DE102016120637A1 - Radar level sensor with dust removal structures - Google Patents

Abstract

A radar level sensor (1, 1a) has a detection body (10, 10a), an antenna body (20, 20a) and a flat foil (30, 30a). The detection body (10, 10a) has a printed circuit board (12) which can emit detection signals and receive reflected signals. One end of the antenna body (20, 20a) is connected to the detection body (10, 10a). The flat film (30, 30a) is combined with the antenna body (20, 20a) and covers another end of the antenna body (20, 20a), wherein a stream of air passes through the flat film (30, 30a) to contact the flat film (30 30a) to remove adhering dust. Therefore, a radar level sensor (1, 1a) having dust removal structures is achieved, and no regular cleaning is necessary.

Description

BACKGROUND OF THE INVENTION

Field of the invention

The present invention relates generally to a level sensor, and more particularly to a radar level sensor with dust removal structures.

Description of the Related Art

A radar level sensor is a non-contact measurement that uses micro-pulses and can be installed in various types of metal or non-metal tanks or pipelines and therefore has advantages of ease of installation, easy maintenance, high accuracy, and applicability in many situations.

Generally, a radar level sensor is applicable in environments that are dusty, subject to severe temperature and pressure variations, and under conditions of inert gases, steam, or highly corrosive materials to perform non-contact measurement of liquid, slurry, or granular materials. However, if the radar level sensor is installed and operated in a powder material environment, or a high temperature steam environment, the radar level transmitter in the environment will be easily coated with dust or powders, resulting in a high accuracy error and even detection loss. Therefore, the radar level sensor must be cleaned regularly. However, this not only increases the labor costs, but also affects the reliability of the measurement results. Thus, the mission requirements are not met.

In view of the above drawbacks, the inventor proposes, based on thorough research, the present invention to solve the problems of the prior art.

BRIEF SUMMARY OF THE INVENTION

Accordingly, it is an object of the present invention to provide a radar level sensor with dust removal structures to eliminate the difficulty of periodic cleaning and reduce the risk of cleaning in a harsh environment, thereby increasing ease of use.

It is therefore another object of the present invention to provide a radar level sensor with dust removal structures that is maintained in a normal measurement state with measurement accuracy to enhance practical utility.

In order to achieve the above-mentioned objects, the present invention provides a radar level sensor with dust removal structures comprising a detection body, an antenna body, and a flat foil. The detection body has a printed circuit board which can emit detection signals and receive reflected signals. One end of the antenna body is connected to the detection body. The flat film is combined with the antenna body, in particular connected, and covers another end of the antenna body, wherein an air flow passes through the flat film in order to eliminate dust adhering to the flat film can.

In order to achieve the above-mentioned objects, the present invention provides a radar level sensor with dust removal structures, which cooperatively operates with a working gas and has a detection body, an antenna body, and a flat foil. The detection body has a gas passage and a printed circuit board which can emit detection signals and receive reflected signals. The antenna body has a hollow chamber. The antenna body has separately a first opening and a second opening at two ends of the hollow chamber, and the first opening is connected to the detection body. In particular, the antenna body can thus have a first opening and a second opening at two ends of the hollow chamber. The flat film is combined with the antenna body, in particular connected, and covers the second opening of the antenna body; wherein the working gas passes through the gas passage and deforms the flat sheet to remove dust adhering to the flat sheet.

Compared to the prior art, the radar level sensor with dust removal structures of the present invention combines the flat foil with the antenna body and covers another end of the antenna body. When an airflow passes through the flat sheet, dust adhering to an outside of the flat sheet is removed, so that no regular cleaning is necessary, thereby increasing the practicality and ease of use of the radar level sensor. In addition, the radar level sensor of the present invention is provided with a gas passage and works in cooperation with a working gas. When the working gas flows to the flat film and deforms the flat film, the flat film is expanded or contracted by the action of the working gas. As a result, dust adhering to the flat film (an outer surface) is removed; This achieves a cleaning function of the flat film.

In particular, the invention also relates to a flat material instead of the flat film. In this case, the flat material may be made of any other material.

list of figures

• 1 eine perspektivische Ansicht des Radarpegelgebers mit Staubentfernungsstrukturen der vorliegenden Erfindung;
• 2 eine Querschnittansicht des Radarpegelgebers mit Staubentfernungsstrukturen der vorliegenden Erfindung;
• 3 eine teilweise vergrößerte schematische Ansicht von 2;
• 4 eine Betriebsschemaansicht des Radarpegelgebers mit Staubentfernungsstrukturen der vorliegenden Erfindung;
• 5 eine weitere Ausführungsform des Radarpegelgebers mit Staubentfernungsstrukturen der vorliegenden Erfindung;
• 6 eine Luftblasschemaansicht einer weiteren Ausführungsform des Radarpegelgebers mit Staubentfernungsstrukturen der vorliegenden Erfindung;
• 7 eine Luftansaugschemaansicht einer weiteren Ausführungsform des Radarpegelgebers mit Staubentfernungsstrukturen der vorliegenden Erfindung; und
• 8 eine zweite Ausführungsform des Radarpegelgebers mit Staubentfernungsstrukturen der vorliegenden Erfindung.

The novel features of the invention are set forth with particularity in the appended claims. However, the invention itself may best be understood by reference to the following detailed description of the invention, which describes a number of embodiments of the invention, together with the accompanying drawings; show in it:

• 1 a perspective view of the Radarpegelgebers with dust removal structures of the present invention;
• 2 a cross-sectional view of the Radarpegelgebers with dust removal structures of the present invention;
• 3 a partially enlarged schematic view of 2 ;
• 4 1 is an operational schematic view of the radar level sensor with dust removal structures of the present invention;
• 5 another embodiment of the radar level sensor with dust removal structures of the present invention;
• 6 FIG. 4 is an air-line schematic view of another embodiment of the radar level sensor with dust removal structures of the present invention; FIG.
• 7 an air intake schematic view of another embodiment of the Radarpegelgebers with dust removal structures of the present invention; and
• 8th a second embodiment of the Radarpegelgebers with dust removal structures of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

With reference to the accompanying drawings, the technical content and detailed description of the invention will now be described in accordance with a number of preferred embodiments which are not intended to limit its scope. All equivalent modifications and modifications, which are made according to the appended claims, are covered by the claims the present invention.

It is referred to 1 to 3 11, which respectively show a perspective view, a schematic cross-sectional view of the radar level sensor with dust removal structures of the present invention, and a partially enlarged schematic view of FIG 2 demonstrate. A radar level sensor 1 with dust removal structures of the present invention has a detection body 10 , an antenna body 20 and a flat sheet 30 on, the antenna body 20 with the detection body 10 combined and the flat film 30 one side of the antenna body 20 covering, thereby the Radarpegelgeber 1 embody.

The detection body 10 has a gas passage 11 and a circuit board 12 which can emit detection signals and receive reflected signals, and the gas passage 11 stands with the interior of the antenna body 20 in connection.

The antenna body 20 has a hollow chamber 200 on. In addition, the antenna body 200 separately a first opening 201 and a second opening 202 at two ends of the hollow chamber 200 on, and the first opening 201 is with the detection body 10 connected. Preferably, the detection body 10 horn-shaped to have a better radiation field favorable for transmitting detection signals and receiving reflected signals to perform a measurement.

In addition, the flat film 30 with the antenna body 20 combined and covers the second opening 202 of the antenna body 20 from. Preferably, the flat film has 30 a plurality of pores; in practice, the flat film 30 made of non-woven fabric, glass fiber fabric or fabric with fine holes and the like.

In one embodiment of the present invention, the radar level sensor 1 also an antenna lens 40 on. The antenna lens 40 is between the antenna body 20 and the flat film 30 arranged. In addition, the antenna lens 40 at the second opening 202 of the antenna body 20 grown and is covered by the flat film 30 covered.

In the present embodiment, the antenna lens 40 a plurality of gas passage openings 41 on; Preferably, the gas passage openings 41 evenly spaced in an annular pattern.

With further reference to 4 Fig. 10 shows an operational schematic view of the radar level sensor with dust removal structures of the present invention. In the present embodiment, the radar level sensor operates 1 interacting with a working gas 2 , The working gas 2 is used to generate air flow, which is why there is no restriction on the nature of the gas. In practice, this is the working gas 2 so applicable, just not to react with the measurement object or the measurement environment.

When the radar level sensor 1 is used in the present invention, the working gas occurs 2 through the gas passage 11 and flows through the hollow chamber 200 , as in 4 shown; then it passes through the antenna lens 40 and flows out of the gas passage openings 41 out. Finally, the working gas flows to the flat film 30 and deforms the flat film 30 , More precise is the flat film 30 by the action of the working gas 2 deforming expansively or shrinking. This will be on the flat film 30 (an outer surface) adhering dust 3 eliminated, bringing a cleaning function of the flat film 30 is reached.

With further reference to 5 This shows another embodiment of the radar level sensor with dust removal structures of the present invention. In the present embodiment, the radar level sensor 1 also a sliding ball 50 on; Preferably, the sliding ball 50 a sphere made of a material with a low dielectric coefficient. In addition, the sliding ball 50 on an inside of the flat film 30 arranged and between the flat film 30 and the detection body 10 added. Thus, the sliding ball moves 50 if the flat film 30 For removing dust is deformed on the flat film 30 (an outer surface) adheres.

Further referring to 6 and 7 These show another embodiment of the radar level sensor with dust removal structures of the present invention. In the present embodiment, the radar level sensor 1 also a solenoid valve 60 on. The solenoid valve 60 additionally regulates the working gas 2 from the gas passage 11 out. In particular, the term "regulate" can be understood as controlling and / or regulating. In particular, there is a pressure difference between the working gas 2 and the outside air in front; the pressure difference leaves the flat film 30 vibrate, leaving dust 3 , the flat film 30 (an outer surface) adheres, is eliminated; This will be a cleaning function of the flat film 30 reached.

With further reference to 8th this shows a second embodiment of the radar level sensor with dust removal structures of the present invention. In the present embodiment, a radar level sensor 1a a detection body 10a , an antenna body 20a and a flat sheet 30a on. The detection body 10a has a printed circuit board (not shown) that can emit detection signals and receive reflected signals. One end of the antenna body 20a is also with the detection body 10a connected. The flat foil 30 is with the antenna body 20a combined and covers another end of the antenna body 20a from.

Preferably, the radar level sensor 1a further, an antenna lens 40a on. The antenna lens 40a is between the antenna body 20a and the flat film 30a arranged. The antenna lens 40a is to the antenna body 20a grown and used by the flat film 30a covered.

A difference between the present embodiment and the previous embodiment is that the detection body 10a not provided with a gas passage, that is, the Radarpegelgeber 1a does not cooperate with a working gas. In practice, when an outside airflow passes through an outer surface of the flat film 30a occurs, the air flow can be the flat film 30a deform and on the flat film 30a adhering dust 3 remove.

In particular, the embodiments described above also refer to a flat material instead of the flat film. The flat material thus be made of any other material.

Although the present invention has been described with reference to the preferred embodiment thereof, it should be understood that the invention is not limited to the details thereof. Various substitutions and improvements have been suggested in the foregoing description and others will be apparent to those skilled in the art. Therefore, all such substitutions and improvements are within the scope of the invention, which is defined in the appended claims.

Claims (10)

Radar level sensor (1, 1a) with dust removal structures, comprising: a detection body (10, 10a) having a circuit board (12) capable of emitting detection signals and receiving reflected signals; an antenna body (20, 20a) having an end connected to the detection body (10, 10a); and a flat film (30, 30a) combined with the antenna body (20, 20a) and covering another end of the antenna body (20, 20a); wherein an air flow through the flat film (30, 30a) occurs in order to eliminate dusts adhering thereto. A radar level sensor (1, 1a) having dust removal structures and cooperating with a working gas (2), comprising: a detection body (10, 10a) having a printed circuit board (12) capable of emitting detection signals and receiving reflected signals, and a gas passage (12); 11); an antenna body (20, 20a) having a hollow chamber (200); wherein the antenna body (20, 20a) to two ends of the hollow chamber (200) having a first opening (201) and a second opening (202) and the first opening (201) with the detection body (10, 10 a) is connected; and a flat sheet (30, 30a) combined with the antenna body (20, 20a) and covering the second opening (202) of the antenna body (20, 20a); wherein the working gas (2) passes through the gas passage (11) and deforms the flat film (30, 30a) to remove dust adhered thereto. Radar level sensor (1, 1a) with dust removal structures according to Claim 1 or 2 further comprising an antenna lens (40, 40a), said antenna lens (40, 40a) being disposed between said antenna body (20, 20a) and said flat film (30, 30a); wherein the antenna lens (40, 40a) is attached to the second opening (202) and covered by the flat film (30, 30a). Radar level sensor (1, 1a) with dust removal structures according to Claim 3 wherein the antenna lens (40, 40a) has a plurality of gas passage openings (41) and the gas passage openings (4) are evenly spaced in an annular pattern. Radar level sensor (1, 1a) with dust removal structures according to one of the preceding claims, wherein the flat film (30, 30a) has a plurality of pores. Radar level sensor (1, 1a) with dust removal structures according to any one of the preceding claims, further comprising a sliding ball (50), wherein the sliding ball (50) disposed on an inner side of the flat film (30, 30a) and between the flat film (30, 30a) and the Detection body (10, 10a) is received; wherein the sliding ball (50) is moved when the flat foil (30, 30a) is deformed to remove dust adhering to the flat foil (30, 30a). Radar level sensor (1, 1a) with dust removal structures according to Claim 6 wherein the sliding ball (50) is a ball made of a material having a low dielectric coefficient. A radar level sensor (1, 1a) having dust removal structures as claimed in any one of the preceding claims, further comprising a solenoid valve (60), said solenoid valve (60) controlling said working gas (2) from said gas passage (11); wherein the flat film (30, 30a) is deformed by the action of the working gas expanding or shrinking. Radar level sensor (1, 1a) with dust removal structures according to any one of the preceding claims, wherein the flat film (30, 30a) is made of non-woven fabric, glass fiber fabric or fabric with fine holes. Radar level sensor (1, 1a) with dust removal structures according to one of the preceding claims, wherein the detection body (10, 10a) is horn-shaped.

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