DE102017111195A1 - Device for compressing gases or pumping liquids - Google Patents

Abstract

In a device (100) for compressing gases or pumps of liquids, comprising a hollow cylinder (110) in the region of its two opposing inner end faces (111, 112) each having an opening (113, 114) for the inlet of a working gas in the hollow cylinder (110) and for discharging the working gas from the hollow cylinder (110), a weight reduction with improved efficiency over the conventional devices is achieved in that inside the hollow cylinder (110) a magnetizable piston (120) is mounted reciprocally and magnetic alternating field generating means (130) are provided to cause oscillating movement of the piston (120) along a central axis (115) of the hollow cylinder (110).

Description

The invention relates to a device for compressing gases or pumps of liquids, with a hollow cylinder which is provided in the region of its two opposing inner end faces, each with an opening for the inlet of a working gas in the hollow cylinder and for discharging the working gas from the hollow cylinder.

Devices of the type mentioned are used in the prior art, for example, in the form of compressors to compress air or industrial gases. However, the known devices have either the disadvantage of a high weight or a comparatively low efficiency.

The object of the invention is therefore to provide a device for compressing gases, whose weight is reduced with improved efficiency over the conventional devices.

For a device of the type mentioned, this object is achieved in that inside the hollow cylinder, a magnetizable piston is reciprocally mounted and magnetic alternating fields generating means are provided to cause a swinging movement of the piston along a central axis of the hollow cylinder.

Preferred embodiments of the invention are the subject of the subclaims, the elements of which act in the sense of a further improvement of the approach to the solution on which the invention is based.

In the device according to the invention is using the feature combination that inside the hollow cylinder, a magnetizable piston is reciprocally mounted and magnetic alternating field generating means are provided to cause a swinging movement of the piston along a central axis of the hollow cylinder, based on a novel mode of action gas -Verdichtungs device created by means of which high efficiencies can be achieved with low weight.

According to a first preferred embodiment of the device according to the invention it is provided that the end faces of the piston is formed parallel to a respective adjacent inner end face of the hollow cylinder.

Preferably, the alternating magnetic fields are designed to cause up to the respective inner end faces adjacent oscillatory movements of the piston. In addition, the oscillatory motions are preferably harmonic according to a harmonic oscillator.

According to a further preferred embodiment of the device according to the invention two valves are arranged in the region of each of the openings in the opposite end faces of the hollow cylinder, wherein a first valve opens to direct a working gas from a reservoir into the interior of the hollow cylinder and closes to prevent penetration to prevent compressed working gas from the hollow cylinder.

According to the above embodiment, it is provided that a second valve opens to direct a working gas from the interior of the hollow cylinder into a pressure vessel and closes to prevent escape of compressed working gas from the pressure vessel.

According to an important preferred embodiment of the device according to the invention, the magnetizable piston is formed by a permanent magnet, and the magnetic alternating field generating means are each formed by a rotatably mounted in the vicinity of an end face of the hollow cylinder mounted permanent magnet.

In this embodiment, in a rotation by 180 ° of the permanent magnets, the longitudinal axes of the two permanent magnets from a first position in which the longitudinal axes are mutually collinear and collinear with the longitudinal axis of the hollow cylinder aligned and each with the same first poles of the permanent magnets, in a second Position can be transferred, in which the longitudinal axes of the two permanent magnets are mutually aligned parallel and perpendicular to the longitudinal axis of the hollow cylinder, and are then transferred from the second position to a third position, in which the longitudinal axes of the two permanent magnets again mutually collinear and collinear with the longitudinal axis are aligned with the hollow cylinder and facing each other like second poles of the permanent magnets.

According to an alternative important preferred embodiment of the device according to the invention, the magnetizable piston is formed by a permanent magnet and the alternating magnetic field generating means are each formed by a magnetizable metal body arranged in the vicinity of a respective end surface of the hollow cylinder within a respective coil, the polarity of which by means of alternating current Predetermined changeable predetermined frequency and strength coils can be changed.

In this embodiment, the alternating current of predetermined frequency and intensity flowing through the coils is designed to generate in the two coils uniformly changing magnetic fields of opposite polarity to thereby produce in the collinearly arranged magnetizable metal bodies mutually uniformly changing magnetic fields of opposite polarity respectively, which put the piston in vibrations of predetermined frequency and amplitude.

According to another important alternative preferred embodiment of the device according to the invention permanent magnets of mutually opposite polarity are collinearly arranged in the vicinity of a respective end face of the hollow cylinder, wherein the magnetizable piston is magnetizable by means of magnetic alternating fields generating means to oscillate the piston along the central axis of the hollow cylinder cause.

In this embodiment, the alternating magnetic field generating means are constituted by a coil surrounding the hollow cylinder, through which an alternating current of predetermined frequency and intensity flows, to generate in the magnetized metal piston a magnetic alternating field interacting with the static fields of the permanent magnets. which puts the piston within the hollow cylinder in vibrations of predetermined frequency and amplitude.

The device according to the invention can be aggregated into a battery in the form of a plurality of hollow cylinders arranged one behind the other.

• 1 eine skizzenartige Darstellung einer bevorzugten Ausführungsform der erfindungsgemäßen Vorrichtung in einer Querschnittsansicht.
• 2 eine weitere skizzenartige Darstellung einer bevorzugten Ausführungsform der erfindungsgemäßen Vorrichtung in einer Querschnittsansicht.
• 3 eine weitere skizzenartige Darstellung einer bevorzugten Ausführungsform der erfindungsgemäßen Vorrichtung in einer Querschnittsansicht.

The device according to the invention is explained below with reference to a preferred embodiment, which is shown in the figures of the drawing. It shows:

• 1 a sketch-like representation of a preferred embodiment of the device according to the invention in a cross-sectional view.
• 2 a further sketch-like representation of a preferred embodiment of the device according to the invention in a cross-sectional view.
• 3 a further sketch-like representation of a preferred embodiment of the device according to the invention in a cross-sectional view.

In the 1 to 3 illustrated inventive device 100 for compressing gases or pumps of liquids contains a hollow cylinder 110 , in the area of its two opposing inner faces 111 . 112 each with an opening 113 . 114 for the admission of a working gas into the hollow cylinder 110 and for discharging the working gas from the hollow cylinder 110 is provided.

Inside the hollow cylinder 110 is a magnetizable piston 120 stored reciprocally, wherein magnetic alternating field generating devices 130 are provided to oscillate the piston 120 along a central axis 115 of the hollow cylinder 110 to effect. The faces 121 . 122 of the piston 120 are parallel to a respective adjacent inner end face 111 . 112 of the hollow cylinder 110 educated.

Furthermore, the alternating magnetic fields are designed to extend to the respective inner end faces 121 . 122 adjacent harmonic oscillatory motion of the piston 120 to cause.

In the area of each of the openings 113 . 114 in the opposing faces 111 . 112 of the hollow cylinder 110 are two valves 141 . 142 provided, wherein a first valve 141 opens to a working gas from a store 150 into the interior of the hollow cylinder 110 to conduct and close, to prevent compressed working gas from entering the hollow cylinder 110 to prevent, and a second valve 142 opens to a working gas from inside the hollow cylinder 110 in a pressure vessel 160 to conduct and close, to escape compressed working gas from the pressure vessel 160 to prevent.

The magnetizable piston 120 is formed by a permanent magnet, and the magnetic field generating means 130 are each one in the vicinity of an end face 111 . 112 of the hollow cylinder 110 arranged rotatably mounted permanent magnet 131 . 132 educated.

With a rotation around 180 ° of the permanent magnets 131 . 132 become the longitudinal axes 133 . 133 ' the two permanent magnets 131 . 132 from a first position where the longitudinal axes 133 . 133 ' mutually collinear as well as collinear with the longitudinal axis 115 of the hollow cylinder 110 are aligned and each same first pole of the permanent magnets 131 . 132 facing, transferred to a second position, in which the longitudinal axes 133 . 133 ' the two permanent magnets 131 . 132 mutually parallel and perpendicular to the longitudinal axis 115 of the hollow cylinder 110 are aligned.

From the second position are the longitudinal axes 133 . 133 ' the two permanent magnets 131 . 132 transferred to a third position, in which the longitudinal axes 133 . 133 ' the two permanent magnets 131 . 132 again, mutually collinear and collinear with the longitudinal axis 115 of the hollow cylinder 110 are aligned and each identically named second pole of the permanent magnets 131 . 132 face.

A plurality of hollow cylinders placed one behind the other 110 is arranged in an aggregation to form a battery.

The above-described embodiment of the invention is merely for the purpose of better understanding of the teaching of the invention predetermined by the teaching, which is not limited as such by the embodiment.

LIST OF REFERENCE NUMBERS

100 =

contraption

110 =

hollow cylinder

111, 112 =

inner end face of the hollow cylinder

113, 114

opening

115 =

central axis (longitudinal axis)

120 =

piston

121, 122 =

Face of the piston

130 =

magnetic alternating field generating devices

131, 132 =

permanent magnets

133, 133 '=

Longitudinal axes of the permanent magnets

141 =

first valve

142 =

second valve

141, 142 =

valves

150 =

Storage

160 =

pressure vessel

170, 170 '=

metal body

180, 180 '=

Do the washing up

190 =

Kitchen sink

Claims (12)

Device (100) for compressing gases or pumps of liquids, comprising a hollow cylinder (110) in the region of its two opposing inner end faces (111, 112) each having an opening (113, 114) for the inlet of a working gas into the hollow cylinder (110) and for discharging the working gas from the hollow cylinder (110), characterized in that inside the hollow cylinder (110) a magnetizable piston (120) is reciprocally mounted and magnetic alternating field generating means (130) are provided to a To cause oscillating movement of the piston (120) along a central axis (115) of the hollow cylinder (110). Device (100) according to Claim 1 , characterized in that the end faces (121, 122) of the piston (120) parallel to a respective adjacent inner end face (111, 112) of the hollow cylinder (110) is formed. Device (100) according to one of the preceding claims, characterized in that the alternating magnetic fields are designed to cause an oscillating movement of the piston (120) adjacent to the respective inner end faces (111, 112). Device (100) according to one of the preceding claims, characterized in that the alternating magnetic fields are designed to cause harmonic oscillating movement of the piston (120). Apparatus (100) according to any one of the preceding claims, characterized in that in the region of each of the openings (113, 114) in the opposite end faces (111, 112) of the hollow cylinder (110) two valves (141, 142) are arranged, a first valve (141) opens to direct a working gas from a reservoir (150) into the interior of the hollow cylinder (110) and closes to prevent ingress of compressed working gas from the hollow cylinder (110), and a second valve ( 142) opens to direct a working gas from the interior of the hollow cylinder (110) into a pressure vessel (160) and closes to prevent escape of compressed working gas from the pressure vessel (160). Device (100) according to one of Claims 1 to 5 , characterized in that the magnetizable piston (120) is formed by a permanent magnet, and the magnetic alternating field generating means (130) of each one in the vicinity of an end face (111, 112) of the hollow cylinder (110) arranged rotatably mounted permanent magnet (131 , 132) are formed. Device (100) according to Claim 6 , characterized in that upon rotation through 180 ° of the permanent magnets (131, 132) the longitudinal axes (133, 133 ') of the two permanent magnets (131, 132) from a first position in which the longitudinal axes (133, 133') are mutually collinear and collinear with the longitudinal axis (115) of the hollow cylinder (110) and are aligned respective first poles of the same permanent magnets (131, 132) are opposite, in a second position can be transferred, in which the longitudinal axes (133, 133 ') of the two permanent magnets (131, 132) mutually parallel and thereby perpendicular to the longitudinal axis (115) of the hollow cylinder (110) are alignable, and are convertible from the second position to a third position, in which the longitudinal axes (133, 133 ') of the two permanent magnets (131, 132) again mutually collinear and collinear with the longitudinal axis (115) of the hollow cylinder ( 110) are aligned and in each case the same second poles of the permanent magnets (131, 132) facing each other. Device (100) according to one of Claims 1 to 5 characterized in that the magnetizable piston (120) is formed by a permanent magnet and the alternating magnetic field generating means (130) of each one in the vicinity of a respective end face (111, 112) of the hollow cylinder (110) within a respective coil (180 , 180 ') arranged magnetizable metal body (170, 170') are formed, whose polarity by means of the AC of predetermined frequency and strength traversed coils (180, 180 ') is specifiable changeable. Device (100) according to Claim 8 characterized in that the alternating current of predetermined frequency and intensity flowing through the coils (180, 180 ') is adapted to generate in the two coils (180, 180') uniformly alternating magnetic alternating fields of opposite polarity around the collinear magnetizable metal bodies (170, 170 ') mutually uniformly changing magnetic fields each produce opposite polarity which causes the piston (120) to vibrate at predetermined frequency and amplitude. Device (100) according to one of Claims 1 to 5 , characterized in that in the vicinity of a respective end face (111, 112) of the hollow cylinder (110) permanent magnets (131, 132) of mutually opposite polarity are arranged collinear and the magnetizable piston (120) by means of magnetic alternating field generating means (130) is magnetizable to cause oscillating movement of the piston (120) along the central axis (115) of the hollow cylinder (110). Device (100) according to Claim 10 characterized in that the alternating magnetic field generating means (130) are constituted by a coil (190) surrounding the hollow cylinder (110), through which an alternating current of predetermined frequency and intensity flows, to flow in the piston (120) made of a magnetizable metal ) to generate a cooperating with the static fields of the permanent magnets (131, 132) alternating magnetic field, which puts the piston (120) within the hollow cylinder (110) in vibrations of predetermined frequency and amplitude. Device according to one of the preceding claims, characterized in that a plurality of successively arranged hollow cylinder (110) is provided.

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