Ink-jet recording head, recording element substrate, method for manufacturing ink-jet recording head, and method for manufacturing recording element substrate

What is claimed is: 1. An ink-jet recording head comprising: a supporting member; and a plurality of recording element substrates, wherein each recording element substrate has a first surface through which an ink discharge port is defined, and an etched side surface intersecting with the first surface and having a surface accuracy of several micrometers, and wherein the plurality of recording element substrates are arranged on the supporting member such that the etched side surface of one recording element substrate faces the etched side surface of another recording element substrate. 2. The ink-jet recording head according to claim 1 , wherein the plurality of recording element substrates are disposed on the supporting member so as to be in contact with each other at the etched side surfaces of the recording element substrates. 3. The ink-jet recording head according to claim 1 , wherein the etched side surfaces are reference positioning surfaces defining relative positions of the recording element substrates. 4. The ink-jet recording head according to claim 1 , wherein the supporting member includes a positioning portion, and wherein the recording element substrates are disposed so as to be in contact with the positioning portion at the etched side surfaces of the recording element substrates. 5. The ink-jet recording head according to claim 1 , wherein the etched side surfaces are dry-etched side surfaces. 6. The ink-jet recording head according to claim 1 , wherein the etched side surfaces are anisotropically-etched side surfaces. 7. The ink-jet recording head according to claim 1 , further comprising: an energy generating element configured to generate energy for ejecting ink; and a supply port from which ink is supplied to the energy generating element, the supply port having etched surfaces. 8. An ink-jet recording head comprising: a supporting member; and a plurality of recording element substrates, wherein each recording element substrate includes: a member having an ink discharge port through which liquid is ejected; a substrate having an energy generating element configured to generate energy for ejecting liquid; and an etched side surface having a surface accuracy of several micrometers, and wherein the plurality of recording element substrates are arranged on the supporting member such that the etched side surface of one recording element substrate faces the etched side surface of another recording element substrate. 9. An ink-jet recording head comprising: a supporting member; and a plurality of recording element substrates, wherein each recording element substrate has a first surface through which an ink discharge port is defined, and an etched side surface intersecting with the first surface and having a surface accuracy of less than 15 micrometers, and wherein the plurality of recording element substrates are arranged on the supporting member such that the etched side surface of one recording element substrate faces the etched side surface of another recording element substrate. 10. An ink-jet recording head comprising: a supporting member; and a plurality of recording element substrates, wherein each recording element substrate has a first surface through which an ink discharge port is defined, and an etched side surface intersecting with the first surface and having a surface accuracy higher than a surface accuracy of a surface formed by dicing, and wherein the plurality of recording element substrates are arranged on the supporting member such that the etched side surface of one recording element substrate faces the etched side surface of another recording element substrate. 11. A liquid-jet recording head comprising: a first recording element substrate and a second recording element substrate, each having a member including an discharge port from which liquid is ejected, a substrate including a supply port for supplying liquid ejected from the discharge port, and an etched side surface having a surface accuracy of less than 15 micrometers; and a supporting member configured to support the first recording element substrate and the second recording element substrate arranged in a predetermined direction, wherein surfaces of the first recording element substrate and the second recording element substrate that face each other are the etched side surfaces.