The present invention provides a fruit crushing and juicing device. When fruit seeds are discharged with residues by passing through a juicing roller in a step of cutting several sorts of fruits such as applies, pears, and the like to a suitable size and pressing the fruits by the juicing roller to extract fruit juice, a fruit juice discharge unit side of the juicing roller is formed not to be separated, such that residues are not discharged with juice toward the fruit juice discharge unit side of the juicing roller. A fruit feeding port is formed at the top of a frame for constituting a juicer, and a fruit crushing container having a rotation blade installed therein is formed. A hopper for collecting crushed fruits and a fruit pressing plate are installed at the bottom of the crushing container, and the juicing roller is installed to be inclined at the bottom of the hopper to be closely placed to each other by hydraulic pressure and to be rotated. A porous plate having a juicing discharge hole formed thereon is installed such that only juice can be discharged while fruits crushed at a lower side of the juicing roller to which juiced juice is discharged are not separated as the juicing roller is installed to be inclined. A residue separation plate is installed at the bottom of the juicing roller, and a cushion ring body is formed at one side of the juicing roller to prevent separation of the fruit juice discharge unit side of the juicing roller when seeds pass with residues through the juicing roller in a juicing step. According to the present invention, fruits are crushed, and the crushed fruits are forcibly pushed into the juicing roller. Then, fruit juice can be juiced by compression of the juicing roller. Accordingly, a greater quantity of fruit juice can be juiced. When seeds pass through the juicing roller with residues, the fruit juice discharge unit side is not separated. Accordingly, clean fruit juice without residues can be produced.본 발명은 사과, 배 등 각종 과일을 적당
