CN203844314U - Metal clad plate used for elevator interior walls - Google Patents

Abstract

The utility model discloses a metal clad plate used for elevator interior walls. The metal clad plate comprises an upper stainless steel plate, a lower stainless steel plate and a central core layer made from aluminium, wherein the central core layer comprises an upper core layer and a lower core layer; the upper surface of the upper core layer is bonded with the surface of the upper stainless steel plate; a plurality of parallel raised lines are dispersedly arranged on the lower surface of the upper core layer; a raised ridge and a groove are formed on the surfaces of two adjacent raised lines respectively and extend along the length direction of the raised lines; the raised lines provided with the raised ridges and the raised lines provided with the grooves are arranged at intervals; the lower and upper core layers have the same structure; the lower surface of the lower core layer is bonded with the lower stainless steel plate via a polymeric membrane; the raised lines, provided with the grooves, of the lower core layer are matched with the raised lines, provided with the raised ridges, of the upper core layer; the raised lines, provided with the raised ridges, of the lower core layer are matched with the raised lines, provided with the grooves, of the upper core layer; the upper core layer is bonded with the lower core layer via a polymeric membrane. The metal clad plate has a more reasonable structure and high peel strength and improves the bending resistance. The core layer is simple to manufacture.

Description

A kind of elevator interior wall composite metal plate

Technical field

The utility model relates to a kind of composite metal plate, especially designs a kind of elevator interior wall composite metal plate.

Background technology

Current composite metal plate generally comprises corrosion resistant plate, sandwich layer and lower corrosion resistant plate, because composite metal plate is that the distinct bi-material of do as one likes matter forms, it had both retained the key property of former composition material, had overcome again the deficiency of former composition material, had good material property.So in current composite metal plate, there is a kind of metal honeycomb plate, it is cellular to be that sandwich layer is made, the sandwich layer manufacture craft difficulty of this composite metal plate, bond area between cellular sandwich layer and corrosion resistant plate is little simultaneously, therefore bond firm not, general composite metal plate can not meet completely on elevator interior wall and uses

Utility model content

Technical problem to be solved in the utility model is: a kind of elevator interior wall composite metal plate is provided, and the structure of this composite metal plate is more reasonable, and peel strength is high, and has improved bend resistance intensity, and the making of sandwich layer is simple.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of elevator interior wall composite metal plate, the central core layer that comprises corrosion resistant plate, lower corrosion resistant plate and aluminium material, described central core layer comprises sandwich layer and lower sandwich layer, and on this, the upper surface of sandwich layer bonds by the surface of polymeric membrane and upper corrosion resistant plate; On the lower surface of upper sandwich layer discrete be provided with some with parallel raised lines, on the surface of two adjacent raised lines, be respectively arranged with protruding stupefied and groove, this protruding stupefied and groove all extends along the length direction of raised line, is provided with protruding stupefied raised line and reeded raised line space is set to arrange; The structure of described lower sandwich layer is identical with the structure of upper sandwich layer, this lower sandwich layer lower surface bonds by polymeric membrane and lower corrosion resistant plate, the raised line with groove on the upper surface of lower sandwich layer coordinates with protruding stupefied raised line with on upper sandwich layer, on lower sandwich layer, with protruding stupefied raised line, coordinate with the raised line with groove on upper sandwich layer, between upper sandwich layer and lower sandwich layer, by polymeric membrane, bond.

As a kind of preferred scheme, the lower surface vacuum suction of described upper sandwich layer has upper polymeric membrane, and the upper surface vacuum suction of lower sandwich layer has lower polymeric membrane, thermal-adhering between upper and lower polymeric membrane.

As a kind of preferred scheme, described raised line is rectangle raised line, protruding stupefied be square protruding stupefied, corresponding groove is square groove.

As a kind of preferred scheme, the bar groove all forming between adjacent raised line on upper sandwich layer and lower sandwich layer, bar groove corresponding to position formed rectangular opening, in this rectangular opening, is provided with support frame, and this support frame and upper sandwich layer and lower sandwich layer are all bonding.

As a kind of preferred scheme, described support frame is cruciform skeleton, and the upper and lower edge of this cruciform skeleton is bonding with upper sandwich layer and lower sandwich layer respectively; Between the upper cell wall of sandwich layer bar groove of left and right edge bonding and the cell wall of the bar groove of lower sandwich layer of crossing skeleton.

Adopted after technique scheme, effect of the present utility model is: because central core layer described in sandwich layer comprises upper sandwich layer and lower sandwich layer, on this, the upper surface of sandwich layer bonds by the surface of polymeric membrane and upper corrosion resistant plate, on the lower surface of upper sandwich layer discrete be provided with some with parallel raised lines, on the surface of two adjacent raised lines, be respectively arranged with protruding stupefied and groove, this protruding stupefied and groove all extends along the length direction of raised line, is provided with protruding stupefied raised line and reeded raised line space is set to arrange, the structure of described lower sandwich layer is identical with the structure of upper sandwich layer, this lower sandwich layer lower surface bonds by polymeric membrane and lower corrosion resistant plate, the raised line with groove on the upper surface of lower sandwich layer coordinates with protruding stupefied raised line with on upper sandwich layer, on lower sandwich layer, with protruding stupefied raised line, coordinate with the raised line with groove on upper sandwich layer, between upper sandwich layer and lower sandwich layer, by polymeric membrane, bond, therefore, groove on protruding stupefied and lower sandwich layer on upper sandwich layer embeds and coordinates, groove on protruding stupefied and upper sandwich layer on lower sandwich layer embeds and coordinates, raised line can increase metal composite plate thickness to a certain extent, also increase bending strength simultaneously, groove and protruding stupefied increased bond area, improve peel strength.On this, sandwich layer is identical with the structure of lower sandwich layer simultaneously, as long as stagger in position, a raised line can coordinate installation, and therefore, the moulding of sandwich layer is very simple, only needs a mold to complete, and makes relatively simple.

Again due to the bar groove all forming between raised line adjacent on upper sandwich layer and lower sandwich layer, bar groove corresponding to position formed rectangular opening, in this rectangular opening, be provided with support frame, this support frame and upper sandwich layer and lower sandwich layer are all bonding, and this support frame can increase bending resistance and the compression strength of this composite metal plate.

Because described support frame is cruciform skeleton, the upper and lower edge of this cruciform skeleton is bonding with upper sandwich layer and lower sandwich layer respectively again; Between the upper cell wall of sandwich layer bar groove of left and right edge bonding and the cell wall of the bar groove of lower sandwich layer of crossing skeleton, like this, the left and right link position of this cruciform skeleton increases the firm degree of bonding between upper sandwich layer and lower sandwich layer.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the utility model is further illustrated.

Fig. 1 is the structure cutaway view of the utility model embodiment;

Fig. 2 is the lower sandwich layer of the utility model embodiment and the stereogram of lower corrosion resistant plate bonding;

Fig. 3 is the stereogram of support frame in the utility model embodiment;

In accompanying drawing: 1. go up corrosion resistant plate; 2. go up sandwich layer; 3. descend sandwich layer; 31. raised lines; 32. is protruding stupefied; 33. grooves; Article 34., groove; 4. descend corrosion resistant plate; 5. support frame.

The specific embodiment

Below by specific embodiment, the utility model is described in further detail.

As shown in Figure 1, 2, 3, a kind of elevator interior wall composite metal plate, the central core layer that comprises corrosion resistant plate 1, lower corrosion resistant plate 4 and aluminium material, described central core layer comprises sandwich layer 2 and lower sandwich layer 3, on this, the upper surface of sandwich layer 2 bonds by the surface of polymeric membrane and upper corrosion resistant plate 1; On the lower surface of upper sandwich layer 2 discrete be provided with some with parallel raised lines 31, wherein on the surface of two adjacent raised lines 31, be respectively arranged with protruding stupefied 32 and groove 33, this protruding stupefied 32 and groove 33 all along the length direction of raised line 31, extend, raised line 31 intervals that are provided with protruding stupefied 32 raised line 31 and are provided with groove 33 arrange; The structure of described lower sandwich layer 3 is identical with the structure of upper sandwich layer 2, these lower sandwich layer 3 lower surfaces are by polymeric membrane and lower corrosion resistant plate 4 bondings, the raised line 31 with groove 33 on the upper surface of lower sandwich layer 3 coordinates with protruding stupefied 32 raised line 31 with on upper sandwich layer 2, on lower sandwich layer 3, with protruding stupefied 32 raised line 31, coordinate with the raised line 31 with groove 33 on upper sandwich layer 2, between upper sandwich layer 2 and lower sandwich layer 3, by polymeric membrane, bond.The lower surface vacuum suction of described upper sandwich layer 2 has upper polymeric membrane, and the upper surface vacuum suction of lower sandwich layer 3 has lower polymeric membrane, thermal-adhering between upper and lower polymeric membrane.Described raised line 31 is rectangle raised line 31, and protruding stupefied 32 is square protruding stupefied 32, and corresponding groove 33 is square groove 33.The bar groove 34 all forming between adjacent raised line 31 on upper sandwich layer 2 and lower sandwich layer 3, bar groove 34 corresponding to position formed rectangular opening, is provided with support frame 5 in this rectangular opening, and this support frame 5 is all bonding with upper sandwich layer 2 and lower sandwich layer 3.Described support frame 5 is cruciform skeleton, and the upper and lower edge of this cruciform skeleton is bonding with upper sandwich layer 2 and lower sandwich layer 3 respectively; Between the upper cell wall of 2 grooves 34 of sandwich layer of left and right edge bonding and the cell wall of the bar groove 34 of lower sandwich layer 3 of crossing skeleton.

In the utility model, upper sandwich layer 2 and lower sandwich layer 3 its structures are just the same, and just, in the process of using, the raised line 31 that misplaces can coordinate in contraposition, and like this, upper sandwich layer 2 is identical with the mould of lower sandwich layer 3, only need open a mold, reduces cost.And between upper sandwich layer 2 and lower sandwich layer 3 protruding stupefied 32 with the coordinating of groove 33, can guarantee that upper sandwich layer 2, lower sandwich layer 3 are bonded to an integral body, its not only thickness can increase, upper sandwich layer 2 and lower sandwich layer 3 are very large with the bond area of upper corrosion resistant plate 1 and lower corrosion resistant plate 4, the setting of raised line 31, support frame 5 has also increased bend resistance intensity and the compression strength of sandwich layer, thereby make this composite metal plate adapt to elevator interior wall, uses.

Claims (5)

1. an elevator interior wall composite metal plate, the central core layer that comprises corrosion resistant plate, lower corrosion resistant plate and aluminium material, it is characterized in that: described central core layer comprises sandwich layer and lower sandwich layer, and on this, the upper surface of sandwich layer bonds by the surface of polymeric membrane and upper corrosion resistant plate; On the lower surface of upper sandwich layer discrete be provided with some with parallel raised lines, on the surface of two adjacent raised lines, be respectively arranged with protruding stupefied and groove, this protruding stupefied and groove all extends along the length direction of raised line, is provided with protruding stupefied raised line and reeded raised line space is set to arrange; The structure of described lower sandwich layer is identical with the structure of upper sandwich layer, this lower sandwich layer lower surface bonds by polymeric membrane and lower corrosion resistant plate, the raised line with groove on the upper surface of lower sandwich layer coordinates with protruding stupefied raised line with on upper sandwich layer, on lower sandwich layer, with protruding stupefied raised line, coordinate with the raised line with groove on upper sandwich layer, between upper sandwich layer and lower sandwich layer, by polymeric membrane, bond.

2. a kind of elevator interior wall composite metal plate as claimed in claim 1, is characterized in that: the lower surface vacuum suction of described upper sandwich layer has upper polymeric membrane, and the upper surface vacuum suction of lower sandwich layer has lower polymeric membrane, thermal-adhering between upper and lower polymeric membrane.

3. a kind of elevator interior wall composite metal plate as claimed in claim 2, is characterized in that: described raised line is rectangle raised line, protruding stupefied be square protruding stupefied, corresponding groove is square groove.

4. a kind of elevator interior wall composite metal plate as claimed in claim 3, it is characterized in that: go up the bar groove all forming between raised line adjacent on sandwich layer and lower sandwich layer, bar groove corresponding to position formed rectangular opening, in this rectangular opening, be provided with support frame, this support frame and upper sandwich layer and lower sandwich layer are all bonding.

5. a kind of elevator interior wall composite metal plate as claimed in claim 4, is characterized in that: described support frame is cruciform skeleton, and the upper and lower edge of this cruciform skeleton is bonding with upper sandwich layer and lower sandwich layer respectively; Between the upper cell wall of sandwich layer bar groove of left and right edge bonding and the cell wall of the bar groove of lower sandwich layer of crossing skeleton.