CN2920023Y

CN2920023Y - Combined armrest

Info

Publication number: CN2920023Y
Application number: CN 200620122102
Authority: CN
Inventors: 锺沛江
Original assignee: Individual
Current assignee: Individual
Priority date: 2006-06-27
Filing date: 2006-06-27
Publication date: 2007-07-11
Anticipated expiration: 2016-06-27

Abstract

The utility model relates to a synthetic armrest, including a body made of the low price wood, a top decoration layer and two side decoration layers made of the high-class wood. The body extends along the length direction, and consists of a plane lower surface, a non-plane upper surface contrary to the lower surface, and two plane side surfaces connected with the upper and lower surfaces respectively. The top decoration layer consists of a top surface shaped according to the design, and a non-plane bottom connecting surface stuck to the upper surface of the body, and the central thickness of the top decoration layer is not less than 1 mm. Each side decoration layer consists of a plane inner side surface stuck to the corresponding side surface of the body, and an outer side surface shaped according the design and reverse to the inner side surface. The non-plane bottom connecting surface of the top decoration layer adopts less quantity of the high-class wood, and is not required to be shaped by heating, therefore the utility model reaches the effects of beauty, low cost and environmental protection.

Description

Synthetic handrail

Technical field

The utility model relates to a kind of handrail, particularly relates to a kind of synthetic handrail of attractive in appearance, low-cost, environmental protection.

Background technology

Fig. 1 shows a kind of in the past synthetic handrail 1, and this synthetic handrail is common what is called " traditional pattern " handrail (traditional-style) on U.S.'s furniture market, and comprises a body 11, a decorations layer 12 that extends along a length direction, and two panels 13.This body 11 is made by low value timber, and comprises a lower surface 111 that is plane, and reverse two ends connect this lower surface 111 and comply with the curved surface 112 of design moulding.This decorations layer 12 is to adopt high-class timber to make, and is attached at this body 11 along this curved surface 112, and described panel 13 is to adopt high-class timber to make, and is embedded in contiguous these decorations layer 12 reverse two end places and places this decorations layers 12 and this body 11.

Though body cost that should synthetic handrail 1 is lower, should decorations layer 12 flexibility big, need add thermal flexure earlier during moulding, can destroy lines, color and luster, the pore of log, and cause having inaesthetic shortcoming.

Fig. 2 shows another kind of in the past synthetic handrail 2, and in order to improve the shortcoming of this first kind of handrail 1, this synthetic handrail 2 comprises a body 21, a cresting layer 22, and two return moldings layers 23.

This body 21 is made by low value timber, and extends along a length direction, and comprises a lower surface 211, a upper surface 212 and two side surfaces 213 that are plane.This upper surface 212 is in contrast to this lower surface 211, described side surface 213 be connected to this upper and lower surperficial 212,211.This cresting layer 22 is made by high-class timber, and comprises an end face 221 according to the design moulding, and one is the plane and is pasted on the end joint face 222 of the upper surface 212 of this body 21.

Described return moldings layer 23 is to adopt identical material with this cresting layer 22, each return moldings layer 23 comprises that top end face 231, the bottom face 232, in contrast to this top end face 231 that connects the end joint face 222 of this cresting layer 22 is plane and is affixed on the medial surface 233 of these body 21 corresponding side surfaces 213, and one according to the design moulding and in contrast to the lateral surface 234 of this medial surface 233.

Though should can present log lines attractive in appearance by synthetic handrail 2, this cresting layer 22 still too expends too much high-class timber and has following shortcoming:

One, high-class timber costs an arm and a leg, and causes the shortcoming that has production cost higher.

Two, the consumption of former material high-class timber increases, and can increase the timber cutting capacity, causes having the shortcoming of not environmental protection.

The utility model content

The purpose of this utility model is at the synthetic handrail that a kind of attractive in appearance, low-cost, environmental protection is provided.

The utility model synthesizes handrail, it is characterized in that: comprise a body, a cresting layer and two return moldings layers.

This body is made by any one of following low value timber: rubber wood timber, pine, China fir, defective high-class timber and high-density fiber material.This body extends along a length direction, and comprises that one is plane lower surface, in contrast to this lower surface and be non-planar upper surface, and two are connected to this upper and lower surface and are plane side surface.

This cresting layer is made by in the following high-class timber any one: oak, maple, white poplar, cherry, beech, alder and Chinese hemlock spruce.This cresting layer comprises an end face according to the design moulding, and one is on-plane surface and is pasted on the end joint face of the upper surface of this body.Wherein, the center thickness of this cresting layer is not less than one millimeter.

Described return moldings layer is to adopt identical material with this cresting layer, each return moldings layer comprises that top end face, the bottom face in contrast to this top end face, that connects the end joint face of this cresting layer is plane and is affixed on the medial surface of the corresponding side surface of this body, and one according to the design moulding and in contrast to the lateral surface of this medial surface.The minimum thickness of each return moldings layer is not less than one millimeter.

The beneficial effects of the utility model are: the end joint face of this cresting layer is on-plane surface, makes the consumption of high-class timber reduce, and adds that this cresting layer does not need hot briquetting, thereby reaches effect attractive in appearance, low-cost, environmental protection.

Description of drawings

Fig. 1 is a profile, and a kind of in the past synthetic handrail is described;

Fig. 2 is a partial perspective view, and another kind of in the past synthetic handrail is described;

Fig. 3 is a partial perspective view, and one first preferred embodiment of the synthetic handrail of the utility model is described;

Fig. 4 is a cutaway view of this first preferred embodiment, and the cross section of this synthetic handrail is described;

Fig. 5 is a section decomposing schematic representation of this first preferred embodiment, and the method for making of this synthetic handrail is described;

Fig. 6 is a profile, and one second preferred embodiment of the synthetic handrail of the utility model is described;

Fig. 7 is a profile, and one second preferred embodiment of the synthetic handrail of the utility model is described.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is elaborated:

Consult Fig. 3, Fig. 4, first preferred embodiment of the synthetic handrail of the utility model comprises a body 3, a cresting layer 4, and two return moldings layers 5.

This body 3 is made by any one of following low value timber: rubber wood timber (rubberwood), pine (pine wood), China fir (cedar wood), defective high-class timber (defective higher quality wood) and high-density fiber material (high density fibermaterial).This body 3 extends along a length direction, and comprises that one is plane lower surface 31, in contrast to this lower surface and be non-planar upper surface 32, and two be connected to this upper and lower surperficial 32,31 and be plane side surface 33.

This cresting layer 4 is made by in the following high-class timber any one: oak (oakwood), maple (maple wood), white poplar (poplar wood), cherry (cherry wood), beech (beech wood), alder (alder wood) and Chinese hemlock spruce (hemlock wood).This cresting layer 4 comprises an end face 41 according to the design moulding, and one is on-plane surface and is pasted on the end joint face 42 of the upper surface 32 of this body 3.This end joint face 42 forms a plurality of movement joints of stretching along this length direction edge 421, and the center thickness d1 of this cresting layer 4 is not less than one millimeter.

Described return moldings layer 5 is to adopt identical material with this cresting layer 4, each return moldings layer 5 comprises that top end face 51, the bottom face 52, in contrast to this top end face 51 that connects the end joint face 42 of this cresting layer 4 is plane and is affixed on the medial surface 53 of these body 3 corresponding side surfaces 33, and one according to the design moulding and in contrast to the lateral surface 54 of this medial surface 53.The lateral surface 54 of this return moldings layer 5 forms a convex section that extends along this length direction 541, and extends to the curved sections 542 of this top end face 51 from these convex section 541 apical margins, and one extends to the planar section 543 of bottom face 52 from these convex section 541 root edges.The minimum thickness d2 of each return moldings layer 5 is not less than one millimeter.

Consult Fig. 5, the method for making that should synthesize handrail is to be stained with return moldings layer embryo material 50 in a body embryo material 30 both sides earlier, send into make-up machine and process above-mentioned upper surface 32 and top end face 51, paste a cresting layer embryo material 40 again, utilize the bending at an easy rate of described movement joint 421 to paste, send at last make-up machine again and process as shown in Figure 3, Figure 4 profile.

In sum, the body 3 of this synthetic handrail has following beneficial effect:

One, these cresting layer 4 flexibility are little, add the above bar movement joint 421 and make this cresting layer 4 just need not heat can to paste along the upper surface 32 of this body 3, thereby can preserve lines, color and luster, the pore of log, and reach effect attractive in appearance.

Two, the end joint face 42 of this cresting layer 4 is on-plane surface, therefore can reduce the center thickness of this cresting layer 4, and expensive high-class timber consumption is reduced, and therefore the lower effect of production cost is arranged.

Three, the consumption of former material high-class timber reduces, and can reduce the timber cutting capacity, and reaches in recent years industry to the demand of environmental protection.

Consult Fig. 6, second preferred embodiment of the synthetic handrail of the utility model is roughly identical with this first embodiment, its difference be in this synthetic handrail also comprise one with this cresting layer 4 with the pavcilion layer 6 of material, this pavcilion layer 6 connects the bottom face 52 of described return moldings layer 5, and is affixed on the lower surface 31 of this body 3.Whereby, can reach the described beneficial effect of this first preferred embodiment equally.

Consult Fig. 7, the 3rd preferred embodiment of the synthetic handrail of the utility model is roughly identical with this second embodiment, the end joint face 42 that its difference is in upper surface 32 in this body 3, this cresting layer 4 respectively has two and is the plane and is an angle and interconnective bevel phase 321,422 mutually, and the bevel phase 422 of this end joint face 42 is affixed on the bevel phase 321 of this upper surface 32 respectively.The lateral surface 54 of this return moldings layer 5 from bottom to top forms a convex section 541, a planar section 542, the one recessed section 543 of extending along this length direction in regular turn, and a curved sections 544.The root edge of this convex section 541 connects this bottom face 52, and the apical margin of this curved sections 544 connects this top end face 51.Whereby, can reach the described beneficial effect of this first preferred embodiment equally.

Claims

1. a synthetic handrail is characterized in that: comprise

One body, this body is made by any one of following low value timber: rubber wood timber, pine, China fir, defective high-class timber, with the high-density fiber material, this body extends along a length direction, and comprise that one is plane lower surface, in contrast to this lower surface and be non-planar upper surface, and two are connected to this upper and lower surface and are plane side surface;

One cresting layer, this cresting layer is made by in the following high-class timber any one: oak, maple, white poplar, cherry, beech, alder and Chinese hemlock spruce, this cresting layer comprises an end face according to the design moulding, and one be on-plane surface and be pasted on the end joint face of the upper surface of this body, wherein, the center thickness of this cresting layer is not less than one millimeter; And

Two return moldings layers, be to adopt identical material with this cresting layer, each return moldings layer comprises that top end face, the bottom face in contrast to this top end face, that connects the end joint face of this cresting layer is plane and is affixed on the medial surface of the corresponding side surface of this body, and one according to the design moulding and in contrast to the lateral surface of this medial surface, and the minimum thickness of each return moldings layer is not less than one millimeter.

2. synthetic handrail as claimed in claim 1 is characterized in that:

Should synthetic handrail also comprise one with the pavcilion layer of this cresting layer with material, this pavcilion layer connects the bottom face of described return moldings layer, and is affixed on the lower surface of this body.

3. synthetic handrail as claimed in claim 1 is characterized in that:

The end joint face of this cresting layer forms a plurality of movement joints of stretching along this length direction edge.

4. synthetic handrail as claimed in claim 1 is characterized in that:

The lateral surface of this return moldings layer forms a convex section that extends along this length direction, and extends to the curved sections of this top end face from this convex section apical margin, and one extends to the planar section of bottom face from this convex section root edge.

5. synthetic handrail as claimed in claim 1 is characterized in that:

The end joint face of the upper surface of this body, this cresting layer respectively has two and is the plane and is an angle and interconnective bevel phase mutually, and the bevel phase of this end joint face is affixed on the bevel phase of this upper surface respectively.

6. synthetic handrail as claimed in claim 5 is characterized in that:

The lateral surface of this return moldings layer from bottom to top forms a convex section, a planar section, a recessed section of extending along this length direction in regular turn, and a curved sections, and the root edge of this convex section connects this bottom face, and the apical margin of this curved sections connects this top end face.