CN108824731A

CN108824731A - A kind of sine and cosine beam structure fuse phase difference arrangement battenboard and preparation method

Info

Publication number: CN108824731A
Application number: CN201810519498.0A
Authority: CN
Inventors: 曲嘉; 陈嘉伟; 杨丽红; 庞跃钊; 吴林志; 于国财; 杨金水; 鞠殿伟
Original assignee: Harbin Engineering University
Current assignee: Harbin Engineering University
Priority date: 2018-05-28
Filing date: 2018-05-28
Publication date: 2018-11-16

Abstract

The invention belongs to battenboard field, a kind of sine and cosine beam structure fuse phase difference arrangement battenboard and preparation method, including metal front panel, sinusoidal fuse, cosine fuse and metal rear panel are disclosed；Metal front panel and metal rear panel are placed in parallel, and sinusoidal fuse and cosine fuse are between metal front panel and metal rear panel.The present invention reduces panel and the stress of fuse contact position is concentrated, and shock wave can disperse when arriving at the wave crest or trough of sinusoidal or cosine along wire, and overall structural strength can be improved, and prevents panel stress from concentrating breakdown, can play better protection effect.The present invention uses girder system structure, has better toughness, possesses good damping energy-absorbing effect.

Description

A kind of sine and cosine beam structure fuse phase difference arrangement battenboard and preparation method

Technical field

The invention belongs to battenboard fields more particularly to a kind of sine and cosine beam structure fuse phase difference to arrange battenboard And preparation method.

Background technique

Battenboard, by two layers of forming metal panel or other materials panel and directly in the panel between foaming, curing form Macromolecule heat-insulated inner core composition, be easily installed, lightweight, efficiently.What fill system used is also to close bubble molecular structure, can be shut out The condensation of exhausted steam.

Core material is divided, battenboard there are six kinds：Polyphenyl sandwich plate, that is, EPS battenboard；Extruded polystyrene battenboard, that is, XPS Battenboard；Hard polyaminoester battenboard, that is, PU battenboard；Three polyester battenboards, that is, PIR battenboard；Phenolic aldehyde battenboard, that is, PF sandwich Plate；Rockwool sandwich board, that is, RW battenboard.Foam metal battenboard

Panel is divided, there are two types of battenboards：Metal decking and nonmetallic panel.Metal decking easy processing, can be made Various shape, but the nonmetallic panel of some occasions plays the role of less than metal decking, such as in terms of corrosion-resistant, impact resistance.

Battenboard be used for building surface in big industrial factory, warehouse, gymnasium, supermarket, hospital, freezer, prefabricated house, floor addition of building, Dust proof workshop and need insulation fireproof place.Battenboard good appearance, beautiful in colour, overall effect is good, it collects load-bearing, Heat preservation, fire prevention, waterproof are not necessarily to secondary decoration in one, are that one kind is widely used, especially for the interim of construction site Facility such as office, warehouse, enclosure wall etc. more embody the civilized construction in modern construction building site, especially make in Fast Installation investment It is all had a clear superiority in terms of it can fill removable, material turnover multiplexing index with aspect, reduces construction site by a relatively large margin and face When facility expense, will be indispensable novel light construction material.

Sandwich structure has the characteristics that lightweight, high intensity, high rigidity, while there are also good heat-insulation effect, damping energy-absorbings to imitate The good feature of fruit.In security protection and military armor field, Sandwich structure is applied to armoring, panzer exterior outside naval vessel more It is first-class.This kind of plate armour uses pyramid or honeycomb type lattice structure more at present, though the structure superior performance, in above and below Stress concentration phenomenon easily occurs for plate and fuse contact position, can damage to panel under high load, make structural failure.Cause This, how weakening or eliminating panel and fuse contact position stress concentration phenomenon is just particularly important.In addition, existing dot matrix knot Structure battenboard mostly uses member structure, and the buckling structure of bar easily occurs at high loads, has larger impact to integral strength, therefore The advantage of girder system structure seems especially huge.

Application No. is 201620142423.1 patents to disclose a kind of aluminum honeycomb sandwich board, by aluminium alloy plate compacting At the aluminum honeycomb sandwich board includes several recessed honeycomb holes, and all honeycomb holes are in the same size, recessed height is consistent and has Horizontal bottom surface；The arranged at equal intervals of all honeycomb hole rules, the honeycomb hole of adjacent column carry out structural reinforcement and are staggered. The utility model carries out structure improvement to traditional aluminium honeycomb core, by way of simply suppressing, realizes to aluminum honeycomb sandwich board Processing and fabricating has the excellent performance of traditional aluminium honeycomb core, while the setting of the interval of honeycomb hole and horizontal bottom surface increases The bond area of aluminum honeycomb sandwich board and panel, bonding dynamics is bigger, bonds closer, and support strength also increases.But the knot Structure is easy to stress concentration occur with outside version contact position, is unfavorable for the stability and safety of structure.

Summary of the invention

Strong it is an object of the invention to disclose toughness, damping energy-absorbing effect is good, weakens one of stress collection sine and cosine and connects Continuous girder construction fuse phase difference arrangement battenboard and preparation method.

The object of the present invention is achieved like this：

A kind of sine and cosine beam structure fuse phase difference arrangement battenboard：Including metal front panel 1, sinusoidal fuse 2, remaining String fuse 3 and metal rear panel 4；Metal front panel 1 and metal rear panel 4 are placed in parallel, at sinusoidal fuse 2 and cosine fuse 3 Between metal front panel 1 and metal rear panel 4.

Metal front panel 1 is equal with the thickness of metal rear panel 4, the equal length of corresponding sides.

Sinusoidal fuse 2 is made of sinusoidal fuse monomer 2-1, and sinusoidal fuse monomer 2-1 is the gold that shape meets sinusoidal rule Belong to silk, the length of all sine fuse monomer 2-1 is identical；

Cosine fuse 3 is made of the first cosine fuse monomer 3-1 and the second cosine fuse monomer 3-2；All first cosine The equal length of fuse monomer 3-1, and it is equal to the length of sinusoidal fuse monomer 2-1；The length of second cosine fuse monomer 3-2 with Sinusoidal fuse monomer 2-1 is different；First cosine fuse monomer 3-1 is the wire that shape meets cosine rule；Second cosine core Sub- monomer 3-2 is to be made to meet cosine rule of line cutting technology according to cosine curve rule by the metal plate of different-thickness Square-section wire, then different trigonometric function period and wire length are calculated by required phasometer, using line What cutting technique obtained；The crest height etc. of the cosine curve of first cosine fuse monomer 3-1 and the second cosine fuse monomer 3-2 In the sinusoidal crest height of sinusoidal fuse monomer 2-1；

The breadth of sinusoidal fuse monomer 2-1, the first cosine fuse monomer 3-1 and the second cosine fuse monomer 3-2, which are greater than, to be worn Cross the width in the section of the wire of sine fuse monomer 2-1, the first cosine fuse monomer 3-1 and the second cosine fuse monomer 3-2 Degree；

Sinusoidal fuse monomer 2-1 and the first cosine fuse monomer 3-1 along metal rear panel 4 a line, in parallel to each other It is arranged alternately on metal rear panel 4, and perpendicular to metal rear panel 4；According to certain phase angle by the of certain length Two cosine fuse monomer 3-2 are arranged perpendicular to metal rear panel 4；Each of the cosine curve of second cosine fuse monomer 3-2 The one of the cosine curve of the sine curve or the first cosine fuse monomer 3-1 of one and only one sinusoidal fuse monomer 2-1 of wave crest A trough is corresponding, and straight line where peaks and troughs is perpendicular to metal rear panel 4.

The sinusoidal wave crest of all sine fuse monomer 2-1 is fixedly connected with metal front panel 1 in sinusoidal fuse 2, The sinusoidal trough of all sine fuse monomer 2-1 is fixedly connected with metal rear panel 4；All first in cosine fuse 3 The wave crest of the cosine curve of cosine fuse monomer 3-1 and the second cosine fuse monomer 3-2 is fixedly connected with metal front panel 1, institute There are trough and the fixed company of metal rear panel 4 of the cosine curve of the first cosine fuse monomer 3-1 and the second cosine fuse monomer 3-2 It connects.

The cutting end face of sinusoidal fuse monomer 2-1 is coplanar with the side end face of metal front panel 1 and metal rear panel 4；First The cutting end face of cosine fuse monomer 3-1 is coplanar with the side end face of metal front panel 1 and metal rear panel 4；Second cosine fuse The cutting end face of monomer 3-2 is vertical with the upper and lower end face of metal front panel 1 and metal rear panel 4.

A kind of sine and cosine beam structure fuse phase difference arrangement battenboard preparation method, includes the following steps：

Step (1)：Wire cutting is carried out to certain thickness metal plate, obtains sinusoidal fuse monomer 2-1, the first cosine fuse Monomer 3-1 and the second cosine fuse monomer 3-2；

Step (2)：By metal front panel 1, metal rear panel 4, the first cosine fuse monomer 3-1 and the second cosine fuse list Body 3-2 is cleaned, and is degreased and rusty stain；

Step (3)：By sinusoidal fuse monomer 2-1 and the first cosine fuse monomer 3-1 along a line of metal rear panel 4, It is arranged alternately on metal rear panel 4 in parallel to each other, and perpendicular to metal rear panel 4；It will according to certain phase angle Second cosine fuse monomer 3-2 of certain length is arranged perpendicular to metal rear panel 4；So that the second cosine fuse monomer 3-2 The sine curve or the first cosine fuse monomer 3- of one and only one sinusoidal fuse monomer 2-1 of each wave crest of cosine curve One trough of 1 cosine curve is corresponding, and straight line where peaks and troughs is perpendicular to metal rear panel 4；

Step (4)：By sinusoidal fuse monomer 2-1 according to metal front panel 1 and the side length of metal rear panel 4 in wave crest or wave It is cut at paddy, cutting end face is coplanar with the side end face of metal front panel 1 and metal rear panel 4；By the first cosine fuse list Body 3-1 is cut at wave crest or trough according to metal front panel 1 and the side length of metal rear panel 4, cuts end face and metal Front panel 1 is coplanar with the side end face of metal rear panel 4；By the second cosine fuse monomer 3-2 according to certain phase angle and reality Panel size is cut at wave crest or trough, and cutting end face should be with the end face of metal front panel 1 and about 4 metal rear panel Vertically；

Step (5)：Metal front panel 1, sinusoidal fuse 2, cosine fuse 3 and metal rear panel 4 are utilized into soldering or laser It is welded in welding at the wave crest or trough of sinusoidal fuse 2 and cosine fuse 3 and the arrangement of sine and cosine beam structure fuse phase difference is made Battenboard；

Step (6)：4 side edge of protrusion metal front panel 1 and metal rear panel to sinusoidal fuse 2 and cosine fuse 3 Part is polished, and the part of 4 side edge of protrusion metal front panel 1 and metal rear panel of sinusoidal fuse 2 and cosine fuse 3 is made It is concordant with metal front panel 1 and 4 side edge of metal rear panel.

Beneficial effects of the present invention are：

The stress that the present invention reduces panel and fuse contact position is concentrated, shock wave in the wave crest for arriving at sinusoidal or cosine or It can disperse along wire when trough, overall structural strength can be improved, prevent panel stress from concentrating breakdown, can play more Good protection effect.The present invention uses girder system structure, has better toughness, possesses good damping energy-absorbing effect.

Detailed description of the invention

Fig. 1 is a kind of sine and cosine beam structure fuse phase difference arrangement battenboard overview diagram；

Fig. 2 is to cut open figure in a kind of sine and cosine beam structure fuse phase difference arrangement battenboard；

Fig. 3 is wave crest and the conllinear schematic diagram of trough；

Fig. 4 is sinusoidal fuse cutting end face enlarged diagram coplanar with panel side end face；

Fig. 5 is sinusoidal fuse monomer schematic diagram；

Fig. 6 is the first cosine fuse monomer schematic diagram；

Fig. 7 is the second cosine fuse monomer schematic diagram.

Specific embodiment

Further describe the present invention with reference to the accompanying drawing：

Such as Fig. 1, a kind of sine and cosine beam structure fuse phase difference arrangement battenboard：Including metal front panel 1, sinusoidal core Son 2, cosine fuse 3 and metal rear panel 4；Metal front panel 1 and metal rear panel 4 are placed in parallel, sinusoidal fuse 2 and cosine core Son 3 is between metal front panel 1 and metal rear panel 4.

Such as Fig. 5, sinusoidal fuse 2 is made of sinusoidal fuse monomer 2-1, and sinusoidal fuse monomer 2-1 is that shape meets sine gauge The length of the wire of rule, all sine fuse monomer 2-1 is identical；Each sine fuse monomer 2-1 is the gold by different-thickness Belong to plate to be made according to sine curve rule of line cutting technology.

Cosine fuse 3 is made of the first cosine fuse monomer 3-1 and the second cosine fuse monomer 3-2；Such as Fig. 6, Suo You The equal length of one cosine fuse monomer 3-1, and it is equal to the length of sinusoidal fuse monomer 2-1；Second cosine fuse monomer 3-2's Length is different from sine fuse monomer 2-1；As Fig. 7, each second cosine fuse monomer 3-2 be by different-thickness metal plate according to Line cutting technology is used according to cosine curve rule, the square-section wire for meeting cosine rule is made, then pass through required phase Difference calculates different trigonometric function period and wire length, is obtained using line cutting technology；Second cosine fuse monomer 3-2 is to be made to meet the rectangular of cosine rule of line cutting technology according to cosine curve rule by the metal plate of different-thickness Cross section metal silk, then different trigonometric function period and wire length are calculated by required phasometer, using wire cutting skill What art obtained；The crest height of the cosine curve of first cosine fuse monomer 3-1 and the second cosine fuse monomer 3-2 is equal to sine The sinusoidal crest height of fuse monomer 2-1；

The wire section of sinusoidal fuse monomer 2-1, cosine fuse monomer 13-1 and cosine fuse monomer 23-2 can be Round, regular hexagon or other regular figures.

If Fig. 2, sinusoidal fuse monomer 2-1 and the first cosine fuse monomer 3-1 are along a line of metal rear panel 4, mutually It is arranged alternately on metal rear panel 4 in parallel, and perpendicular to metal rear panel 4；According to certain phase angle by a fixed length Second cosine fuse monomer 3-2 of degree is arranged perpendicular to metal rear panel 4；Such as Fig. 3, the cosine of the second cosine fuse monomer 3-2 The sine curve of one and only one sinusoidal fuse monomer 2-1 of each wave crest of curve or the first cosine fuse monomer 3-1's One trough of cosine curve is corresponding, and straight line where peaks and troughs is perpendicular to metal rear panel 4.Each second cosine fuse The length of monomer 3-2 need to be adjusted according to the size of required phase angle and forward and backward metal decking.

Sinusoidal fuse monomer 2-1 is cut at wave crest or trough according to metal front panel 1 and the side length of metal rear panel 4 It cuts, cutting end face should be coplanar with the side end face of metal front panel 1 and metal rear panel 4；First cosine fuse monomer 3-1 is according to gold The side length for belonging to front panel 1 and metal rear panel 4 is cut at wave crest or trough, cutting end face should with metal front panel 1 and The side end face of metal rear panel 4 is coplanar；Second cosine fuse monomer 3-2 need to be according to required phase angle and actual panel size in wave It is cut at peak or trough, cutting end face should be vertical with the end face above and below panel.

Metal front panel 1 and metal rear panel 4 are same metal, and the metal is aluminium alloy or stainless steel；It is described just String fuse 2 and cosine fuse 3 are same metal, and the metal is aluminium alloy or stainless steel；The metal front panel 1, metal Rear panel 4, sinusoidal fuse 2 and cosine fuse 3 can be same metal, can also be not same metal, but metal front panel 1 and gold The metal strength for belonging to rear panel 4 need to be greater than the metal strength of sinusoidal fuse 2 and cosine fuse 3.

Such as Fig. 4, cutting end face and the side end face of metal front panel 1 and metal rear panel 4 of sinusoidal fuse monomer 2-1 is total to Face；The cutting end face of first cosine fuse monomer 3-1 is coplanar with the side end face of metal front panel 1 and metal rear panel 4；More than second The cutting end face of string fuse monomer 3-2 is vertical with the upper and lower end face of metal front panel 1 and metal rear panel 4.

The wave crest of all sine fuse monomer 2-1 or trough and metal front panel 1 and metal rear panel 4 in sinusoidal fuse 2 Be fixedly connected be by soldering or Laser Welding be attached；All first cosine fuse monomer 3-1 in the cosine fuse 3 It is to pass through pricker with the wave crest of the second cosine fuse monomer 3-2 or trough with metal front panel 1 and being fixedly connected for metal rear panel 4 Weldering or Laser Welding are attached.

Compared with prior art, the present invention reduces panel and the stress of fuse contact position is concentrated, and shock wave is arriving at just It can disperse along wire when the wave crest or trough of string or cosine, overall structural strength can be improved, prevent panel stress from concentrating It is breakdown, better protection effect can be played.The present invention uses girder system structure, has better toughness, possesses and subtract well Shake energy-absorbing effect.

The above is not intended to restrict the invention, and for those skilled in the art, the present invention can have various Change and variation.All within the spirits and principles of the present invention, any modification, equivalent replacement, improvement and so on should all include Within protection scope of the present invention.

Claims

1. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard and preparation method, it is characterised in that：Including metal Front panel (1), sinusoidal fuse (2), cosine fuse (3) and metal rear panel (4)；Metal front panel (1) and metal rear panel (4) It is placed in parallel, sinusoidal fuse (2) and cosine fuse (3) are between metal front panel (1) and metal rear panel (4).

2. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard according to claim 1 and preparation method, It is characterized in that：The thickness of the metal front panel (1) and metal rear panel (4) is equal, the equal length of corresponding sides.

3. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard according to claim 1 and preparation method, It is characterized in that：The sinusoidal fuse (2) is made of sinusoidal fuse monomer (2-1), and sinusoidal fuse monomer (2-1) is shape symbol The wire of sinusoidal rule is closed, the length of all sine fuse monomers (2-1) is identical.

4. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard according to claim 1 and preparation method, It is characterized in that：The cosine fuse (3) is by the first cosine fuse monomer (3-1) and second cosine fuse monomer (3-2) group At；First cosine fuse monomer (3-1) and the second cosine fuse monomer (3-2) are the wires that shape meets cosine rule；Institute There is the equal length of the first cosine fuse monomer (3-1), and is equal to the length of sinusoidal fuse monomer (2-1)；First cosine fuse The crest height of the cosine curve of monomer (3-1) and the second cosine fuse monomer (3-2) is being equal to sinusoidal fuse monomer (2-1) just The crest height of chord curve.

5. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard according to claim 1 and preparation method, It is characterized in that：The sinusoidal fuse monomer (2-1), the first cosine fuse monomer (3-1) and the second cosine fuse monomer (3- 2) breadth is greater than across sinusoidal fuse monomer (2-1), the first cosine fuse monomer (3-1) and the second cosine fuse monomer (3- 2) width in the section of wire.

6. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard according to claim 1 and preparation method, It is characterized in that：The sinusoidal fuse monomer (2-1) and the first cosine fuse monomer (3-1) is along the one of metal rear panel (4) Side, is arranged alternately on metal rear panel (4), and in parallel to each other perpendicular to metal rear panel (4)；Second cosine fuse list Body (3-2) is vertically arranged in metal rear panel (4) according to certain phase angle and certain length；Second cosine fuse monomer The sine curve or the first cosine of one and only one sinusoidal fuse monomer (2-1) of each wave crest of the cosine curve of (3-2) One trough of the cosine curve of fuse monomer (3-1) is corresponding, and straight line where peaks and troughs is perpendicular to metal rear panel (4)。

7. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard according to claim 1 and preparation method, It is characterized in that：In the sinusoidal fuse (2) before the sinusoidal wave crest and metal of all sine fuse monomers (2-1) Plate (1) is fixedly connected, and the sinusoidal trough of all sine fuse monomers (2-1) is fixedly connected with metal rear panel (4)；It is remaining In string fuse (3) wave crest of the cosine curve of all first cosine fuse monomers (3-1) and the second cosine fuse monomer (3-2) with Metal front panel (1) is fixedly connected, the cosine of all first cosine fuse monomers (3-1) and the second cosine fuse monomer (3-2) The trough of curve is fixedly connected with metal rear panel (4).

8. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard according to claim 1 and preparation method, It is characterized in that：The cutting end face of the sinusoidal fuse monomer (2-1) and metal front panel (1) and metal rear panel (4) Side end face is coplanar；The cutting end face of first cosine fuse monomer (3-1) and the side of metal front panel (1) and metal rear panel (4) End face is coplanar；The cutting end face of second cosine fuse monomer (3-2) and metal front panel (1) and metal rear panel (4) it is upper and lower End face it is vertical.

9. a kind of sine and cosine beam structure fuse phase difference arrangement battenboard and preparation method, comprise the following steps：

Step (1)：Wire cutting is carried out to certain thickness metal plate, obtains sinusoidal fuse monomer (2-1), the first cosine fuse list Body (3-1) and the second cosine fuse monomer (3-2)；

Step (2)：By metal front panel (1), metal rear panel (4), the first cosine fuse monomer (3-1) and the second cosine fuse Monomer (3-2) is cleaned, and is degreased and rusty stain；

Step (3)：By sinusoidal fuse monomer (2-1) and the first cosine fuse monomer (3-1) along one of metal rear panel (4) Side is arranged alternately in parallel to each other on metal rear panel (4), and perpendicular to metal rear panel (4)；According to certain phase Angle arranges the second cosine fuse monomer (3-2) of certain length perpendicular to metal rear panel (4)；So that the second cosine fuse The sine curve or first of one and only one sinusoidal fuse monomer (2-1) of each wave crest of the cosine curve of monomer (3-2) One trough of the cosine curve of cosine fuse monomer (3-1) is corresponding, and straight line where peaks and troughs perpendicular to metal behind Plate (4)；

Step (4)：By sinusoidal fuse monomer (2-1) according to metal front panel (1) and the side length of metal rear panel (4) in wave crest or It is cut at trough, cutting end face is coplanar with the side end face of metal front panel (1) and metal rear panel (4)；By the first cosine Fuse monomer (3-1) is cut at wave crest or trough according to the side length of metal front panel (1) and metal rear panel (4), is cut Cut node face is coplanar with the side end face of metal front panel (1) and metal rear panel (4)；By the second cosine fuse monomer (3-2) according to Certain phase angle and actual panel size is cut at wave crest or trough, cutting end face should with metal front panel (1) and The end face of metal rear panel (4) up and down is vertical；

Step (5)：By metal front panel (1), sinusoidal fuse (2), cosine fuse (3) and metal rear panel (4) using being brazed or Laser Welding welds at the wave crest or trough of sinusoidal fuse (2) and cosine fuse (3) and sine and cosine beam structure fuse phase is made The battenboard of potential difference arrangement；

Step (6)：Protrusion metal front panel (1) and metal rear panel (4) side to sinusoidal fuse (2) and cosine fuse (3) The part of edge is polished, and the protrusion metal front panel (1) and metal rear panel (4) of sinusoidal fuse (2) and cosine fuse (3) are made The part of side edge is concordant with metal front panel (1) and metal rear panel (4) side edge.