Method For The Precisely Fitting Positioning Of An Inner Boiler In The Outer Boiler Of An Air-Conditioning Cabinet And Air-Conditioning Cabinet
Abstract
An air-conditioning cabinet can have an outer boiler, an inner chamber with an inner chamber height, a cover, a bottom where the cover and bottom are separated by a distance that defines the inner chamber height, an inner boiler having a foot movably coupled to the inner boiler, where the inner boiler is arranged in the outer boiler, where the inner boiler height is less than the inner chamber height and where the foot is movably coupled to the inner boiler in such a manner that the inner boiler height is variable. Also, moving a position of the foot on the inner boiler can arrange the inner boiler such that the inner boiler is supported on the cover of the outer boiler and the foot is supported on the bottom of the outer boiler, and the foot can be fixed in the position.
Claims
exact text as granted — not AI-modified1 . A method for positioning an inner boiler in an air-conditioning cabinet, comprising:
providing an outer boiler with a cover and a bottom located opposite the cover, providing a component of an inner boiler, and positioning the component of the inner boiler between the cover and the bottom of the outer boiler, wherein the component of the inner boiler has a component height less than a height of an inner chamber of the outer boiler, which component height is a distance between the cover and the bottom of the outer boiler, and on which component a foot is movably arranged in such a manner that the component height, which includes the foot movably arranged on the component, is variable,
wherein a precisely fitting positioning is brought about by changing a position of the foot in the component of the inner boiler and arranged in the outer boiler, in which the component of the inner boiler is supported on the cover of the outer boiler and the foot is supported on the bottom of the outer boiler, and
wherein the foot is fixed in a position in which it brings about the precisely fitting positioning.
2 . The method according to claim 1 , wherein the precisely fitting positioning takes place by shifting the position of the foot in a plane parallel to the bottom of the outer boiler.
3 . The method according to claim 2 , wherein the shifting of the position of the foot takes place in a direction parallel to the component of the inner boiler on which component the foot is arranged.
4 . An air-conditioning cabinet, comprising:
an outer boiler comprising:
an inner chamber with an inner chamber height;
a cover; and
a bottom, wherein the cover and bottom are separated by a distance that defines the inner chamber height;
an inner boiler with an inner boiler component having an inner boiler component height, wherein the inner boiler is arranged in the outer boiler, and wherein a heating and/or cooling device is arranged between the outer boiler and the inner boiler; wherein the inner boiler component height is less than the inner chamber height; a foot movably arranged on the inner boiler component in such a manner that the inner boiler component height, which includes the foot, is variable, wherein a changing of a position of the foot on the inner boiler component can bring about a precisely fitting positioning in which the inner boiler component is supported on the cover of the outer boiler and the foot is supported on the bottom of the outer boiler, and wherein the foot can be fixed in the position.
5 . The air-conditioning cabinet according to claim 4 , wherein the foot is arranged on the component of the inner boiler in such a manner that the height of the at least one available component of the inner boiler can be varied with the at least one foot arranged on it by a shifting parallel to the plane defined by the bottom of the outer boiler.
6 . The air-conditioning cabinet according to claim 5 , wherein the foot is arranged on the inner boiler component in such a manner that the inner boiler height with the foot arranged on it can be varied by a shifting parallel to the inner boiler component on which inner boiler component the foot is arranged.
7 . The air-conditioning cabinet according to claim 6 , wherein the component of the inner boiler comprises a bolt, and that foot comprises an oblong hole in which the bolt is guided, wherein a distance of the oblong hole from an end of the foot, which end faces the bottom of the outer boiler, varies.
8 . The air-conditioning cabinet according to claim 7 , wherein the oblong hole runs at an angle of about 45° relative to the bottom of the outer boiler.
9 . The air-conditioning cabinet according to claim 4 , wherein the foot has a surface for introducing a shifting force.
10 . An air-conditioning cabinet, comprising:
an outer boiler comprising:
an inner chamber with an inner chamber height;
a cover; and
a bottom, wherein the cover and bottom are separated by a distance that defines the inner chamber height;
an inner boiler having a foot movably coupled to the inner boiler; wherein a height of the inner boiler includes the foot; wherein the inner boiler is arranged in the outer boiler, wherein the inner boiler height is less than the inner chamber height; wherein the foot is movably coupled to the inner boiler in such a manner that the inner boiler height is variable; wherein moving a position of the foot on the inner boiler arranges the inner boiler such that the inner boiler is supported on the cover of the outer boiler and the foot is supported on the bottom of the outer boiler; and wherein the foot can be fixed in the position.Cited by (0)
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