Mixing element for a static mixer

The invention is claimed as follows: 1. A mixing element for a static mixer and configured to be installed into a tubular mixer housing, the mixing element comprising: at least one first installation body and one second installation body arranged behind one another along a longitudinal axis of the mixing element; and an inlet element arranged upstream of the first installation body, the inlet element and the first installation body being integrally connected via a connection element, the inlet element having a body configured to be sealingly taken up peripherally in a tubular mixer housing, the body of the inlet element having a first inlet passage and a second inlet passage, the first inlet passage having a first entry opening and a first exit opening, the first entry opening being disposed in a first outer surface of the body of the inlet element that extends transverse to the longitudinal axis of the mixing element, the first exit opening being disposed in a second outer surface of the body of the inlet element opposite the first outer surface and that extends transverse to the longitudinal axis of the mixing element, the first inlet passage extending through the body of the inlet element from the first entry opening to the first exit opening, the second inlet passage having a second entry opening and a second exit opening so that corresponding components can be conducted through the first inlet passage from the first entry opening to the first exit opening and through the second inlet passage from the second entry opening to the second exit opening, the first inlet passage extending spatially separately from the second inlet passage, the first inlet passage configured to open into a pre-chamber external to the body of the inlet element and that is defined by the second outer surface of the body of the inlet element, by the connection element, by an inner wall of the mixer housing and by the first installation body, the first inlet passage being upstream of the second outer surface of the body and configured to be disposed at least partially within the mixer housing, the second inlet passage extending from the second exit opening into an inner space of the connection element such that a continuation passage opens into a mixing space of the first installation body from the inner space of the connection element, the pre-chamber and the inner space being separated by the connection element such that components in the pre-chamber are separated from components in the inner space, the inlet element includes a wall element separating the first exit opening from the second exit opening to maintain separation of the components in the pre-chamber and the inner space of the connection element, a ratio of a cross-sectional area of the continuation passage to a remaining free cross-sectional area being at most 1:4, the cross-sectional areas being taken on a sectional plane normal to the longitudinal axis and arranged at a mixer entry. 2. The mixing element in accordance with claim 1 , wherein the second inlet passage constricts in the inner space of the connection element. 3. The mixing element in accordance with claim 1 , wherein the second inlet passage extends in the inner space of the connection element from an entry side to an exit side, the second inlet passage having an inner diameter reducing continuously from the entry side up to the exit side. 4. The mixing element in accordance with claim 1 , wherein a ratio of a cross-sectional area directly following one of the first and second exit openings and available for the components at this point to a cross-sectional area directly following the other of the first and second exit openings and available for the components at this point is at least 5:1. 5. The mixing element in accordance with claim 1 , wherein a ratio of a cross-sectional area of one of the first and second entry openings to a cross-sectional area of the other of the first and second entry openings is at least 5:1. 6. The mixing element in accordance with claim 1 , wherein a ratio of a cross-sectional area of one of the first and second entry openings to a cross-sectional area adjoining the corresponding first or second exit opening is at least 2:1. 7. The mixing element in accordance with claim 1 , wherein the first installation body has a first wall element which extends in the direction of the longitudinal axis and has a first side wall and a second side wall which is arranged opposite the first side wall, the first wall element forming the connection element. 8. The mixing element in accordance with claim 7 , further comprising a deflection element arranged adjacent to the first wall element of the first installation body and the deflection element has a deflection surface extending in a transverse direction to the first wall element of the first installation body at both sides of the first wall element of the second installation body, a first opening being provided in the deflection surface at the side which faces the first side wall of the first wall element of the first installation body, a second and a third wall element arranged adjacent to the first opening, the second and third wall elements extending in the direction of the longitudinal axis, each have an inner wall and an outer wall, which extend substantially in the direction of the longitudinal axis and each of the inner walls and outer walls include an angle between 20° and 160° with the first or second side wall of the first wall element of the first installation body, the first opening being arranged between the inner walls of the second and third wall elements, a second opening being arranged outside one of the outer walls of the second or third wall element, the second opening being provided in the deflection surface at the side facing the second side wall of the first wall element of the first installation body, and a first wall element of the second installation body adjoining the second and third wall elements. 9. The mixing element in accordance with claim 1 , wherein the second installation body has a first wall element extending in the direction of the longitudinal axis and has a first side wall and a second side wall which is arranged opposite the first side wall, the mixing element further comprising a deflection element arranged adjacent to the first wall element of the second installation body and the deflection element having a deflection surface extending in the transverse direction to the first wall element of the second installation body at both sides of the first wall element of the second installation body, a first opening being provided in the deflection surface at a side which faces the second side wall of the wall element of the second installation body, second and third wall elements are arranged adjacent to the first opening, the second and third wall elements extending in the direction of the longitudinal axis and each have an inner wall and an outer wall which extend substantially in the direction of the longitudinal axis, each of the inner walls and outer walls having an angle between 20° and 160° with one of the first and second side walls of the first wall element of the second installation body, the first opening being arranged between the inner walls of the second and third wall elements, a second opening being arranged outside one of the outer walls of the second or third wall elements, the second opening being provided in the deflection surface at the side which faces the second side wall of the first wall element of the second installation body, the second installation body containing the first wall element, the deflection element and the second and third wall elements are arranged rotated about the longitudina