Hünär we tejribe Jiashuncai soňky 23 ýylda alýumin kompozit paneller, metal potoloklar, perde diwarlary we metal bilen baglanyşykly önümçilik pudagyndaky tehniki ösüşi hemişe öňe sürýärdi ýa-da öňde barýardy. In engineeringenerçilik toparymyz önümimizi has ygtybarly we çydamly etmek üçin has gowy çözgütleri gözlemegi hiç wagt bes etmedi. Doly awtomatiki önüm çyzygyny deňleşdirmek we takyklyk import etdik.
S: Alýumin kompozit panelleri çylşyrymly egri fasadlara gurup bolarmy? Takyklygy nädip üpjün edip bolar?
J: Düzülip bilinýän ýerine ýetiriş, tehniki çözgütler şulary öz içine alýar: • 3D lazer skaneri + BIM modellemek: diwaryň üstündäki maglumatlary takyk almak, tertipsiz panelleri taýýarlamak; • Düzülip bilinýän geçiş ulgamy: universal 15mm düzedişe mümkinçilik berýän uniwersal burç kodlaryny we üç ölçegli sazlanyp bilinýän trusslary ulanýar; • Segmentlere berk berkidiş prosesi: egrilen ýüzleri köp çyzykly uçarlara bölýär, laýyk ýalňyşlyklary azaldýar. Siteerde gözleg we ýerüsti çuňlaşdyryş dizaýn hyzmatlaryny edýäris.
S: Ultra beýik binalar alýumin kompozit panelleri alukobondyň ýel basyşyna garşylyk meselesini nädip çözmeli?
J: Esasy tehniki garşy çäreler: 1. Mehaniki barlamak: Panelleriň galyňlygyny we birikdirilen nokatlaryň dykyzlygyny 50 ýyldan bir gezeklik waka üçin (mysal üçin, .51.5 kN / ㎡) hasaplaň. 2. Güýçlendirilen gämi duralgasy: Iki berkitmek üçin arka boltlaryň we mehaniki asgyçlaryň kombinasiýasyny ulanyň (her panel üçin azyndan 6 sany nokat). 3. Windel tuneliniň depressurizasiýa dizaýny: Içki we daşarky howa basyşyny deňleşdirmek üçin panel bogunlarynyň içinde gizlin howa kanallaryny guruň. Topar ýel basyşyny hasaplamak hasabatlaryny we seýsmiki garşylyk hasabatlaryny berip biljek gurluş inersenerlerini öz içine alýar.
S: Bar bolan binalaryň durky täzelenende köne diwarlary ýykman nädip gurnap bolar?
J: Täzeçillik çözgütleri: • Gury gurluşyk usuly: köne diwarlaryň tekizligi bilen baglanyşykly meselelerden gaça durmak üçin ýeňil polatdan ýasalan çarçuwany (asyl diwardan 80-150mm uzaklykda) gurlan täze esasy gatlak; • Zyýan beriji däl labyr: Wibrasiýa sebäpli ýarylmagynyň öňüni alyp, izolýasiýa gatlagyna girmek we gurluş gatlagyna ýetmek üçin himiki labyrlary ulanmak; • Çalt plug-play ulgamy: Panellerde öňünden gurlan klipler ýerdäki gurnama netijeliligini 50% ýokarlandyrýar. 1000 inedördül metrlik taslama üçin iň çalt tamamlanmak wagty 15 gün bolan 17 sany abatlaýyş taslamasy üstünlikli tamamlandy.
S: Sowuk sebitlerde sowuk köpri sebäpli alýukobond alýumin kompozit panellerinde kondensatyň öňüni nädip almaly?
J: malylylyk termiki arakesme tehnologiýasy: Tehniki çözgütler 1. malylylyk arakesme ulgamy → Profiller PA0.3 W / (m · K) ýylylyk geçirijiligi bilen PA66 neýlon termiki arakesme zolaklaryny öz içine alýar. 2. Gatlakly möhürleme gurluşy → osedapyk öýjükli köpük çybyklary panel bogunlarynyň içinde doldurylýar, daşardan elastik möhür bilen örtülýär. 3. Kondensat zeýkeş → Suw kanallary profilleriň arka tarapynda dik drena kanal kanallaryna birikdirilýär. * -30 ° C-den pes taslamalar üçin termiki simulýasiýa hasabatlaryny we aýratyn aksesuar paketlerini berip biler.
Increasing Demand Drives Production Expansion
With the rapid growth of global demand for Aluminum Composite Panels (ACP), JIASHUNCAI is proud to announce the expansion of its manufacturing capacity.
Recently, a new production line has been successfully delivered to our factory and is currently under installation. This upgrade reflects the strong increase in orders from international markets and our commitment to providing fast delivery and stable supply.
Introduction: Strengthening Global Partnerships in ACP Industry
Recently, we were honored to welcome clients from India to visit our factory — Jiashuncai Aluminum Composite Panel (ACP) Manufacturer.
This visit marks an important step in strengthening international cooperation and reflects the growing demand for high-quality ACP panels in the Indian market.
Through face-to-face communication, factory inspection, and technical discussions, both sides gained deeper confidence for future collaboration.
Introduction to Aluminum Composite Panel Installation
Aluminum Composite Panels (ACP) are widely used in modern architecture for building facades, curtain walls, signage systems, and interior decoration. Because ACP panels are lightweight, durable, and easy to fabricate, they have become one of the most popular cladding materials in commercial construction projects.
However, improper installation or construction mistakes can lead to problems such as panel deformation, poor sealing, surface contamination, and weak bonding. Understanding these issues is essential for contractors, architects, and construction companies working with ACP panels.
This article explains the most common aluminum composite panel construction problems and how to prevent them.
