KR200464271Y1 - Reed switch assembly and gas meter - Google Patents

Abstract

The present invention relates to a reed switch assembly installed in the metering guide of the gas meter to generate a pulse, the reed switch; A housing installed below the measurement guide part and formed of a non-metallic material in a hollow rectangular cylinder shape; A groove formed on an upper surface of the housing and in which the reed switch is installed; An inner cover installed to be in close contact with a lower surface of the inside of the housing; A plurality of magnetic shielding members disposed between the upper surface of the housing and the inner cover and formed in a plate shape; And a front cover installed at an opening of the housing and covering at least a portion of the reed switch and the plurality of magnetic shielding members.

Description

Reed switch assembly and gas meter having same {Reed switch assembly and gas meter}

The present invention relates to a gas meter, and more particularly, to a reed switch assembly used in the gas meter and capable of shielding an external magnetic field.

Gas meters are installed in gas supply lines, such as city gas or LPG, which are supplied to various buildings such as houses and apartments for heating or cooking purposes.

In general, such a gas meter is provided with a mechanism that reciprocates by a gas supply pressure, such as a diaphragm, and is installed above the mechanism, and converts the reciprocation of the mechanism into a rotational movement of a counter to integrate and display the gas usage. Includes weighing instructions.

The metering instructions are equipped with a reed switch that generates a pulse signal for remote meter reading. That is, the metering guide unit is provided with a plurality of number wheels that rotate by the reciprocating motion of the diaphragm to indicate the gas usage, and magnets are installed in specific number wheels among the plurality of number wheels. Typically, a magnet is attached to the number wheel that represents the bottom digit. If the reed switch is installed in close proximity to the magnet attached to the number wheel, the reed switch will generate one pulse when the number wheel rotates once, the magnet approaches and moves away from the reed switch. Therefore, when the remote display unit can be wired or wirelessly connected to the reed switch to count and display the number of pulses, the gas usage of the gas meter can be read remotely.

As described above, the gas meter using the magnet and the reed switch uses the principle that the reed switch operates as the number 설치된 of the magnet is approached and moves away from the reed switch. However, when the magnet is in close proximity to the outside of the gas meter, the operation of the reed switch stops or malfunctions by the external magnet, so that the gas usage indicated by the numeric wheel of the metering guide section and the gas usage of the remote display unit displayed on the outside are different. There is a problem that occurs and does not represent the exact gas usage.

In order to prevent such a problem, the Korean Agency for Technology and Standards recently revised the technical standard so that only gas meters that passed the static magnetic field test could be used (Korean Standards Publication No. 2011-0063). Accordingly, gas meter manufacturers need to manufacture gas meters that meet these new technical standards.

Various methods can be applied to satisfy these technical standards. However, in the case of applying a method outside the standard of the existing gas meter, there is a problem in that a manufacturing cost increases because a new mold or an assembly jig for manufacturing the gas meter must be made.

Therefore, it is necessary to use a reed switch assembly capable of satisfying the new technical standard while maintaining the dimensional specification of the conventional gas meter.

The present invention was devised in view of the above problems, while maintaining a dimensional specification of a conventional gas meter, while shielding an external magnetic field, the reed switch assembly and a gas meter having the same can meet new technical standards. It aims to provide.

An object of the present invention as described above, the reed switch assembly is installed in the metering guide portion of the gas meter for generating a pulse, the reed switch; A housing installed below the measurement guide part and formed of a non-metallic material in a hollow rectangular cylinder shape; A groove formed on an upper surface of the housing and in which the reed switch is installed; An inner cover installed to be in close contact with a lower surface of the inside of the housing; A plurality of magnetic shielding members disposed between the upper surface of the housing and the inner cover and formed in a plate shape; And a front cover installed in the opening of the housing and covering at least a portion of the reed switch and the plurality of magnetic shielding members.

In this case, the plurality of magnetic shield members may include two metal plates and one nonmetal plate, and may be stacked in the order of a metal plate, a nonmetal plate, and a metal plate on an upper surface of the inner cover.

In addition, at least two metal plates may be stacked between the non-metal plate and the inner cover.

In addition, attenuation magnets are provided under each of both ends of the reed switch, and the attenuation magnets are preferably arranged such that the same magnetic poles face the reed switch.

In addition, the metering guide part may be provided with an operating magnet for operating the reed switch, and the attenuation magnet under the reed switch may be arranged to have a magnetic pole opposite to the operating magnet.

In another aspect of the present invention, the above object, the upper case is provided with a metering guide portion for measuring the gas usage; A lower case installed at a lower portion of the upper case and having an operating mechanism for operating the metering guide part; And a reed switch assembly detachably mounted to a sensor mounting portion of the upper case and generating a pulse signal according to an operation of the metering guide portion of the upper case, the reed switch assembly including the above-described features. Can be.

Gas meter having a reed switch assembly according to an embodiment of the present invention having the structure as described above can shield the influence of the external magnetic field, the gas usage of the remote display can accurately represent the actual gas usage .

In addition, the gas meter having a reed switch assembly according to an embodiment of the present invention is the size and shape of the housing for accommodating the gas meter body and the reed switch installed in the main body is the same as the conventional need to design / manufacture a new gas meter As a result, the rise in manufacturing cost can be suppressed.

In addition, the gas meter having a reed switch assembly according to an embodiment of the present invention has the advantage of low maintenance cost because it can replace only the reed switch assembly when the reed switch is broken.

1 is a front view showing a gas meter having a reed switch assembly according to an embodiment of the present invention;
2 is a perspective view showing a reed switch assembly according to an embodiment of the present invention;
3 is an exploded perspective view of the reed switch assembly of FIG. 2;
4 is a view showing the arrangement of the damping magnet and the operation magnet of the reed switch assembly according to an embodiment of the present invention;
5 is a front view showing a reed switch assembly without a damping magnet as another embodiment of the present invention;
6 is a front view showing a reed switch assembly according to another embodiment of the present invention;
7 is a front view showing a reed switch assembly according to another embodiment of the present invention.

Hereinafter, embodiments of the reed switch assembly for a gas meter according to the present invention will be described in detail with reference to the accompanying drawings. Embodiments described below are shown by way of example in order to help understanding of the invention, it should be understood that the invention can be implemented in various modifications different from the embodiment described herein. However, in the following description of the present invention, when it is determined that the detailed description of the related known function or component may unnecessarily obscure the subject matter of the present invention, the detailed description and specific illustration thereof will be omitted. In addition, the accompanying drawings may be exaggerated in some of the dimensions of the components rather than being drawn to scale to facilitate understanding of the invention.

1 is a front view showing a gas meter with a reed switch assembly according to an embodiment of the present invention. 2 is a perspective view illustrating a reed switch assembly according to an exemplary embodiment of the present invention, and FIG. 3 is an exploded perspective view of the reed switch assembly of FIG. 2.

Referring to FIG. 1, the gas meter 1 according to an embodiment of the present invention includes an upper case 10, a lower case 20, and a reed switch assembly 100.

An inlet 11 and an outlet 12 connected to the gas supply line are installed on an upper surface of the upper case 10, and a metering guide 13 to measure gas usage is installed therein. As the metering guide part 13, a plurality of number wheels may be used. In the present embodiment, eight numeric wheels 13 are used. An operating magnet 30 (refer to FIG. 4) is provided in the number wheel 14 which displays the end of the plurality of number wheels 13, that is, the lowest digit. Below the number wheel 14 at the extreme end of the upper case 10 is provided with a sensor mounting portion 15 in which the reed switch assembly 100 is installed. A pair of guide protrusions 15a are formed on both side surfaces of the sensor mounting portion 15.

The lower case 20 is installed below the upper case 10, and an operating mechanism for operating the metering guide part 13 is installed inside the lower case 20. For example, a diaphragm reciprocating by a pressure of gas sucked is installed inside the lower case 20 as an operation mechanism, and a crank is installed at the upper end of the diaphragm to convert the reciprocating motion of the diaphragm into a rotary motion. Can be. A plurality of number wheels 13 are connected to the crank to measure the amount of gas passing through the lower case 20. Since the structure and operation of the upper case 10 and the lower case 20 described above are the same as the gas meter according to the prior art, a detailed description thereof will be omitted.

The reed switch assembly 100 is installed in the sensor mounting portion 15 of the upper case 10 described above, and transmits a signal corresponding to the rotation of the number wheel 13 to a remote display unit (not shown). In the present embodiment, the sensor mounting portion 15 is provided where the reed switch 101 faces the number wheel 14 provided with the actuating magnet 30. Therefore, when the reed switch assembly 100 is installed in the sensor mounting part 15, the reed switch 101 faces the number wheel 14 in which the working magnet 30 is installed. In addition, the reed switch assembly 100 is detachably mounted to the sensor mounting portion 15 of the upper case 10, and the reed switch 101 may be rotated once the number wheel 14 in which the operation magnet 30 is installed rotates once. Pulse signals are generated and transmitted to the remote display unit.

2 and 3, the reed switch assembly 100 includes a reed switch 101, a housing 110, an inner cover 120, a plurality of magnetic shield members 130, a front cover 140, and attenuation. And a magnet 150.

The reed switch 101 generates a pulse signal corresponding to the rotation of the number wheel 14 of the metering guide part 13, and is installed in the housing 110. The reed switch 101 is provided with a connection line 103 connected to the remote display unit.

The housing 110 forms the appearance of the reed switch assembly 100, and the shape is formed to correspond to the sensor mounting part 15 formed below the metering guide part 13 of the upper case 10. In the case of this embodiment, the housing 110 is formed in a hollow rectangular cylinder shape, for example, a substantially rectangular cylinder shape in which the front surface 110a is opened. The housing 110 may be formed of a nonmetallic material, for example, plastic. 2 and 3, a groove 119 is formed on the upper surface 110f of the housing 110 and is opened to the front surface 110a and the reed switch 101 is installed and exposed to the outside. The lower surface 110e of the housing 110 is provided with a through hole 115 through which the connecting line 103 of the reed switch 101 passes.

Mounting grooves 111 are formed in the left and right side surfaces 110c and 110d of the housing 110 over the entire length of the housing 110 perpendicular to the front surface 110a. The mounting groove 111 is inserted into the guide protrusion 15a formed in the sensor mounting portion 15 of the upper case 10 when the housing 110 is mounted on the gas meter 1. In addition, two legs 113 are formed on the bottom surface 110e of the housing 110. Two legs 113 are inserted into corresponding two leg grooves 15b formed in the upper case 10. Accordingly, the mounting groove 111 of the housing 110 is aligned with the guide protrusion 15a of the sensor mounting portion 15 of the upper case 10, and the two legs 113 are aligned with the two leg grooves of the upper case 10. After fitting to 15b, the housing 110 is stably mounted to the sensor mounting part 15 of the upper case 10 when the housing 110 is pushed.

The inner cover 120 is installed inside the housing 110, and is formed in a rectangular tube shape without a front surface and an upper surface as shown in FIG. The inner cover 120 has a lower surface 120a of the inner cover 120 in close contact with the inner surface of the lower surface 110 of the housing 110, and both sides of the inner cover 120 are formed at both sides of the interior of the housing 110. It is installed in close contact with 112).

The through hole 125 through which the connection line 103 of the reed switch 101 passes is formed in the lower surface 120a of the inner cover 120. A pair of inner protrusions 121 and a pair of outer protrusions 123 are formed on left and right sides of the inner cover 120. Hinge pair of outer projections 123 serves to secure the front cover 140, which will be described later. In addition, the pair of internal protrusions 121 functions to fix at least one of the plurality of magnetic shielding members 130. The inner cover 120 is preferably formed of a metal. For example, the inner cover 120 may be formed of an iron plate.

The plurality of magnetic shield members 130 are installed between the upper surface 110f of the housing 110 and the lower surface 120a of the inner cover 120 and are formed in a plate shape. 2 and 3, in the present exemplary embodiment, the plurality of magnetic shield members 130 include two metal plates 131 and 132 and one nonmetal plate 133. As the metal plates 131 and 132, the same material as that of the inner cover 120 may be used, for example, an iron plate, and the non-metal plate 133 may be a plastic plate. Accordingly, the first metal plate 131 is placed on the bottom surface 120a of the inner cover 120, the nonmetal plate 133 is placed on the first metal plate 131, and the second metal plate 132 is placed on the nonmetal plate 133. ) Is placed. That is, the three magnetic shield members 130 are laminated with the first metal plate 131, the nonmetal plate 133, and the second metal plate 132 on the inner cover 120 in order. Fixing grooves 133b are formed at left and right sides of the non-metal plate 133 to fix the non-metal plate 130 to the inner cover 120. The fixing groove 133b has a shape capable of receiving the inner protrusion 121 of the inner cover 120 at a position corresponding to the pair of inner protrusions 121 formed on the left and right sides of the inner cover 120. Is formed. Through-holes 131a and 133a through which the connection line 103 of the reed switch 101 passes may be formed in the nonmetal plate 133 and the first metal plate 131.

The front cover 140 is installed in the opening of the front surface 110a of the housing 110 to surround the reed switch 101. The front cover 140 is formed in a substantially "c" shape, and both arms 141 are inserted into a space between the left and right sides of the inner cover 120 and the left and right sides of the housing 110. Fixing grooves 142 are formed in both arms 141 of the front cover 140. The fixing groove 142 accommodates a pair of outer protrusions 123 formed on the outer surfaces of the left and right sides of the inner cover 120. Accordingly, when the fixing grooves 142 of the arms 141 of the front cover 140 are coupled to the pair of outer protrusions 123 of the inner cover 120, the front cover 140 is stably connected to the housing 110. Can be fixed. The front cover 140 is formed to cover the front surface of the reed switch 101 and at least a portion of the plurality of magnetic shielding members 130. In the present embodiment, referring to FIG. 2, the front cover 140 is formed to cover the front surface of the second metal plate 132 and the reed switch 101. Therefore, the front cover 140 may block the magnetic force acting on the front side (110a) side of the housing 110.

Attenuation magnets 150 may be installed below each of both ends of the reed switch 101. That is, two attenuation magnets 150 are provided between the front cover 140 and the magnetic shield member 130 under the reed switch 101. In the case of FIG. 2, two attenuation magnets 150 are provided between the front cover 140 and the second metal plate 132 under the reed switch 101.

The attenuation magnet 150 is for attenuating an external magnetic force, and is formed to have an appropriate magnetic force according to the magnetic force of the working magnet 30 of the number wheel 14. The two attenuation magnets 150 are arranged so that the same magnetic poles face the reed switch 101. For example, as shown in FIG. 4, when one of the damping magnets 150 is disposed such that the upper portion 150a is the N pole, the other damping magnet 150 'also has the upper portion 150'a. It is arranged to be a pole.

In addition, the polarities of the upper portions 150a and 150'a of the attenuation magnets 150 and 150 'facing the reed switch 101 are arranged to have opposite poles to the poles 30a of the actuation magnet 30 of the number wheel 14. do. For example, if the magnetic pole 30a toward the reed switch 101 of the actuating magnet 30 of the number wheel 14 is the S pole, the upper magnetic poles 150a and 150'a of the attenuation magnets 150 and 150 '. ) Are all arranged to be the north pole.

As another example, the reed switch assembly 100 may be formed without using the attenuation magnet 150 as described above. That is, the external magnetic force may be shielded by changing the shape of the magnetic shielding member 130 without installing the attenuation magnet 150 under the reed switch 101. That is, the space where the attenuation magnet 150 is installed below the reed switch 101 may be blocked by extending the metal plate 132 or the non-metal plate 133 of the magnetic shielding member 130. FIG. 5 illustrates a case where one end of the non-metal plate 133 'of the magnetic shield member 130 extends to a "b" shape and is formed below the reed switch 101.

In the reed switch assembly 100 according to the exemplary embodiment having the structure as described above, the front surface 110a to which the front cover 140 is exposed is inserted into the sensor mounting portion 15 of the upper case 10. Therefore, the rear surface 110b of the housing 110 is exposed to the outside of the gas meter 1.

In the above description, a case in which the plurality of magnetic shield members 130 includes two metal plates 131 and 132 and one non-metal plate 133 has been described, but this is an example, and the plurality of magnetic shield members 130 may include a plurality of metal plates. If the non-metal plate is laminated structure can be arranged in various forms.

6 illustrates another example of the reed switch assembly 100 according to an embodiment of the present invention, in which a plurality of magnetic shield members 130 are different from the above-described example. FIG. 5 shows the front cover 140 removed to clearly show the arrangement of the plurality of magnetic shield members 130. Referring to FIG. 6, the magnetic shielding member 130 includes four metal plates 131-1, 131-2, 132-1, and 132-2 and one non-metal plate 133.

The inner cover 120 is inserted into the housing 110, and two metal plates 131-1 and 131-2 are sequentially stacked on the inner cover 120. The nonmetal plate 133 is laminated on the two metal plates 131-1 and 131-2. In addition, two other metal plates 132-1.132-2 are sequentially stacked on the nonmetal plate 133. That is, the plurality of magnetic shield members 130 are stacked in the order of the metal plate 131-1, the metal plate 131-2, the nonmetal plate 133, the metal plate 132-1, and the metal plate 132-2. .

In a similar concept, although not shown, one or three or more metal plates on the non-metal plate 133 may be formed. Alternatively, one or three or more metal plates below the non-metal plate 133 may be formed.

6 illustrates another example of the reed switch assembly 100 according to an embodiment of the present invention, in which a plurality of magnetic shielding members 130 are arranged differently from the above-described examples. FIG. 6 shows the front cover 140 removed to clearly show the arrangement of the plurality of magnetic shielding members 130.

6, an inner cover 120 is installed in the housing 110, and a plurality of magnetic shield members 130 including three metal plates 131, 132, and 134 and two nonmetal plates 133 and 136 on the inner cover 120. Are stacked. That is, the plurality of magnetic shield members 130 may include the metal plates 131, 132, 134, and the non-metal plates 133, 136 in the order of the metal plate 131, the nonmetal plate 133, the metal plate 132, the nonmetal plate 136, and the metal plate 134. These are laminated alternately.

In a similar concept, the plurality of magnetic shield members 130 may have a structure in which three or more nonmetal plates and one or more metal plates are alternately arranged.

Alternatively, two or more metal plates 132 between the non-metal plates 133 and 136 may be formed in a structure in which the metal plate and the non-metal plate are alternately arranged as shown in FIG. 6.

Gas meter having a reed switch assembly according to an embodiment of the present invention having the structure as described above can shield the magnetic force acting from the outside, it can pass a static magnetic field test according to the new technical standards. That is, when a ring-shaped magnet is placed on the surface (top, bottom, side) of the gas meter under static operating conditions, all functions of the gas meter should operate normally and do not exceed the maximum tolerance at maximum flow. If there is a secondary indicator, it can meet the technical criteria that it should operate normally when the magnet is placed on the surface of the primary indicator.

In addition, since the reed switch assembly according to an embodiment of the present invention can be used as it is instead of the reed switch assembly used in the conventional gas meter, there is no need to design and manufacture a gas meter for magnetic shielding, thereby reducing the production cost Can be.

In the above, the present invention has been described by way of example. The terms used herein are for the purpose of description and should not be construed as limiting. Various modifications and variations of the present invention are possible in accordance with the above teachings. Therefore, unless otherwise stated, the present invention may be embodied freely within the scope of the claims.

One; Gas meter 10; Upper case
13; Weighing instructions 15; Sensor mount
20; Lower case 30; Working magnet
100; Reed switch assembly 101; Reed switch
110; Housing 119; Groove
120; Inner cover 130; Magnetic shielding member
131,132; Metal plate 133,136; Base metal plate
140; Front cover 150; Attenuation magnet

Claims (6)

In the reed switch assembly which is installed in the metering instructions of the gas meter to generate a pulse,
Reed switch;
A housing installed below the measurement guide part and formed of a non-metallic material in a hollow rectangular cylinder shape;
A groove formed on an upper surface of the housing and in which the reed switch is installed;
An inner cover installed to be in close contact with a lower surface of the inside of the housing;
A plurality of magnetic shielding members disposed between the upper surface of the housing and the inner cover and formed in a plate shape; And
And a front cover disposed in the opening of the housing and covering at least a portion of the reed switch and the plurality of magnetic shielding members. The method of claim 1,
The plurality of magnetic shield members include two metal plates and one nonmetal plate.
Reed switch assembly, characterized in that laminated on the upper surface of the inner cover in the order of a metal plate, a non-metal plate, a metal plate. The method of claim 2,
Reed switch assembly, characterized in that at least two metal plate is laminated between the non-metal plate and the inner cover. The method of claim 1,
Attenuation magnets are installed below each of both ends of the reed switch,
And the damping magnet is arranged such that the same magnetic pole is directed toward the reed switch. The method of claim 4, wherein
The measuring guide unit is provided with an operating magnet for operating the reed switch,
And the damping magnet under the reed switch is arranged to have a magnetic pole opposite to the actuating magnet. An upper case in which a metering guide unit for measuring gas usage is installed;
A lower case installed at a lower portion of the upper case and having an operating mechanism for operating the metering guide part; And
And a reed switch assembly according to any one of claims 1 to 5, which is detachably mounted to a sensor mounting portion of the upper case and generates a pulse signal according to the operation of the metering guide portion of the upper case. Gas meter characterized by the above.

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