We present a quantum mechanical (QM) analysis of Bell’s approach to quantum foundations based on his hidden-variable model. We claim and try to justify that the Bell model contradicts to the Heinsenberg’s uncertainty and Bohr’s complementarity principles. The aim of this note is to point to the physical seed of the aforementioned principles. This is the Bohr’s quantum postulate: the existence of indivisible quantum of action given by the Planck constant h. By contradicting these basic principles of QM, Bell’s model implies rejection of this postulate as well. Thus, this hidden-variable model contradicts not only the QM-formalism, but also the fundamental feature of the quantum world discovered by Planck.

我们基于他的隐变量模型对Bell的量子基础方法进行了量子力学（QM）分析。我们声称并试图证明贝尔模型与海因森伯格的不确定性和玻尔的互补原理相矛盾。本说明的目的是指向上述原理的物理种子。这就是玻尔的量子假设：普朗克常数h给出不可分割的作用量子。通过与质量管理的这些基本原则相抵触，贝尔的模型也暗示了对这一假设的拒绝。因此，这种隐藏变量模型不仅与QM形式主义相矛盾，而且与普朗克发现的量子世界的基本特征相矛盾。