JP2004316197A - Handrail unit for stairway, and its mounting structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a handrail unit for a stairway and the mounting structure of the handrail unit easily detached, rapidly and easily mounted and fixed and having excellent workability and appearance. <P>SOLUTION: This handrail unit for the stairway comprises handrail bodies 1, 2, 3; baluster bodies 11, 21, 31 having rugged joint parts at the upper and lower parts; and handrail fixing bodies 13, 29 and dovetail recessed part 41 for mounting and fixing the baluster bodies 11, 21, 31 onto treads 4 or side plates. The baluster bodies 11, 21, 31 have projecting joint parts fitted to recessed joint parts disposed at the handrail bodies above, and projecting joint parts fitted to recessed joint parts formed at the baluster fixing bodies 13, 29 mounted and fixed to the treads 4 or side plates (not shown in the figure) below. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a handrail unit for stairs which is detachable, can be quickly and easily attached and fixed, is excellent in workability and appearance, and has a mounting structure therefor.
[0002]
[Prior art]
Conventionally, as the stairs, there are various stairs such as a box stair, a side girder stair, a power girder stair, and a sasara girder.
As shown in Non-Patent Document 1, a handrail main body 91 (also called a Kasagi), a handrail main body 92 supporting the handrail, and a lower portion of the handrail main body 92 are provided in these various stairs. It is supported by a step board 4. The upper part of the handrail main body 92 is attached and fixed to the lower part of the handrail main body by nailing via a mounting bracket 293. The lower part of the handrail main body 92 is attached and fixed in a through hole 40 provided in the tread plate 4 via a bolt, a nut 923, a washer 924, and the like.
[0003]
On the other hand, as a Western style stair, as shown in FIG. 12, a concave hole 41 is provided in the tread plate 4, and the lower convex portion 921 of the handrail body 92 is fitted into the concave hole 41, so that the tread plate 4 The handrail main body 92 is erected on the upper side.
The upper part of the handrail main body 92 is attached and fixed to the mounting notch 910 of the handrail main body 91 via an adhesive.
[0004]
As shown in FIGS. 13 and 14, the handrail body 95 having a circular cross section is attached and fixed to the parting plate 97 via a bracket 96 by nailing.
On the other hand, according to Patent Document 2, as shown in FIG. 14, a handrail joint fitting 8 of a handrail body 95 having a circular cross section is disclosed. This handrail joint fitting 8 is configured to fit the convex joint 81 into the concave joint 82 and integrate them.
Further, according to Patent Document 3, as shown in FIG. 15, “a handrail unit 7 and a handrail construction method using the same” is disclosed.
[0005]
[Non-patent document 1]
"Illustration, Introduction to Wooden Architecture" Issued by Inoue Shoin
[Patent Document 2]
JP-A-8-53918
[Patent Document 3]
JP-A-11-50628
[0006]
[Problems to be solved by the invention]
However, the conventional handrails for stairs or the metal fittings thereof have the following problems.
First, as shown in FIG. 11, the stair handrail unit 9 disclosed in Non-Patent Document 1 has a complicated work of attaching and fixing the handrail main body 92, and its appearance is not good.
Next, when the depth of the recessed hole 40 and the mounting notch 910 is small, the Western style staircase (staircase disclosed in FIG. 11) can easily mount the handrail element body 92 by mounting only the adhesive. May be removed.
[0007]
On the other hand, the handrail main body 8 having a circular cross section disclosed in Patent Literature 2 is not detachable, and is inconvenient at the time of repair and replacement because the concave-convex fitting joint is completely integrated.
Patent Document 3 discloses a “handrail unit and a method for constructing a handrail using the handrail unit” 7 in which the mounting location is limited to the side wall of the stairs, and requires a large number of unit members 70, 71, 72. Installation is not easy.
[0008]
Therefore, the present invention has been made in view of the above-mentioned conventional problems, and a title to be solved by the present invention is a handrail for stairs which is detachable, quickly and easily attached and fixed, and which is excellent in quick and easy appearance and aesthetic appearance. It is an object to provide a unit and a mounting structure thereof.
[0009]
[Means for Solving the Problems]
Means taken by the present invention to solve the above problems are as follows. In addition, in order to explain the content of the present invention more concretely, the following description is given with reference numerals used in the embodiments.
[0010]
Means adopted by the invention according to claim 1 are: handrail bodies 11, 21, 31; handrail bodies 12, 21, 33 having upwardly and downwardly projecting joints; and handrail body 12, A stair handrail unit 1, 2, 3 comprising handrail fixing bodies 13, 29 for attaching and fixing the handrails 21 and 33 on a handrail body, a tread plate 4 or a side plate (not shown), and a dovetail recess 41,
The handrail main body 12 has a convex joint 14, a head cylindrical part 134, and a protruding cylindrical part 143 which are fitted with the concave joint 10 formed on the handrail main body 11 at the upper part, and at the lower part. Coil spring built-in protruding ball engaging body 14 fitted with concave joint 10 provided on handrail holder fixing body 13, 29 mounted and fixed on tread plate 4 or side plate (not shown), head cylindrical part 134, protruding cylindrical part 143 is provided.
This makes it possible to obtain a stair handrail unit that is detachable, quickly and easily attached and fixed, and has excellent workability and appearance.
Next, the means according to the second aspect of the present invention is that the concave joint portion 10 formed in the handrail main body 11, 21, 31 includes a screw-shaped annular concave portion, a projecting ball engaging body 14 with a built-in coil spring, a head column. The recess 134 is one of the insertion recess of the protruding columnar portion 143, the leaf spring engagement recess 20 of the ring-shaped projection engagement members 191 to 194, and the stepped dovetail recess 300.
As a result, the convex joints 14, 20, 34 formed above the handrail body 12, 21, 33 can be easily inserted and removably fitted.
[0011]
According to a third aspect of the present invention, the handrail fixing members 13 and 29 are formed on the screw-shaped projecting cylindrical portion 130 projecting to the center and the outer peripheral edge of the screw-shaped projecting cylindrical portion 130. It is either a screwed annular body 130 having a spiral annular recess 132 or an annular body 2900 with a built-in coil spring having an annular recess 290 near the outer peripheral edge of an elliptical wing insertion hole 294 in the center. is there.
Thereby, the handrail body 21 is rotated and fitted to the handrail fixed bodies 13 and 29 attached and fixed on the tread plate 4 or the side plate (not shown), or the handrail body 12 is pushed downward. It can be mounted and fixed on the tread plate 4 or the side plate, and can be erected quickly and easily.
[0012]
A fourth aspect of the present invention is characterized in that the threaded annular body 130 is made of metal or plastics.
Thereby, the threaded fitting body 130 having various shapes and excellent in durability and workability can be detachably and quickly and easily fitted.
According to a fifth aspect of the present invention, the annular body with built-in coil spring 2900 is any one of a leaf spring, iron, aluminum, copper, brazing, an iron alloy, and an aluminum alloy. It is a handrail unit for stairs. Thus, by pushing up the handrail body 21 or pressing down the concave joint portion 10 of the handrail body 21 so that the ring-shaped leaf spring retaining concave aggregate 200 is fitted, the convex joint portion is connected to the concave joint portion 10. , 20, 30 can be quickly and easily attached and fixed.
[0013]
According to a sixth aspect of the present invention, there is provided the leaf spring concave-convex aggregate 200 which is an aggregate of leaf springs having at least a pair of upper and lower coil spring petal streamlines 201. .
Thereby, the leaf spring petal streamliner 201 as a leaf spring assembly can be detachably and quickly and easily formed in the concave joint portion 10 of the handrail body 21.
[0014]
The means according to the invention described in claim 7 is that the stepped dovetail recess 30 formed by the joint surface 270 of the handrail body 21 or the bottom recess cutout (not shown) is formed as a flat rectangular parallelepiped recess 301. And a combined body with the conical concave portion 302 connected to the main body.
Thus, by using the joint of the handrail main body 21, the concave joint 10 having a predetermined shape can be easily formed from the joint surface side or the bottom concave notch.
A means adopted by the invention described in claim 8 is that the cylindrical body 2900 with a built-in coil spring in the handrail fixing body 13 has an annular concave portion 290 having a nail hole near the outer peripheral edge. is there.
Thus, the handrail fixing body 13 can be detachably mounted on the tread plate 4 or the side plate (not shown) with the screw nail 6 or the like, and can be quickly and easily attached and fixed.
[0015]
According to a ninth aspect of the present invention, the elliptical wing portion 24 is provided below the handrail body 33, and the screw column portion 28 is provided below the wing portion 24. Things.
As a result, the screw-shaped cylindrical portion 28 of the handrail body 33 is fitted into the threaded cylindrical hole 299 of the cylindrical body 2900 with a built-in coil spring, and the elliptical wing 25 pushes the handrail body 33 downward. When the handrail body 33 is rotated by a predetermined angle (for example, 45 degrees to 90 degrees) when inserted into the handrail fixed body 29 through the elliptical wing insertion hole 294, the upward biasing force of the coil spring 291 is provided. The oval wing 25 is attached and fixed in the oval wing insertion hole 294.
[0016]
According to a tenth aspect of the present invention, the handrail body 21 is attached and fixed in a state where the umbrella-shaped cover 25 is detachably screwed above the elliptical wing portion 211 below and above the elliptical wing portion 211. It is characterized by being performed.
Thereby, the entire appearance of the annular body 2900 with a built-in coil spring and the entire periphery thereof is improved by covering the tread plate 4 or the side plate (not shown).
The means according to the invention described in claim 11 is characterized in that a dovetail with a step is provided at an upper part, and the handrail body 31 is provided with a dovetail at a lower part. Things.
As a result, when the dovetail projection (also referred to as a dovetail pattern) 332 is fitted into the recessed joint 10 formed on the tread plate 4 or the side plate (not shown), the handrail body 33 is fitted after the fitting. Cannot be pulled out upward, and can be firmly fitted and fixed.
[0017]
After fitting the joining protrusions formed at the lower part of the handrail body 11, 21, 33 into the joining recess of the handrail fixing body 13, 29, it is formed at the upper part of the handrail body 11, 21, 33. A stair handrail unit mounting structure, characterized in that a joining protrusion formed on the upper part of the handrail element body 11, 21, 33 is fitted in the joining recess.
Thereby, the handrail body 11, 21, 33 can be erected on the tread plate 4 quickly and easily.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiments of the present invention will be described specifically and in detail together with embodiments of the present invention based on the drawings and corresponding to claims 1 to 11 and embodiments 1 to 3.
[0019]
First, handrail units 1, 2, and 3 for stairs according to the present invention include handrail bodies 11, 21, and 31, handrail bodies 12, 21, and 23 having upper and lower joints, and the handrails. It is composed of handrail fixing bodies 13 and 29 for attaching and fixing the main bodies 12, 21 and 23 on the tread plate 4 or the side plate (not shown) (see FIGS. 1, 2 and 5).
FIG. 1 is a cross-sectional view of a handrail unit 1 for stairs according to a first embodiment at a central portion thereof.
The handrail main body 11 has cross sections of various shapes as shown in FIG. The handrail body 11 is made of, for example, laminated wood, particularly dimensionally stable wood, formal wood, reinforced wood, in which wood fibers are arranged in multiple directions. Further, the handrail body 11 can be made of various plastics. In this case, a predetermined shape is extruded or injection molded.
The concave joint portion 10 formed inside the handrail main body 11 is engraved from the joint surfaces (chain line portions) 110 and 270 when the handrail main body 11 having a predetermined shape is manufactured from the above-described laminated material. Is preferred. The concave joint portion 10 has a size and a space that can be fitted below the head cylindrical portion 134, the coiled-body built-in projecting ball engaging body 14, and the projecting cylindrical portion 143 formed below the handrail body 12 described later. Therefore, it is preferable that the concave joint portion 10 has a similar shape to the head cylindrical portion 134, the projecting ball engaging member 14 with a built-in coil spring, and the projecting cylindrical portion 143, or a slightly larger corresponding shape.
[0020]
Next, the projecting ball engaging body 14 with a built-in coil spring has, for example, a coil spring 144 inside a metal cylindrical body, and a metal spherical object (a spherical object such as a slingshot or a bearing ball) at both ends thereof. This is an engaging tool that can be moved in and out by approximately one third of the whole. The handrail body 12 is formed of an elongated cylindrical object. This cylindrical object is made of metal or plastics. The metal thing is cast-molded, for example. Plastics are extruded or injection molded.
[0021]
It should be noted here that the handrail body 12 has the projecting ball engaging body 14 with a built-in coil spring, the projecting column 143, and the head column 134 in the upper part, and the outside and the inside in the lower part. And a screw-shaped cylindrical portion 121 in which a screw groove or a screw protrusion of the same pitch is formed. Thus, while rotating the entire handrail body 12, the handrail body 12 fits into the screw-shaped annular recess 132 having the thread groove 131 formed in the handrail fixed body 13, and the handrail body 12 is handrailed. It will be erected on the fixed body 13. This corresponds to the handrail fixed body according to claim 3. Note that a nail hole is provided below the screw-shaped annular concave portion 132.
[0022]
The handrail fixed body 13 can be made of metal or plastics. The metal handrail fixing body 13 is formed by, for example, casting or metal working. The handrail fixing body 13 made of plastics is formed by extrusion molding or injection molding.
The handrail fixed body 13 forms an annular recess 132 having substantially the same shape or a slightly larger similar shape as the handrail fixed body 13 on the tread plate 4 or the side plate (not shown), and the screw nail 6 and, if necessary, Attach and fix with adhesive 5.
The entire boundary of the engagement line formed between the handrail fixed body 13 and the tread plate 4 is covered by a notch-shaped flange 128 formed below the handrail body 12. Thereby, the handrail main body 12 erected on the tread plate 4 has good appearance and excellent appearance and aesthetics.
[0023]
Next, as shown in FIGS. 2 to 4, the stairs handrail unit 2 includes a handrail main body 21, a handrail main body 21, and a coil spring built-in ring 2900 formed on the tread plate 4.
As shown in FIG. 2, the handrail main body 21 has a projecting ball engaging body 14 with a built-in coil spring, a cylindrical portion 22, and a head 221 in an upper portion. This corresponds to the second embodiment.
Further, as shown in FIG. 2, the handrail body 21 has an elliptical wing portion 25 and a screw column portion 28 in a lower portion. This corresponds to the handrail body 21 according to the ninth and tenth aspects. Further, the elliptical wing portion 25 is provided above the screw column portion 28, and is fitted at a lower portion of the handrail main body 21.
[0024]
Next, the step diagram in FIG. 3 is a part of a cross-sectional view at the center of the handrail main body 27 according to the handrail unit 2 for stairs, and a joining portion 270 of a chain line portion is a joining portion of the handrail main body 21. .
The conical recess 20 is formed from the joint surface side of the handrail main body 21. In addition, the leaf spring concave-convex assembly 200 is disposed radially around the concave-joint 20 (FIG. 3, lower diagram). The lower part of FIG. 3 is a bottom view of the handrail body 21 (the upper part of FIG. 3) as viewed from below.
Further, the leaf spring assembly 270 has eight upper petal deformed bodies 271 and 272 and eight lower petal deformed bodies 273 and 274 each arranged in a petal (petal) or radial shape around the concave joint 20. I have. This corresponds to the plate spring retaining recessed assembly 200 described in claim 6.
In addition, the leaf spring assembly 200 and the handrail body 21 formed by the upper petal deformed bodies 271 and 272 and the lower petal deformed bodies 273 and 274 in the conical concave as the concave joint 20 in the upper diagram of FIG. The head 221, the ring-shaped protruding engagement body 220, and the protruding columnar portion 22 are represented in a side view.
[0025]
FIG. 4 is a plan view showing a state where the annular body 2900 with a built-in coil spring is arranged on the tread plate 4.
Therefore, the shape structure and function of the coil spring built-in annular body 2900 will be described with reference to the cross-sectional view of the coil spring built-in annular body 2900 shown in the lower part of FIG. 2 and the plan view of the coil spring built-in annular body 29 of FIG.
First, in the lower diagram (cross-sectional view) of FIG. 2, the coiled spring-containing annular body 2900 as the handrail fixing body 29 is fitted with the threaded cylindrical portion 28 disposed at the center below the handrail body 21. It has a threaded cylindrical recess 299 that mates, and has an annular recess 290 near its outer periphery. The annular recess 290 has a screw hole into which the screw nail 6 can be fitted.
An annular body 2900 with a built-in coil spring as the handrail fixing body 29 is disposed below the handrail element main body 21 inside the handrail fixing body 29 connected to the screw cylindrical concave portion 299 and the handrail fixing body 29 connected thereto. It has an elliptical wing insertion recess 292 into which the formed elliptical wing 25 can be inserted. As shown in FIGS. 2 and 4, the elliptical wing insertion recess 292 has an elongated upper elliptical wing insertion hole 294, a cylindrical hole 297 communicating therewith, and an elliptical wing main body insertion hole 297. Communicate with
[0026]
It should be noted here that, as shown in FIG. 4 (a plan view), a part of the elliptical wing part main body insertion hole 294 is a part of both ends of a flat ellipse, and the other part is circular. It is doing. Therefore, the annular body 2900 with a built-in coil spring is configured such that a part thereof is the elliptical wing part locking part 298 and the other part is a circular dome shape communicating with the wing part locking part 298.
Therefore, as shown in FIG. 21, the elliptical wing insertion recess 292 has a cylindrical upper part 242 in an upper part thereof, an elliptical wing part locking hole 294 connected thereto in a lower part thereof, and an elliptical wing part. The upper part of the locking hole 294 has a cross-sectional shape including the locking projection 241 of the elliptical wing part 24.
[0027]
It should be further noted that an elliptical wing urging plate 298 that moves up and down by the urging force of the coil spring 291 is provided on the bottom surface of the elliptical wing insertion hole 294.
As shown in FIGS. 2 and 4, a central portion of the elliptical wing portion urging plate 298 has a threaded cylindrical recess at a central portion of the threaded cylindrical hole 298, as shown in FIGS. 299. As shown in FIG. 2, the screw-shaped cylindrical concave portion 299 rotates the handrail body 21 while fitting the screw-shaped cylindrical portion 28 at the lowermost end of the handrail body 21 to rotate the elliptical wing portion 24. Plays a role of rotating to a predetermined position. Thereby, the elliptical wing 25 moves to the position of the locking projection 241 of the elliptical wing locking hole 294, and the handrail body 21 can be erected in the handrail fixed body 29.
[0028]
Therefore, a cylindrical concave portion 2910 containing the coil spring 291 is formed below the elliptical wing locking hole 294. Then, the coil spring 291 elastically contracts when the handrail body 21 is pushed downward, and thereafter expands and contracts so that a biasing force acts upward. As a result, the handrail element main body 21 is erected on the handrail fixed body 29 with the elliptical wing portion 24 locked in the oval wing portion locking hole 294. 2 and 4, the annular body 2900 with a built-in coil spring is attached and fixed in the recessed hole of the tread plate 4 with a screw 6 or an adhesive 5 as necessary.
[0029]
Further, as shown in FIG. 2, the umbrella-shaped cover 25 moves downward to the dashed line portion to cover the entire coil spring built-in columnar body 2900 and the concave hole. As a result, the handrail body 21 is erected on the tread plate 4 with a good appearance and an excellent appearance.
Therefore, according to the present invention, it is possible to provide the handrail unit 2 for stairs having an excellent appearance and beauty.
[0030]
Next, as shown in FIGS. 5 to 9, the stair handrail unit 3 includes a handrail main body 31, a handrail main body 33, and a dovetail recess 41 as the recess joint 20 formed on the tread plate 4. .
The handrail body 31 has a stepped dovetail recess 300 as shown in FIGS.
As shown in FIG. 7, the stepped dovetail recess 300 includes a connection hole formed by a flat hole 301, an inverted conical hole 303, and a rectangular hole 302. If the handrail body 31 is made of wood, the handrail body 31 is cut out from the joint surface 311 side or the cutout (not shown) on the bottom surface. When the handrail body 33 is made of plastic, it is extruded or injection-molded.
[0031]
As shown in FIG. 8, a dovetail recess 41 is formed in the step board 4 from one end. Then, as shown in FIG. 8, after the handrail 33 is fitted and erected, the wooden plug 32 is fitted.
As shown in FIG. 6, the handrail main body 33 has a convex joint portion 34 composed of a stepped dovetail mortice convex portion 330, 331 at an upper portion, and has a dovetail mortise convex portion 332 at a lower portion.
As shown in FIG. 6, as the mounting structure of the stair handrail unit 3, the dovetail dovetail projections 330 and 331 are inserted into the dovetail dovetail recess 300 formed as the recess joint part 30 formed in the handrail body 31. I do. A wooden plug 32 is inserted into the concave joint portion 30 other than the portion where the stepped dovetail convex portions 330 and 331 are fitted.
[0032]
On the other hand, below the handrail body 33, as shown in FIG. 9, the dove mortise projection 332 is fitted into a dovetail recess 41 formed in the tread plate 4.
A step 42 made of rubber or synthetic resin is attached to all ends of the tread plate 4. As a result, as shown in FIGS. 8 and 9, the dovetail recess 41 is entirely covered by the step 42. Thereby, the handrail main body 33 with good appearance is erected on the tread plate 4. Therefore, the handrail unit 3 for stairs of the present invention can provide the handrail unit 3 for stairs which is detachable and excellent in appearance. As described above, a wooden plug 32 is inserted into a portion of the dovetail recess 41 where the handrail body 33 is erected. In FIG. 5, a stepping plate 43 is formed on the stepping plate 4, and the stepping plate 4 is supported by a force beam 44 via a receiving stand 45.
[0033]
FIG. 10 is a sectional view showing various shapes of the handrail bodies 11, 21, and 31. (A) is a roughly kamaboko shape, (B) is a substantially circular shape, (C) is a substantially flat shape, (D) is a kamaboko deformation, (E) is a substantially oval shape, and (F) is a cross section of an inverted trapezoid shape It is shown.
[0034]
Hereinafter, preferred embodiments of the present invention will be specifically described with reference to the drawings. The following example is an embodiment of the present invention, and the technical scope of the present invention is not limited to this.
[0035]
(Example 1)
As shown in FIG. 1, the stair handrail unit 1 of the present embodiment includes a handrail main body 11, a handrail main body 12, and a threaded annular body 130 as a handrail fixing body 13.
The handrail main body 11 is made of laminated wood and has a substantially semi-cylindrical cross section. In addition, the handrail body 11 has a concave-shaped joint portion 10 having a predetermined shape formed from the joint surface 110 side. This predetermined shape means that the concave joint portion 10 into which the combined body of the head cylindrical portion 134, the coil spring built-in projecting ball engaging body 14 and the projecting cylindrical portion 143 formed above the handrail body 12 can be fitted. That is. In addition, the handrail main body 11 in this example has handgrips 111 at both ends. Thereby, it becomes easy to grasp the handrail main body 11.
[0036]
The handrail body 12 is made of a plastic cylinder. A projecting cylindrical portion 14 having the projecting ball engaging body 14 with a built-in coil spring is fitted in an upper portion of the handrail body 12.
In the lower part of the handrail body 12, there is a screwing projection 121 as the projection joining part 14. In addition, the peripheral portion has a notched flange portion 128.
[0037]
On the other hand, the tread plate 4 has an insertion recess 132 into which the threaded annular body 130 as the handrail fixing body 13 is fitted. The threaded annular body 130 is attached and fixed on the tread plate 4 with the screw 6 and the adhesive 5.
The threaded annular body 130 has a spirally projecting cylindrical portion 131 at a central portion and a spirally annular recessed portion 132 formed on an outer peripheral edge of the spirally projecting cylindrical portion 130. Like the handrail body 21, the threaded annular body 130 is also made of various plastics molded products such as a polystyrene molded product, a vinyl chloride molded product, and a polyethylene molded product.
[0038]
As shown in FIG. 1, the stair handrail unit 1 is attached to the staircase handrail unit 1 by rotating the handrail main body 12 and screwing the projecting portion 121 formed at the lower portion into the threaded annular recess 132 of the threaded annular body 130. Fit inside. As a result, the entirety of the annular body with a built-in coil spring 130, the concave portion for insertion 40, the adhesive 5, and the like is covered by the mounting notch 28 formed below the handrail body 12. Thus, according to this example, the handrail body 12 can be erected on the tread plate 4 with good appearance.
Therefore, according to this embodiment, the stair handrail unit 1 which can be detached can be obtained by removing the screwing projection 128 from the screwing ring body 130 by removing the fitting.
[0039]
On the other hand, after that, in joining the convex joint portion 14 of the handrail body 12 and the concave joint portion 10 of the handrail body 11, the joint portion 14 above the handrail body 12 erected on the tread plate 4. Is pressed down in the direction of the arrow so as to cover the concave joint portion 10 of the handrail body 11 on the projecting cylindrical portion 143 having the head cylindrical portion 134 and the projecting ball engaging body 14 with a built-in coil spring. The concave joint 10 is fitted.
Thereby, according to this example, the handrail unit 1 for stairs which is detachable, quickly and easily attached and fixed, and is excellent in workability and appearance and beauty can be obtained.
[0040]
(Example 2)
As shown in FIGS. 2 to 4, the stair handrail unit 2 of the present embodiment includes a handrail main body 27, a handrail child main body 21, and a handrail fixed body 29.
In FIG. 2, the handrail body 21 has a ring-shaped projecting engagement body 220, a head cylinder 220, and a projection cylinder 22 in an upper part.
Further, the handrail body 21 has an elliptical wing portion 24 and a screw-shaped column portion 28 in a lower portion. In addition, slightly above the elliptical wing portion 24 and the spiral cylindrical portion 28, an umbrella-shaped cross-section cover 25 is fitted in the threaded portion 251.
[0041]
On the other hand, as shown in FIG. 3, the handrail main body 27 has a conical concave joint portion 20.
The conical recess 20 is formed around the joint surface 270 of the handrail body 21. From the joint surface side of the handrail body 27, the concave joint 20 of the circular creed is engraved.
The handrail body 27 is made of cypress. As shown in FIG. 3, a leaf spring assembly 200 is mounted in the handrail main body 27. As shown in the lower diagram (plan view) of FIG. 3, the leaf spring assembly 200 has upper petal deformed bodies 271 and 272 and lower petal deformed bodies 273 and 274 arranged in a petal shape centering on the concave joint 20. And formed. As shown in the upper section (cross-sectional view) of FIG. 22 are arranged symmetrically up and down and left and right so that they can be locked.
[0042]
On the other hand, as shown in FIGS. 2 and 4, the annular body 2900 with a built-in coil spring as the handrail fixing body 29 has an elliptical wing insertion hole 294 and an outer peripheral edge of the elliptical wing insertion hole 294 at the center. And a ring-shaped concave portion 290 formed in the groove.
Further, as shown in FIGS. 2 and 4, the elliptical insertion hole 294 communicates with the elliptical wing insertion hole 294 formed inside the coil spring built-in annular body 2900. At the bottom of the elliptical wing insertion hole 294, there is provided an elliptical wing urging plate 298 which is urged upward by a coil spring 291 disposed below the hole.
As shown in FIGS. 2 and 4, the elliptical wing biasing plate 298 has a threaded cylinder at the center of which is fitted with the threaded cylindrical portion 28 formed at the lowermost part of the handrail body 21. It has a hole 299.
[0043]
As shown in FIG. 4, a part of the elliptical wing body insertion hole 294 is a part of both ends of a flat ellipse, and the other part is a circular communicating part. The screw-in cylindrical hole 299 is located at the center of the oval-shaped wing body insertion hole 294.
In addition, as described above, the annular body concave portion 290 is provided near the outer peripheral edge of the elliptical wing portion main body insertion hole 294. The annular body concave portion 290 has a screw hole for attaching and fixing the coil spring built-in cylindrical body 2900 to the step plate 4. Then, the screw nail 6 is attached and fixed to the tread plate 4 through the screw hole, as shown in FIGS. 2 and 4. As shown in FIG. 2, the step board is provided with a concave hole 41, and a coil spring built-in annular body 2900 is mounted and fixed in the concave hole 41 with a screw 6 and an adhesive 5 as necessary.
[0044]
Therefore, as a mounting structure of the handrail unit 2 for stairs, as shown in FIGS. 2 to 4, in the upper part of the handrail body 21, a ring-shaped projecting engagement body formed on the upper part of the handrail body 21. The head cylinder 23 and the protruding cylinder 22 having 24 are inserted into the leaf spring engagement fitting 200.
On the other hand, as shown in FIG. 2, the handrail body 21 pushes the screw-shaped cylindrical portion 28 downward against the urging force of the coil spring 291 while fitting the screw-shaped cylindrical portion 28 into the screw-in cylindrical hole 299. Thereafter, the handrail body 21 is rotated from 45 degrees to nearly 90 degrees. Thereby, as shown in FIG. 4, the elliptical wing portion 24 is placed at a predetermined position and locked. As a result, the handrail body 21 stands on the annular body 2900 with a built-in coil spring, and the cover 211 with an umbrella-shaped cross-section covers the recessed hole 41 of the tread plate 4 and the adhesive 5, so that the appearance is improved and the appearance and aesthetics are improved. Will be excellent.
Therefore, according to this example, it is possible to obtain the handrail unit 2 for stairs which is detachable, quickly and easily attached and fixed, and is excellent in workability and appearance. Otherwise, the configuration was the same as in the first embodiment.
[0045]
(Example 3)
As shown in FIGS. 5 to 9, the stair handrail unit 3 of this example includes a handrail main body 31, a handrail main body 33, and a dovetail-shaped recess 41 provided on the tread plate 4. The handrail body 31 is made of glued laminated material in the same manner as in the first embodiment, and as shown in FIGS. 5 and 7, forms a stepped dovetail concave portion 300 as a concave joint portion.
On the other hand, as shown in FIG. 8, a dovetail recess 41 is formed at one end of the tread plate 4.
[0046]
As shown in FIGS. 5 and 6, the handrail main body 33 has a stepped dovetail projection 331 at an upper portion and a dovetail projection 332 at a lower portion.
Therefore, as shown in FIG. 5, the mounting structure of the stair handrail unit 3 includes a stepped dovetail concave portion 300 as the concave joint 30 of the handrail body 33 and the stepped dovetail convex portion 331 in the upper portion. Are fitted. In the lower part of the handrail main body 33, as shown in FIGS. 5 and 9, the dovetail mortise convex part 211 is fitted into the dovetail concave part 41 formed in the tread plate 4. Thereafter, a wooden plug 32 is attached to the remaining part of the dovetail recess 41.
Thereby, the handrail unit 3 for stairs in which the handrail main body 33 stands on the tread plate 4 can be obtained. As shown in FIGS. 5 and 9, a step 42 made of rubber or plastics is attached to the front end of the tread plate 4. As a result, the dovetail recess 41 and the wooden plug 32 of the tread plate 4 are covered.
Therefore, according to this example, it is possible to obtain the handrail unit 3 for stairs which is detachable, quickly and easily attached and fixed, and is excellent in workability and appearance. Otherwise, the configuration was the same as in the first embodiment.
[0047]
【The invention's effect】
As described above, the present invention employs the means described in claims 1 to 11, so that the following various effects can be exerted.
First, according to the first aspect of the present invention, it is possible to obtain stair handrail units 1, 2, and 3 which are detachable, quickly and easily attached and fixed, and have excellent workability and appearance.
Next, according to the invention as set forth in claim 2, the convex joint portions 14, 22, 32 formed above the handrail body 12, 21, 33 are easily inserted and detachably fitted. I can do it.
[0048]
According to the third aspect of the present invention, the handrail body 12 is rotated and fitted to the handrail fixed bodies 13 and 29 fixedly mounted on the tread plate 4 or the side plate (not shown), By pushing the handrail body 21 downward, the handrail body 21 can be mounted and fixed on the tread plate 4 or the side plate and can be erected quickly and easily.
[0049]
According to the fourth aspect of the present invention, the head cylindrical portion 23, the ring-shaped projecting engagement body 24, and the projecting cylindrical portion 22 formed on the upper portion of the handrail main body 21 are detachably fast and easily fitted. You can do it.
According to the fifth aspect of the present invention, the handrail body 21 is pushed up, or the concave joint portion of the handrail body 21 is pushed down so that the ring-shaped projecting engagement body 24 is fitted, thereby forming the ring-shaped body. The protruding engagement member 24 and the like can be detachably mounted in the concave joint portion 10 and can be quickly and easily attached and fixed.
[0050]
According to the invention described in claim 6, the leaf spring concave aggregate 200 can be detachably and quickly and easily formed in the concave joint 10 of the handrail body 21.
Further, according to the invention described in claim 7, by using the joint portion of the handrail body 21, the concave joint portion 10 having a predetermined shape can be formed from the joint surface 110, 270 side.
[0051]
According to the invention described in claim 8, the handrail fixing body 13 can be detachably attached to the tread plate 4 or the side plate (not shown) with the screw nail 6 or the like, and can be quickly and easily attached and fixed.
According to the ninth aspect of the present invention, the elliptical wing portion 211 is formed by fitting the threaded cylindrical portion 28 of the handrail body 33 into the threaded cylindrical hole 299 of the annular body 2900 with a built-in coil spring. By pushing down the main body 33 downward, when the main body 33 is inserted into the handrail fixing body 29 via the elliptical wing insertion hole 294, the main body 33 is turned by a predetermined angle (for example, 45 degrees to 90 degrees). When moved, the elliptical wing portion 24 is locked in the elliptical wing portion insertion hole 294 by the upward biasing force of the coil spring 291 and is attached and fixed.
[0052]
According to the tenth aspect of the present invention, the entirety of the annular body 2900 with a built-in coil spring on the tread plate 4 or the side plate (not shown) improves the appearance and beauty.
According to the eleventh aspect, when the dovetail projection 332 is fitted into the recessed joint 10 formed on the tread plate 4 or the side plate, the handrail body 33 is fitted after the fitting. It cannot be pulled out upward, and can be firmly fitted and fixed.
As described above, according to the present invention, it is possible to obtain the stair handrail units 1, 2, and 3 which are detachable, quickly and easily attached and fixed, and are excellent in workability and appearance.
According to the twelfth aspect of the present invention, the handrail main bodies 11, 21, and 33 can be erected on the tread plate 4 quickly and easily.
[Brief description of the drawings]
FIG. 1 is a central cross-sectional view of a handrail unit for stairs according to a first embodiment.
FIG. 2 is a partial cross-sectional view of a central portion of a handrail unit for stairs according to a second embodiment.
FIG. 3 is a partial cross-sectional view of a handrail main body according to a second embodiment, and the lower diagram is a corresponding bottom view.
FIG. 4 is a plan view of a handrail fixing body according to a second embodiment.
FIG. 5 is a partial cross-sectional view of a handrail unit for stairs according to a third embodiment.
FIG. 6 is a central sectional view of a handrail main body according to a third embodiment.
FIG. 7 is a partial cross-sectional view taken along line AA of a handrail body according to a third embodiment.
FIG. 8 is a partial perspective view of a tread plate according to the third embodiment.
FIG. 9 is a perspective view of a state in which a handrail is erected on a tread plate according to a third embodiment, and a step is attached near the handrail.
FIG. 10 is a sectional view of a handrail main body used in the present invention.
FIG. 11 is a partial perspective view of a conventional handrail unit for stairs.
FIG. 12 is a partial perspective view of a conventional handrail unit for stairs.
FIG. 13 is a partial perspective view of a conventional handrail unit for stairs. In addition, the lower diagram is a partial cross-sectional view of a conventional handrail unit for stairs.
FIG. 14 is a perspective view of a handrail unit for stairs disclosed in Patent Document 2.
FIG. 15 is a perspective view of a handrail unit for stairs disclosed in Patent Document 3.
[Explanation of symbols]
1,2,3 Handrail unit for stairs
11, 27, 31 Handrail body
12, 21, 33 Handrail body
13, 29 Handrail fixed body
10, 20, 30 concave joint
14, 22, 34 Convex joint

Claims (12)

A staircase comprising a handrail body, a handrail body having upper and lower projecting joints, a handrail fixed body for attaching and fixing the handrail body on the handrail body, a tread plate or a side plate, and a dovetail recess. A handrail unit,
The handrail body has a convex joint portion that fits with a concave joint portion provided on the handrail body at an upper part, and is formed into a handrail fixed body that is attached and fixed on a tread plate or a side plate at a lower part. A handrail unit for stairs, comprising a convex joint portion fitted with a provided concave joint portion. The recessed joint formed in the handrail body is any one of a threaded annular recessed portion, a recessed portion for insertion of a protruding ball engaging body with a built-in coil spring, a recessed portion into which a leaf spring is locked, and a stepped dovetail recessed portion. Item 2. The handrail unit for stairs according to Item 1. The handrail fixed body is a threaded annular body having a spiral projecting cylindrical portion at the center and a spiral annular recess formed at the outer peripheral edge of the spiral projecting cylindrical portion, or a coil spring having an elliptical wing insertion hole at the center. The stairs handrail unit according to claim 1 or 2, wherein the handrail unit is a built-in annular body. The stair handrail unit according to claim 1 or 2, wherein the threaded annular body is one of metal and plastics. The handrail for stairs according to claim 1, 2 or 3, wherein the annular body with a built-in coil spring is any one of a leaf spring, iron, copper, aluminum, brazing, an iron alloy, and an aluminum alloy. unit. The handrail unit for a staircase according to claim 1 or 2, wherein the leaf spring engagement fitting body is a leaf spring concave aggregate having at least a pair of upper and lower leaf spring petal streamers. The stepped dovetail recess is composed of a combination of a flat rectangular recess formed by the joint surface of the handrail body 21 or a cutout of the bottom recess and a conical recess connected to the recess. The handrail unit for stairs according to claim 1 or 2. 4. The cylindrical body with a built-in coil spring has a screw-shaped projecting cylindrical part protruding at the center and an annular concave part provided with a nail hole near the outer peripheral edge thereof. Handrail unit for stairs. The handrail unit for stairs according to claim 1, wherein the handrail main body has an elliptical wing portion below and a spiral cylindrical portion below the wing portion. The handrail body is mounted and fixed in a state where an umbrella-shaped cover body is detachably screwed on a lower side and above an elliptical wing portion in a detachable manner. Handrail unit for stairs. The handrail unit for stairs according to claim 1, wherein the handrail main body has a stepped dovetail projection at an upper part and has a dovetail projection at a lower part. With the joint protrusion formed at the lower part of the handrail body fitted into the joint recess of the handrail fixed body, the upper part of the handrail body is inserted into the joint recess formed at the upper part of the handrail body. A stair handrail unit mounting structure, characterized in that the joining projections formed on the steps are fitted.

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