The basic (k, n)-threshold visual cryptography scheme is to share a secret image with n participators. The secret image can be recovered while stacking k or more shares obtained; but you will get nothing if there are less than k shares being overlapped. Based on this concept, even though we get k-1 shares, we still do not know anything about the secret, which may cause the inconvenience of sharing information. Progressive visual cryptography can be utilized to recover the secret image gradually by superimposing more and more shares. In other words, if we only have a few pieces of shares, we get an outline of the secret; but by increasing the number of the shares being stacked, the details of the secret information can be revealed progressively. Previous researches of progressive visual cryptography were all based upon pixel-expansion, which not only causes the waste of storage space and transmission time but also gets a poor visual quality on the stacked image. Furthermore, Fang & Lin's research had a severe security problem that will disclose the secret information on each shares. In this paper we proposed a brand new sharing scheme of progressive visual cryptography to produce pixel- unexpanded shares. When stacking more shares, the contour of the secret image will get much clearer on the stacked shares. The objectives we have achieved in this paper include secure, better visual quality on the stacked image, smaller size of shares, and progressive transmission. In our research, the possibility for either black or white pixels of the secret image to appear as black pixels on the shares are the same, which equals to 1/n, therefore no one can obtain any secret information from a single share, which ensures the security. When superimposing k sheets of share, the possibility for the white pixels being stacked into black pixels remains 1/n, while for the black pixels the possibility are raised to k/n, which sharpens the contrast of the stacked image and the recovered secret image will become more and more obvious. After superimposing all shares, the color contrast rises to (n-1)/n which is better than the traditional ways of 50%, consequently a clearer recovered image can be achieved.