Generally the OpenSSL encrypt with private key method is used to provide for a very specific SSL method of signature generation:
Concatenating outputs from multiple hash functions provides collision
resistance as good as the strongest of the algorithms included in the
concatenated result. For example, older versions of TLS/SSL use
concatenated MD5 and SHA-1 sums; that ensures that a method to find
collisions in one of the functions doesn't allow forging traffic
protected with both functions.
Source: see the Wikipedia page for the cryptographic hash function and look up concatenation of cryptographic hash functions.
As most libraries don't provide a signature format like that (and since the SSL version of the signature does not use an embedded ASN.1 structure around the hashes) this is implemented most of the time using an encrypt function instead. The difference that you are experiencing is probably the missing ASN.1 structure (see the PKCS#1 v2.1 standard to see what ASN.1 structure I'm talking about).
You can place a pretty good bet on that it uses the PKCS#1 padding for signatures instead of the padding used for encryption. And, as indicated, it won't contain the ASN.1 structure or the hash, instead it will just use the given put the given data in place of the ASN.1 structure.
It is not recommended to use this function outside support for existing (deprecated) protocols. If you use it for encryption purposes you will make yourself vulnerable to all kinds of attacks, so please don't make that mistake.