KR100822056B1 - The apparatus of a module for inspecting a meter - Google Patents

Abstract

A meter inspecting module structure is provided to inspect the exact energy use amount without influence of magnetic force even if a magnetic body or an article generating a magnetic field is positioned adjacent. A meter inspecting module structure(1) having an inlet and an outlet where energy enters and leaves is composed of a meter indicator unit(2) rotating according to the energy use amount and a meter inspecting unit(3) having an optical sensor comprising light emitting and receiving sensors(32,33) and inspecting the use amount of energy according to the number of rotation times of the meter indicator unit. The meter indicator unit has a rotary indicator(22). The indicator is tapered to form the tip at one end. The meter inspecting module structure passes the tip end of the indicator through a detection region(S) defined by the light emitting and receiving sensors so as to increase accuracy of inspecting the energy use amount. The light emitting and receiving sensors of the meter inspecting unit detecting the rotation of the meter indicator unit are installed at the upper and the lower sides of the meter indicator unit to form the detection region.

Description

The Apparatus of a Module for Inspecting a Meter}

1 is a perspective view showing an enlarged perspective view of a conventional meter and the meter reading portion

Figure 2 is a perspective view showing a meter equipped with a meter reading module structure according to an embodiment of the present invention

Figure 3 is a perspective view showing the structure of the meter reading module according to an embodiment of the present invention

Figure 4 is a perspective view showing the meter reading module structure according to another embodiment of the present invention

* Description of the symbols for the main parts of the drawings *

1, 1 ': meter reading module structure 2, 2': metering guide part 3, 3 ': metering part

4, 4 ': meter body 21, 21': body 22: instructions 31, 31 ': meter body

32, 32 ': light emitting sensor 33, 33': light receiving sensor 41: inlet 42: outlet

43: visual display unit 44: protective case 100: meter 101: metering instructions

102: magnetic 103: meter reading 104: display 105: protective case

106: inlet 107: outlet 211, 211 ': rotating shaft 221: detection hole

31a: side wall 31b: upper wall 31c: lower wall 31d: open space 311: upper wall

312: lower wall receiving device S, S ': detection area

The present invention relates to a meter reading module structure, and in detail, a metering guide part rotating according to energy usage, and an optical sensor having a light emitting sensor and a light receiving sensor to read the amount of usage according to the rotation speed of the metering guide part. It has a meter reading portion, and the metering reading module generates a rotation information signal according to the energy consumption when passing through the detection area defined by the light emitting sensor and the light receiving sensor of the meter reading unit to ensure the accuracy of weighing It's about structure.

Generally, in multi-family buildings such as residential areas, officetels, shopping malls, residential complexes, apartments, etc., each household is provided with a meter that can read various energy usage such as water supply, gas, and electric power. You can add a fee for each household that matches your usage.

The meter reading error and metering manpower according to visual inspection are required while the meter reader visits each household to read the amount of electricity displayed by the meter manually, and can automatically read the energy consumption used by each household recently. The meter reading system is being introduced, and with the introduction of the remote meter reading system, it performs quick and accurate meter reading work, prevents crimes disguised as meter reading, reduces errors caused by visual meter reading, automatically distributes common part rates, There is an advantage that can reduce the manpower and increase the efficiency, such as eliminating the personnel.

1 is a partially enlarged view showing an enlarged perspective view and a meter reading part showing a conventional meter.

Conventional meter 100 provided in the remote metering system as described above is a metering guide 101, magnetic 102, metering section 103, display section 104, protective case 105, inlet port 106, outlet In the conventional meter 100, the metering guide 101 is rotated according to the energy consumption used through the inlet 106 and the outlet 107, the metering guide 101 of the The energy consumption is read by the reading unit 103 having a configuration such as a reed switch capable of reacting with the magnetic 102 provided on the upper surface to generate an electrical signal. In addition, the meter (100) is provided with a display unit 104 for displaying the energy consumption in analog according to the rotation of the metering guide 101 in addition to remotely reading the energy consumption in the meter, It includes a protective case 105 to protect the configuration as described above.

Here, since the conventional meter 100 is a magnetic proximity sensor composed of a magnetic meter 102 and a metering unit 103 which generates an electric signal in response to the method of metering energy consumption as an electric signal. When close to the magnetic material or the object generating a magnetic field (100) there is a problem that can not read the exact energy consumption.

In addition, when the rotation of the metering guide 101 is stopped at the bottom of the meter reading unit 103, a chattering phenomenon occurs in the magnetic 102 and the meter reading unit 103, the magnetic 102 is provided The metering unit 103 is metered regardless of whether the metering guide 101 is actually using energy while repeatedly flowing from side to side between the detection areas where the amount of energy used is read by the metering unit 103. Since the guide 101 is determined to rotate, there is a problem that an error occurs in the meter reading.

In addition, in order to correct the error caused by the energy consumption metering as described above, additional work is required to compare the energy consumption read by the meter reading unit 103 and the energy consumption displayed on the display unit 104, according to manpower cost and visual meter reading. There is a problem that cannot fully reflect the advantages of the remote metering system to prevent errors.

In addition, since the magnetic meter 102, the metering section 103 and the metering guide 101 provided with the magnetic 102 in order to facilitate the reading of the energy consumption by the magnetic force should be secured to a predetermined size or more, If the manufacturing cost is increased and the metering guide 101 has a high probability of stopping on the bottom of the meter reading unit 103, the metering meter 101 is finely vibrated by external force, thereby causing an error in the meter reading.

The present invention has been made to solve the above problems, by configuring a meter reading unit consisting of an optical sensor consisting of a light emitting sensor and a light receiving sensor so that the chattering phenomenon due to the use of a magnetic material does not occur, and accordingly the energy consumption meter reading An object of the present invention is to provide a meter reading module structure that can improve the accuracy of the measurement.

Still another object of the present invention is to provide a meter reading and reading module structure capable of reading accurate energy consumption without being affected by magnetic force even when a magnetic material or a magnetic field generating object is located in an adjacent area.

Another object of the present invention can fully reflect the advantages of the remote metering system that can reduce the manpower costs by minimizing the comparison of the mechanically detected energy consumption by visual inspection by improving the accuracy of the energy consumption meter reading The purpose is to provide a meter reading module structure.

Still another object of the present invention is to measure the energy consumption by the optical sensor to minimize the area of the metering guide portion rotated according to the energy consumption to the size that the optical sensor can read to reduce the manufacturing cost and by the external force It is an object of the present invention to provide a meter reading and reading module structure capable of reading accurate energy consumption even in fine vibration.

Metering module structure for achieving the above object of the present invention includes the following configuration.

According to the first embodiment of the present invention, the meter reading module structure according to the present invention includes a light emitting sensor and a light receiving sensor so that the metering guide portion rotates according to the energy consumption, and the amount of usage according to the rotation speed of the metering guide portion. And a metering part having an optical sensor provided therein, wherein the metering guide part generates a rotation information signal according to the energy consumption when passing through the detection area defined by the light emitting sensor and the light receiving sensor of the metering part. Characterized in that it can.

According to the second embodiment of the present invention, in the meter reading module structure according to the present invention, the meter reading unit is provided with a light emitting sensor and a light receiving sensor for detecting the rotation of the metering guide portion on the upper and lower sides of the metering guide portion to detect the detection area. It is characterized by forming.

According to the third embodiment of the present invention, in the meter reading module structure according to the present invention, the metering guide part may pass through the detection area defined by the light emitting sensor and the light receiving sensor while being diminished from the rotating shaft provided at one side. It is characterized in that the other side is formed in the tip so that a predetermined length is extended.

According to the fourth embodiment of the present invention, in the meter reading module structure according to the present invention, the metering guide part is a predetermined length so as to pass through the detection area defined by the light emitting sensor and the light receiving sensor from a rotating shaft provided on one side. It is characterized in that the belt is formed extending.

According to a fifth embodiment of the present invention, in the meter reading module structure according to the present invention, the metering guide part is formed of a material that is not affected by magnetic force.

According to the sixth embodiment of the present invention, the meter reading module structure according to the present invention includes a light emitting sensor and a light receiving sensor so that the metering guide part rotates according to the energy consumption, and the amount of usage according to the rotation speed of the metering guide part. And a metering part having an optical sensor provided therein, wherein the metering guide part further includes a detection hole for passing the light emitted from the light emitting sensor of the metering part to be incident on the light receiving sensor. When passing through the specified detection area is characterized in that the rotational information signal according to the energy consumption can be generated to ensure the accuracy of the metering.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the meter reading module structure according to the present invention will be described in detail.

2 is a perspective view showing a meter with a meter reading module structure according to an embodiment of the present invention, Figure 3 is a perspective view showing a meter reading module structure according to an embodiment of the present invention.

2 and 3, the meter reading module structure 1 according to an embodiment of the present invention includes a metering guide part 2, a metering part 3, and a meter body 4.

The metering guide unit 2 is rotated according to the energy consumption, and the passage of the detection area S defined by the metering unit 3, which will be described below, is sensed so that the amount of energy used is metered, and the body 21 and Instructions 22. In addition, the metering guide portion (2) is formed of a material such as plastic or rubber to the magnetic force even when the magnetic material or an object generating magnetic force is located around the meter equipped with the meter reading module structure (1) according to the present invention It does not react and rotates only by the user's energy consumption, so that the accurate energy consumption can be read. If the material is not affected by the magnetic force, it may be formed of a material other than plastic or rubber.

The body 21 is formed in a cylindrical shape as a whole, and coupled to the rotating shaft 211 to rotate in accordance with the user's energy consumption therein to be rotated together so that the energy usage is metered.

The guide sphere 22 is a triangular plate shape as a whole, is reduced to one side of the body 21 is formed to extend a predetermined length to form the other end, the length of the guide sphere 22 is the body 21 As the guide sphere 22 rotates in accordance with the rotation of), the guide sphere 22 is formed to have a length that can pass through the detection area S defined by the metering section 3, which will be described later. When passing through the detection area (S) to the meter reading unit 3 is preferably formed to a size that can detect the passage of the guide sphere (22).

On the other hand, according to another embodiment of the present invention, although not shown, the guide sphere 22 may be formed in a belt shape extending a predetermined length on one side of the body 21, the guide sphere 22 Is a length that can pass through the detection area S defined by the meter reading part 3 to be described below, and a size that can be detected whether the meter reading part 3 passes when passing through the detection area S. FIG. It is preferable to form.

In addition, the guide sphere 22 may be formed by minimizing the size to be detected by the meter reading unit 3 to be described below, thereby reducing the manufacturing cost, the user's use of energy is stopped Minimizing the case where the rotation of the guide sphere 22 is stopped in the detection area (S) is detected as the guide sphere 22 is rotated by the micro-vibration of the guide sphere 22 by the external force It is possible to prevent accurate energy consumption meter reading.

The metering unit 3 detects the guide sphere 22 of the metering guide unit 2 that rotates according to the energy consumption of the user to read the energy consumption according to the rotation speed, the meter body 31, the light emitting sensor 32 and a light receiving sensor 33 are included.

The meter body 31 is formed in a 'c' shape as a whole, the side wall 31a having a rectangular shape of a predetermined size and a rectangular wall upper side extending a predetermined length from the top and bottom of the side wall 31a laterally ( 31b) and the lower wall 31c are coupled to each other, and the guide sphere 22 can pass through the open space 31d defined by the side wall 31a, the upper wall 31b, and the lower wall 31c. It is formed so as to include, the upper wall receiving sphere 311 and the lower wall receiving sphere 312.

The upper wall receiving device 311 is a rectangular-shaped groove formed by recessing a predetermined depth from one side of the upper wall 31b of the meter body 31, while the guide 22 rotates of the upper wall receiving device 311 It is formed so as to pass through the lower side, any one of the light emitting sensor 32 and the light receiving sensor 33 to be described below can be accommodated.

The lower wall receiving device 312 is a rectangular-shaped groove formed by recessing a predetermined depth at one side of the lower wall 31c of the meter body 31, and is formed at a position corresponding to the upper wall receiving device 311, and Among the light emitting sensor 32 and the light receiving sensor 33 to be described, a sensor corresponding to the sensor accommodated in the upper wall receiving tool 311 is accommodated.

The light emitting sensor 32 is configured to emit light from an optical sensor that is an element that reads an object by using light, and emits light from the light emitting sensor 32 to enter the light receiving sensor 33 to be described below. And, it is accommodated in the upper wall receiving device 311 of the meter body 31, LED may be used as a light emitting element.

The light receiving sensor 33 has a configuration corresponding to the light emitting sensor 32 in the optical sensor, the light emitting sensor accommodated in the lower wall receiving device 312 of the meter body 31 is accommodated in the upper wall receiving device 311 Light 32 emits light and detects whether the guide sphere 22 passes through the detection area S defined by the light emitting sensor 32 and the light receiving sensor 33.

On the other hand, according to another embodiment of the present invention, the light emitting sensor 32 may be accommodated in the lower wall receiving device 312 of the meter body 31, so that the light receiving sensor 33 is the meter body It may be accommodated in the upper wall receiving device 311 of the 31 to detect whether or not the guide sphere 22 passes through the detection area (S), the meter body 31 is the light sensor 32 and the light receiving If the sensor 33 forms a detection area S and can be accommodated to detect whether the guide sphere 22 passes between the detection areas S, the sensor 33 may be formed in various forms other than the above. It may be.

The meter body (4) has an inlet (41) and outlet (42) for introducing and discharging the energy used by the user, and is mechanically connected to the metering guide (2) that rotates in accordance with the energy consumption to consume energy consumption It includes a naked eye display portion 43 to be displayed to the naked eye to read from the outside, and is formed of a transparent material to protect the meter reading module structure (1) from the outside and to observe the naked eye display portion 43 from the outside The protective case 44 is provided. Since the meter body 4 is obvious to those skilled in the art of the meter to which the present invention pertains, a detailed description of the configuration will be omitted in order not to obscure the subject matter of the present invention.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the operation relationship of the meter reading module structure (1) according to an embodiment of the present invention will be described in detail.

Referring to FIGS. 2 and 3, the meter reading module structure 1 includes the meter reading unit body 31 of the meter reading unit 3 according to the energy consumption of the user. Rotate while passing through the open space (31d) provided in,

Light emitted by the light emitting sensor 32 when the guide sphere 22 is located in the detection region S defined by the light emitting sensor 32 and the light receiving sensor 33 accommodated in the meter body 31. It is blocked by the guide sphere 22 is not incident to the light receiving sensor 33,

When the guide sphere 22 continues to rotate and leaves the detection area S and the light emitted from the light emitting sensor 32 is incident on the light receiving sensor 33, it is determined that the metering guide part 2 is rotated. The meter reading unit 3 generates a rotation information signal regarding energy consumption,

Although not shown, the rotation information signal is stored in a storage means, and the data transmission means transmits the rotation information signal for energy consumption to a remote location remotely from a meter equipped with the meter reading module structure 1. Enable remote meter reading.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the meter reading module structure according to another embodiment of the present invention will be described in detail.

4 is a perspective view showing the meter reading module structure according to another embodiment of the present invention.

The meter reading module structure 1 'according to another embodiment of the present invention includes a metering guide part 2', a meter reading part 3 ', and a meter body 4', and the meter reading part 3 '. ) And the meter body 4 'is different from the drawing reference numerals, but this is for distinguishing and displaying the embodiments of the present invention, the metering unit 3 and the meter body included in the meter reading module 1 described above (4) Since it is implemented in a function and a shape approximately identical to the configuration, the same configuration as described in the meter reading module 1 will be omitted so as not to obscure the subject matter of the present invention, according to another embodiment of the present invention Only differences in the meter reading module structure 1 'will be described.

The metering guide portion 2 'is rotated according to the energy consumption, and whether the metering guide portion 2' passes through the detection area S 'defined by the light emitting sensor 32' and the light receiving sensor 33 'accommodated in the metering portion 3' Sensed energy usage is metered, and includes a body 21 'and a detection hole 221. In addition, the metering guide portion 2 ′ may be formed of a material that does not respond to magnetic force such as plastic or rubber so that the meter can be rotated only by the energy consumption of the user without being influenced by external magnetic force to enable accurate meter reading. .

The body 21 ′ is formed in a disk shape as a whole, and is coupled with a rotating shaft 211 ′ that rotates according to the user's energy consumption to rotate the energy usage.

The detection hole 221 is a through-hole formed in a cylindrical shape as a whole, and one side of the body 21 'passing through the detection area S' defined by the light emitting sensor 32 'and the light receiving sensor 33'. When the detection hole 221 is located in the detection area S ', the light emitted by the light emitting sensor 32' enters the light receiving sensor 33 'through the detection hole 221. It is desirable to be shaped and positioned so that it can be.

Meanwhile, according to another embodiment of the present invention, when the detection hole 221 is located in the detection area S ', the detection hole 221 passes through the light emitted by the light emitting sensor 32' to be incident on the light receiving sensor 33 '. If it can be formed in the form of a through-hole other than the cylindrical shape can be formed, for example, the outer surface may be formed as a through-hole forming a polygon.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the operation relationship of the meter reading module structure (1 ') according to another embodiment of the present invention will be described in detail.

Referring to FIG. 4, the meter reading module structure 1 ′ according to another embodiment of the present invention has the meter 21 ′ of the body 21 ′ of the metering guide part 2 ′ according to the energy consumption of the user. Rotates while passing through the detection area S 'defined by the light emitting sensor 32' and the light receiving sensor 33 'provided in the

When the detection hole 221 is located in the detection area S ', the light emitted by the light emitting sensor 32' is incident on the light receiving sensor 33 'via the detection hole 221.

As the metering guide part 2 'continues to rotate, the light emitted by the light emitting sensor 32' is emitted by the body 21 'while the detection hole 221 is separated from the detection area S'. When it is blocked and does not enter the light receiving sensor 33 ', it is determined that the metering guide part 2' is rotated, and the metering part 3 'generates a rotation information signal regarding energy consumption.

The rotation information signal is transmitted so that the energy consumption can be read from a remote site.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be apparent to those who have knowledge.

The present invention can achieve the following effects by the above configuration and operation relationship.

The present invention is formed of a material that is not affected by the magnetic force can prevent the chattering (chattering) phenomenon caused by the use of a conventional magnetic material, even when the magnetic material or the object generating a magnetic field in the adjacent area is located accurate energy The amount of usage can be read, and the effect of improving the accuracy of the reading can be achieved.

The present invention can minimize the work of mechanically detecting the energy consumption with the accuracy of the improved energy consumption meter reading, and by comparing the reading and reading of the displayed value with the naked eye, thereby achieving a sufficient effect of reducing the manpower cost, which is an advantage of the remote meter reading system. Can be.

The present invention can reduce the size of the metering guide to a size that can be detected by the optical sensor can reduce the manufacturing cost, minimizing the probability that the rotation of the metering guide is stopped in the detection area, even in the fine vibration caused by external force The effect of reading energy consumption can be aimed at.

Claims (6)

delete In the meter reading module structure having an inlet and an outlet for introducing and discharging energy used by the user, And a metering unit having a metering guide unit rotating according to the energy consumption, and an optical sensor having a light emitting sensor and a light receiving sensor so as to read the amount of usage according to the number of revolutions of the metering unit. The guide sphere is gradually reduced from one end to the other end, and the other end is formed to form a tip, and the other end of the guide sphere passes through the detection region defined by the light emitting sensor and the light receiving sensor, so that the accuracy of the reading of the energy consumption is measured. Characterized in that to increase, The meter reading unit has a light emitting sensor and a light receiving sensor for detecting the rotation of the metering guide portion is provided on the upper and lower sides of the metering guide portion to form a detection meter module structure. delete delete The method of claim 2, wherein the metering guide portion Metering module structure, characterized in that formed of a material that is not affected by magnetic force. delete

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