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Autoclaves médicos verticais
Os autoclaves verticais para fins médicos estão disponíveis em 14 modelos com volumes de câmara de 33 a 175 litros. O seu design ergonómico, as suas características tecnológicas e a sua eficácia fazem deles o aliado perfeito para esterilizar grandes quantidades de resíduos médicos, instrumentos clínicos ou dispositivos em bolsas. Além disso, estes autoclaves podem ser equipados com uma grua que pode ser integrada no painel lateral para facilitar a esterilização de cargas pesadas.
Solicitar orçamento
Volumes: 33, 55, 79, 115, 175
Tipo: Vertical
Volumes: 33, 55, 79, 115, 175
Tipo: Vertical
Volumes: 55, 79, 115, 175
Tipo: Vertical
Volumes: 58, 83, 124, 169
Tipo: Vertical
Volumes: 58, 83, 124, 169
Tipo: Vertical
Volumes: 58, 83, 124, 169
Tipo: Vertical
Autoclaves médicos de bancada
Os autoclaves de bancada para fins médicos estão disponíveis em 11 modelos com volumes de câmara de 12 a 79 litros. O seu design compacto combinado com a sua posição em bancada torna-os perfeitos para clínicas e pequenas instalações de cuidados de saúde com necessidades de esterilização pequenas a moderadas.
Solicitar orçamento
Volumes: 22, 55, 79
Tipo: Horizontal
Volumes: 22, 55, 79
Tipo: Horizontal
Volumes: 22, 55, 79
Tipo: Horizontal
Volumes: 15
Tipo: Horizontal
Autoclaves médicos com tecnologia de ponta
Todos os autoclaves verticais Top line possuem a conetividade mais avançada do mercado e estão em conformidade com os mais recentes avanços na manutenção de registos eletrónicos e controlo de dados, de modo a funcionarem em ambientes FDA, GMP e GLP.
A série TLV-PD foi especialmente concebida para esterilizar vidro, sólidos porosos e objetos com geometrias complexas. A série TLV-FA possui um sistema de arrefecimento rápido para uma esterilização mais rápida de líquidos.
Solicitar orçamento
Volumes: 58, 83, 124, 169
Tipo: Vertical
Volumes: 58, 83, 124, 169
Tipo: Vertical
Volumes: 58, 83, 124, 169
Tipo: Vertical
Perguntas frequentes
Os autoclaves médicos estão disponíveis para venda na maioria dos países, mas não nos países da União Europeia.
A norma ISO 13485 é a norma do sistema de gestão da qualidade aplicável aos dispositivos médicos. A edição atual é a ISO 13485:2016. Os autoclaves médicos da RAYPA cumprem esta norma e a sua conformidade é auditada pela SGS.
Pode descarregar a versão mais recente a partir do nosso site. Em alternativa, pode enviar-nos um e-mail ou um formulário de contacto e nós fornecer-lhe-emos o catálogo geral ou ficha técnica específica.
Blog
Descubra o que é um autoclave e a sua importância na ciência e na indústria. Leia o artigo para obter mais pormenores sobre o seu funcionamento e aplicações.
Ler artigo Evite os erros mais comuns na utilização de autoclaves e melhore os seus processos de esterilização. Descubra como no nosso artigo.
Ler artigo Saiba como cumprir a norma FDA 21 CFR Parte 11 e garanta que os seus registos eletrónicos são seguros e fiáveis. Leia o artigo para obter informações mais pormenorizadas.
Ler artigo Descubra os principais ciclos de esterilização de um autoclave e como escolher o mais adequado de acordo com o tipo de instrumentos a tratar.
Ler artigo Descubra como o ciclo gravitacional em autoclaves garante uma esterilização eficiente e económica de materiais simples. Leia o artigo para compreender o seu funcionamento e as suas vantagens.
Ler artigo
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