion connecting the upper end surface 14 and the surface 12 of the side plate 1, and the unevenness adjusting material 19 is provided on the step portion 13. It may be attached.

  Further, for example, when a simple space partition member extending from the indoor floor F to the ceiling is attached, the corner angle between the partition member and the floorboard or between the partition member and the ceiling is the same as in the case of the above storage unit. A step portion may be provided in the portion, and the unevenness adjusting material may be attached to the step portion. In the application example described above, a groove portion as shown in FIG. 6 may be provided instead of the step portion.

  Furthermore, the building material which concerns on this invention is applicable to plate-shaped materials, such as a crosspiece extended in the left-right direction of a wall, for example. In this case, for example, a step portion is provided at a corner portion connecting the contact surface (the front surface or the back surface of the plate-like material) and the upper and lower end surfaces with the wall of the crosspiece, or a groove portion is provided on the contact surface. What is necessary is just to attach the unevenness adjustment material which consists of elastic materials there.

  The present invention can firmly and stably fix the building material to the fixed part, and can improve the design, so that it can be applied to general storage products fixed to walls and floors, crosspieces, and the like. It is possible and has high industrial applicability.

1 Side plate (building material)
9 Spacer member 10 Side plate body (building material body)
11 Rear end surface (contact surface)
13 Stepped portion 18 Groove 19 Unevenness adjusting material W Wall (fixed portion)
T fixing part (first fixing part, second fixing part)

Claims (7)

A building material mounting structure having a non-landing adjustment function that is used in a state of being in contact with a wall surface of a building,
The building material includes a building material body made of a wood material provided such that a flat contact surface extends in the longitudinal direction,
The abutment surface of the building material main body has a longitudinal corner portion located at a location that is visible from the outside when used attached to the wall surface, among the corner portions in the width direction of the abutment surface of the building material main body. A storage part that is cut out along the longitudinal direction over the entire direction is provided,
An elastically deformable non-land surface adjustment material protruding from the abutment surface is attached to the storage unit such that an outer end surface is flush with an end surface in the width direction of the building material ,
When used in contact with the wall surface of the building, the unevenness adjusting material is in a compressed state in which the front end surface in the protruding direction is pushed in the direction opposite to the protruding direction by the wall surface of the building. The contact surface of the building material main body is in contact with the wall surface of the building in at least two places spaced apart in the longitudinal direction while being accommodated in the storage portion. Functional building material mounting structure. In claim 1,
The non-land surface adjusting material is pushed in until at least a part of the building material is flush with the contact surface when the building material is used in contact with the wall surface of the building. Building material mounting structure with adjustment function. In claim 1,
At least one spacer member made of a rigid member is attached to the wall surface of the building,
In the building material main body, at least one of the contact surfaces is in contact with the spacer member, while at least another of the contact surfaces spaced apart in the longitudinal direction with respect to the mounting position of the spacer member. A mounting structure for a building material having an uneven adjustment function, wherein one place is in contact with a wall surface of the building. In claim 1,
At least two spacer members made of a rigid member are attached to the wall surface of the building apart from each other in the longitudinal direction,
The mounting structure for a building material having a non-land adjustment function, wherein the contact surface is in contact with the spacer member at at least two points spaced apart in the longitudinal direction. In any one of Claims 1-4,
The building material body is a long plate-shaped material,
The mounting structure for a building material having an unevenness adjusting function, wherein the contact surface is provided on a front surface or a back surface of the plate-like material. In claim 1,
A building material mounting structure having a non-land adjustment function, wherein the non-land adjustment material has the same width as the storage portion . The building material according to any one of claims 1 to 4 is used as a left and right side plate, and includes a top plate that connects the upper ends of the left and right side plates and a bottom plate that connects the lower ends of the left and right side plates. A storage unit mounting structure made of frame-like wood material,
The left and right side plates are plate-like materials that are fixed and constructed on the wall surface of the building,
The contact surface of the left and right side plates is provided on a tree end surface of the plate-like material, and is constructed with the tree end surface being in contact with a wall surface of the building. Storage unit mounting structure using building materials.

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