JP6994416B2 - Weighing device - Google Patents

Description

The present invention relates to a weighing device.

As a weighing device, a device equipped with a digital load cell that supports a load-bearing unit such as a platform and an indicator that processes a signal from the digital load cell to calculate and display the weight is already widely known. Further, in this type of weighing device, a truck scale for measuring the load capacity of a vehicle such as a truck is already widely known.

Truck scale platforms and digital load cells are often installed outdoors (so-called weighing sites) so that vehicles can easily enter them. On the other hand, since the indicator is provided with an electronic board or a printer having a CPU that performs various arithmetic processes and control processes, it is often arranged indoors. Then, the digital load cell and the indicator are connected via the connection wiring (power is supplied via the connection wiring and data is communicated and input / output).

On the truck scale, the place where the platform is installed (site) and the place where the indicator is placed may be separated (there may be several hundred meters apart), and the ground is between them. It is connected by the connection wiring arranged along. If a lightning strike occurs near the installation location of the truck scale, it may be affected by the induced lightning through the connection wiring, etc., but if the connection wiring is extended a long distance along the outdoor ground. Is more likely to be affected by induced lightning through the connecting wiring. If the indicator is affected by this induced lightning via the connection wiring, the electronic board provided on the indicator may be destroyed and the indicator may be damaged.

Even in a hopper scale equipped with a hopper as a load-bearing part for measuring gravel for concrete, the hopper is arranged outdoors and the indicator is arranged indoors, and these are arranged along the ground. It may be connected via wiring. Therefore, even in such a case, the same problem may occur.

As a method for dealing with such a problem, Patent Document 1 and the like disclose a structure in which an overvoltage absorption circuit is provided between the load cell and the indicator. In this way, if an overvoltage absorption circuit is provided between the load cell and the indicator, when an overvoltage due to induced lightning or the like acts between the load cell and the indicator, the overvoltage can be absorbed within a certain withstand range. Therefore, the possibility of damage to the indicator can be reduced.

Jikkai Sho 63-153138 Gazette

However, as shown in Patent Document 1, even if an overvoltage absorption circuit is provided between the load cell and the indicator, the state in which the connection wiring and the indicator are electrically connected does not change, so that the induction light is received. If an overvoltage or overcurrent that exceeds the withstand range of the overvoltage absorption circuit occurs, it cannot be dealt with.

In addition, in a weighing device in which a load-bearing part such as a platform or a hopper or a load cell is installed outdoors as described above, it is generally operated only for a predetermined time such as in the daytime and is not used at night, so that one day ( Within 24 hours), the percentage of time that the product is not in use is high. However, even in such an unused state, if an overvoltage or overcurrent that exceeds the withstand range of the overvoltage absorption circuit occurs due to an induced lightning strike on the connection wiring, the indicator will be damaged. Will end up.

In addition, when a lightning forecast is issued, the power supply or signal line connected to the indicator may be removed as a preventive measure. In this case, the power plug can be easily removed, but since the signal line is connected by a terminal block, a tool is required to remove it, and there is also a problem that it cannot be easily removed and dealt with.

The present invention solves the above-mentioned problems, and prevents or minimizes damage to the indicator even when the connection wiring is affected by induced lightning when the weighing device is not used, such as at night. The purpose is to provide a weighing device that can be suppressed. Another object of the present invention is to provide a weighing device capable of achieving the above object only by removing the power plug when removing the wiring as a preventive measure.

In order to solve the above problems, the weighing device of the present invention includes a digital load cell, a load load unit, an indicator, a connection wiring connecting the digital load cell and the indicator, a power supply unit connected to a commercial power source, and the like. It is a measuring device equipped with a cutoff relay that cuts off the electrical connection between the connection wiring and the indicator when the power supply from the commercial power supply is stopped, and the electrical connection wiring and the indicator. It is characterized by including a grounding relay whose connection is grounded and an interlocking relay which is at least one of the relays.

According to this configuration, when the power supply from the commercial power supply is stopped, the electrical connection between the connection wiring and the indicator is cut off by the cutoff relay, or the electrical connection between the connection wiring and the indicator is connected by the ground relay. Is grounded. This makes it possible to prevent or minimize damage to the indicator even when the connection wiring is subject to induced lightning when the weighing device is not used, such as at night.

Further, the present invention is characterized in that surge absorbing means is provided at least one of the front stage and the rear stage of the interlocking relay. With this configuration, even when the measuring device is used and the connection wiring is affected by induced lightning or the like, it is possible to prevent the indicator from being damaged as long as it is within the allowable range of the surge absorbing means.

Further, in the present invention, when the power plug connected to the commercial power supply is removed from the commercial power supply or when the power switch is turned off, the interlocking relay is de-energized and the connection wiring and the indicator are electrically connected. It is characterized by disconnecting or grounding the connection. With this configuration, when the power plug is removed from the commercial power supply or the power switch is turned off, the electrical connection between the connection wiring and the indicator is cut off or grounded by the interlocking relay (cutoff relay or grounding relay). Even if the connection wiring is subject to induced lightning when the weighing device is not used, such as at night, damage to the indicator can be prevented or minimized.

In addition, when a lightning forecast is issued, the power supply or signal line connected to the indicator may be removed as a preventive measure. In this case, the power plug can be easily removed, but since the signal line is connected by a terminal block, a tool is required to remove it, and there has been a problem that it cannot be easily removed and dealt with. rice field. On the other hand, according to the above configuration, the electrical connection between the signal line and the indicator is cut off or grounded just by pulling out the power plug, so all the wiring was removed just by pulling out the power plug. The effect can be obtained.

Further, the present invention is characterized in that the interlocking relay is de-energized by the timer at the stop setting time to cut off or ground the electrical connection between the connection wiring and the indicator. With this configuration, the stop setting time that does not use the weighing device such as at night is set by the timer, and when the timer stop setting time (non-use time) is reached, the interlocking relay (disconnection relay or ground relay) indicates the connection wiring. Even if the electrical connection with the meter is cut off or the connection part from the connection wiring is grounded and the connection wiring receives an induced lightning, the indicator can be prevented or minimized from being damaged. can do.

Further, in the present invention, the cutoff relay and the power supply voltage detecting means for detecting the voltage of the power supply supplied from the indicator to the digital load cell side are provided, and it is detected that the power supply voltage is lowered by the power supply voltage detecting means. At that time, it is characterized in that the electrical connection between the connection wiring and the indicator is cut off by the cutoff relay. With this configuration, even if the power supply is short-circuited outside the indicator (connection wiring, digital load cell, etc., these connection circuits) when weighing or trouble occurs, the power supply voltage drops due to this. It is detected by the voltage detecting means and the electrical connection between the connection wiring and the indicator is cut off, so that a large current flows through the indicator due to a short circuit to prevent or minimize the damage to the indicator. Can be done.

Further, the present invention is characterized in that a warning means for notifying that the electrical connection between the connection wiring and the indicator is cut off due to a decrease in the power supply voltage is provided. With this configuration, when a short-circuit problem occurs in the connection wiring or the digital load cell, a warning means is used to warn the user, so that the user can know this state and deal with it.

Further, the present invention is particularly suitable when the load-bearing unit and the digital load cell are arranged outdoors, the indicator is arranged indoors, and the connection wiring is arranged along the ground. It is also suitable when the weighing device is a truck scale or a hopper scale.

According to the present invention, when the power supply from the commercial power supply is stopped, the cutoff relay that cuts off the electrical connection between the connection wiring and the indicator and the electrical connection between the connection wiring and the indicator are grounded. By providing a grounding relay that is in a state and an interlocking relay that is at least one of the relays, the indicator will be damaged even if the connection wiring is subject to induced lightning when the weighing device is not used, such as at night. This can be prevented or minimized, and thus the reliability of the weighing device can be improved. Further, in this case, it is particularly suitable when the load load unit and the digital load cell are arranged outdoors, the indicator is arranged indoors, and the connection wiring is arranged along the ground. It is also suitable when the weighing device is a truck scale or a hopper scale.

Further, according to the present invention, by providing the surge absorbing means in at least one of the front stage and the rear stage of the interlocking relay, the surge absorbing means is provided even when the connection wiring is affected by induced lightning or the like when the measuring device is used. If it is within the withstand range of, it is possible to prevent the indicator from being damaged.

Further, according to the present invention, when the power plug connected to the commercial power supply is removed from the commercial power supply or when the power switch is turned off, the interlocking relay is de-energized, and the connection wiring and the indicator are connected. By configuring the electrical connection to be cut off or grounded, the indicator will be damaged even if the connection wiring is subject to induced lightning when the power plug is removed from the commercial power supply or the power switch is turned off. This can be prevented or minimized. In addition, when a lightning forecast is issued, the power plug can be easily removed in the past, but since the signal line is connected by the terminal block, a tool is required to remove it, so it can be easily removed. I couldn't deal with it, but according to the above configuration, just unplugging the power plug will cut off or ground the electrical connection between the signal line and the indicator, so just unplugging the power plug will do everything. The effect of removing the wiring can be obtained.

Further, according to the present invention, the interlocking relay is de-energized at the set time by the timer, and the electric connection between the connection wiring and the indicator is cut off or grounded so that the power plug can be connected from the commercial power source. Even if the power switch is not turned off or removed, the interlocking relay can be de-energized at the timer setting time (non-use time), which saves time and effort.

Further, according to the present invention, the cutoff relay and the power supply voltage detecting means for detecting the voltage of the power supply supplied from the indicator to the digital load cell side are provided, and the power supply voltage is lowered by the power supply voltage detecting means. When a short circuit occurs in the power supply outside the indicator (connection wiring, digital load cell, etc.) by cutting off the electrical connection between the connection wiring and the indicator by the cutoff relay when it is detected. However, it is possible to prevent or minimize damage to the indicator due to a large current flowing through the indicator due to a short circuit, and it is possible to improve the reliability of the measuring device.

In addition, by providing a warning means for notifying that the electrical connection between the connection wiring and the indicator is cut off due to a drop in the power supply voltage, the warning means warns the user when a short-circuit problem occurs. Can know this situation and deal with it.

It is a figure which shows simply showing the measuring apparatus which concerns on embodiment of this invention. It is a figure which shows simply the connection part of the connection wiring of the measuring apparatus, and the connection part of an indicator. It is a figure which shows simply the connection part of the connection wiring of the measuring apparatus which concerns on other embodiment of this invention, and the indicator.

Hereinafter, the measuring device according to the embodiment of the present invention will be described with reference to the drawings.
Here, FIG. 1 is a diagram simply showing a truck scale which is an example of the measuring device according to the embodiment of the present invention, and FIG. 2 is a connection portion between the connection wiring of the measuring device (track scale) and the indicator. It is a figure which shows briefly.

As shown in FIGS. 1 and 2, a truck scale as an example of the weighing device 1 is supported from below by a digital load cell 2 and a digital load cell 2 and is loaded with a load (a loaded truck is loaded). It is provided with a platform 3 as a load load unit, an indicator 4, a connection wiring 5 for connecting the digital load cell 2 and the indicator 4, a power supply unit 6 connected to a commercial power source, and the like. It should be noted that FIGS. 1 and 2 show a case where the indicator 4 and the power supply unit 6 are housed in the indicator storage unit (indicator storage box (storage housing)) 10. Not limited.

Further, in this embodiment, as shown in FIG. 1, a case where a plurality (four) of digital load cells 2 are provided (digital load cells 2A to 2D) is shown, but digital load cells 2 (2A to 2D) are shown. ) May be one, or may be plural other than four. All the digital load cells 2 (2A to 2D) are connected to the load cell unit connection portion (so-called junction box) 7, and power is supplied to the digital load cell 2 side through the power supply line 5a of the connection wiring 5, and each of them is supplied with power. The signal from the digital load cells 2 (2A to 2D) is sent to the indicator 3 side through the signal line 5b of the connection wiring 5. Note that 9 in FIG. 1 is the ground connected to the load cell unit connection portion 7.

The connection wiring 5 connects the digital load cell 2 and the indicator 4, and is composed of, for example, a twisted pair shielded wire. Here, a so-called weighing site where a platform 3 and a digital load cell 2 (2A to 2D) are arranged and a vehicle such as a truck is placed (passed afterwards) at the time of weighing, an indicator 4 and a power supply unit 6 are stored. The indoor space in which the indicator storage unit 10 is installed is provided at a distance from each other, and the connection wiring 5 is arranged along the ground so as to connect these separated parts. There is. The connection wiring 5 may be arranged along the ground surface, or may be arranged along the ground surface by digging (forming) a space portion or a groove portion in the ground.

As shown in FIG. 2, the indicator 4 is attached to, for example, an indicator storage unit (indicator storage box) 10 in a detachable state, and a display unit 4a that displays various information including a measured value. Instructing the input unit 4b used for making various settings and the digital load cell 2 to send signals such as weight values, and inputting signals from all the digital load cells 2 to calculate the measured value. It also has an indicator CPU (indicator control unit) 4c that performs various controls related to weighing operations, a storage unit 4d that stores various information related to weighing, and the like.

In this embodiment, a sub-board 15 having a power supply unit 6, a sub CPU 21, and the like, a terminal block 13 to which each wiring of the connection wiring 5 is connected, and the like to the indicator storage unit 10 that detachably stores the indicator 4 and the like. Is provided, and a so-called double-cut type power switch 11 for turning on (connecting) and turning off (disconnecting) the power supply is also provided. A power plug 12 with a 3P ground connected to a commercial power source is connected to the power switch 11. Note that reference numeral 14 in FIG. 2 is a ground connected to a grounding portion of the indicator storage unit (indicator storage box) 10.

Further, the power supply lines 23C and 23D for supplying power from the indicator 4 to the digital load cell 2 side and the signal connection lines 23A and 23B for inputting and outputting signals between the indicator 4 and the digital load cell 2 are sub-boards 15. It is also provided between the connector 15a provided on the sub-board 15 and the terminal block 13 of the indicator storage unit 10, and between the connector 15b provided on the sub-board 15 and the indicator. Therefore, power is supplied from the indicator 4 to the digital load cell 2 side through the power supply lines 23C and 23D.

Further, the sub-board 15 is connected to the DLC receiving circuit 19 as a receiving unit for receiving the signal from the digital load cell 2 and each terminal of the board connector 15a provided on the sub-board 15, and each signal line D +, When a high voltage (for example, a high voltage of 300V or more) is applied to D-, + V, SG, it emits light and discharges to conduct to the housing grounding portion FG to remove an excessive voltage (abnormal voltage). A first surge protection circuit (so-called SPD circuit) 16 (16A to 16D) as a first surge absorbing means composed of an arrester or the like (absorbing) and a high voltage of a predetermined voltage or more on each signal line D +, D-, + V. A second surge protection circuit (so-called SPD circuit) as a second surge absorbing means consisting of a varistor or the like that conducts the ground signal line SG when loaded and drops the voltage between them to a low voltage. 17 (17A to 17C), a sub CPU is provided, and the connection wiring 5 is provided by the first surge protection circuit 16 (16A to 16D) and the second surge protection circuit (so-called SPD circuit) 17 (17A to 17C). When an abnormal overvoltage is applied to each wiring of the above, the indicator 4 is protected so that this overvoltage does not flow to the indicator 4. Although not shown, it is preferable to provide a surge protection circuit (SPD circuit) in the load cell unit connection portion (so-called junction box) 7 or each digital load cell 2 (2A to 2D).

In addition to the above configuration, the sub-board 15 is interlocked with the sub-board 15 when the power supply from the commercial power supply is stopped to cut off the electrical connection between the connection wiring 5 and the indicator 4 (a type of interlocking relay). 20 and a sub CPU (sub control unit) 21 for controlling the cutoff relay 20 and the like are provided. Then, when the power plug 12 connected to the commercial power supply is removed from the commercial power supply or when the power supply switch 11 is turned off, it is determined that the output from the power supply unit 6 connected to these is stopped, and the cutoff relay 20 is determined. Is linked to the cutoff state, and the electrical connection between the connection wiring 5 and the indicator 4 is cut off. In this embodiment, the power supply unit 6 includes a power supply surge protection circuit (power supply SPD circuit) 18 including a surge protection circuit (so-called SPD circuit) between the power supply circuit 6a and the power supply unit of the sub-board 15. Is provided. Further, in this embodiment, the first surge protection circuit 16 (16A to 16D) is arranged in the front stage of the cutoff relay 20, and the second surge protection circuit 17 (17A to 17C) is arranged in the rear stage of the cutoff relay 20. However, the present invention is not limited to this, and for example, the second surge protection circuit 17 (17A to 17C) may also be arranged in front of the cutoff relay 20. Further, since the first surge protection circuit 16 is intended to safely release an external surge when the cutoff relay 20 is in the cutoff state, it is desirable to arrange the first surge protection circuit 16 in front of the cutoff relay 20.

Further, the sub CPU (sub control unit) 21 has a built-in timer 24, and by setting in advance the time for operating and stopping the measuring device 1 from the input unit 4b of the indicator 4, the sub CPU (sub CPU) (sub CPU) The sub-control unit) 21 is configured to cut off the electrical connection between the connection wiring 5 and the indicator 4 by turning off the cutoff relay 20 at the stop setting time.

Further, the sub-board 15 is provided with a DLC power supply voltage measuring circuit 22 as a power supply voltage detecting means for detecting the voltage of the power supply supplied from the indicator 4 to the digital load cell 2 (2A to 2D) side. Then, when the DLC power supply voltage measuring circuit 22 detects that the power supply voltage has dropped, the sub CPU (sub-control unit) 21 causes the cutoff relay 20 to be in a non-energized state, and the connection wiring 5 and the indicator 4 are connected. In addition to disconnecting the electrical connection, it is configured to warn that an abnormal situation such as a drop in power supply voltage has occurred by displaying a warning on the display of the indicator or generating an alarm sound. ing.

According to the above configuration, since the cutoff relay (interlocking relay) 20 for cutting off the electrical connection between the connection wiring 5 and the indicator 4 is provided in conjunction with the stop of the power supply from the commercial power source, so that it is at night. Even if the connection wiring 5 or the mount 4 receives an induced lightning when the measuring device 1 such as the above is not used, the abnormal voltage or the abnormal current from the connection wiring 5 is cut off by the cutoff relay 20. Since it is not transmitted to the indicator 4, it is possible to prevent or minimize the damage to the indicator 4, and it is possible to improve the reliability of the measuring device 1. That is, according to the above configuration, when the power plug 12 connected to the commercial power supply is removed from the commercial power supply, when the power switch 11 is turned off, or when the stop setting time is reached, the abnormal voltage from the connection wiring 5 or the like. It is possible to prevent or minimize the damage of the indicator 4 due to the abnormal current being cut off by the cutoff relay 20, and when the stop setting time is reached, the cutoff relay 20 can be used for connection wiring without hassle. The electrical connection between 5 and the indicator 4 is cut off.

In addition, when a lightning forecast is issued, the power plug can be easily removed in the past, but since the signal line is connected by the terminal block, a tool is required to remove it, so it can be easily removed. Although it could not be dealt with, according to the above configuration, the electrical connection between the signal line 5b and the indicator 4 is cut off or grounded simply by disconnecting the power plug 12, so the power plug 12 is disconnected. You can get the effect of removing all the wiring just by removing it.

Further, in the above embodiment, since the first surge protection circuit 16 (16A to 16D) is provided in front of the cutoff relay 20, the overvoltage within the withstand range of the first surge protection circuit 16 (16A to 16D) is provided. And overcurrent is protected without being transmitted to the indicator 4 side, but according to this configuration, it exceeds the withstand range of the first surge protection circuit 16 (16A to 16D). Even when an overvoltage or overcurrent occurs, the overvoltage or overcurrent can be protected without being transmitted to the indicator 4.

Then, in particular, as in the case where the weighing device 1 is a truck scale, the load load unit (mounting platform 3) and the digital load cells 2 (2A to 2D) are arranged outdoors, and the indicator 4 is arranged indoors and connected. When the wiring 5 is arranged along the ground, it is more likely to be affected by the induced lightning through the connecting wiring 5, but it is particularly effective that the indicator 4 is damaged in such an environment. Can be prevented or minimized.

However, even when the weighing device 1 is a hopper scale, the same effect can be obtained even when the hopper or digital load cell as the load-bearing unit is arranged outdoors and the connection wiring 5 is arranged along the ground. In addition, even in weighing devices other than truck scales and hopper scales, guidance is provided when the load-bearing unit and digital load cell are placed outdoors, the indicator is placed indoors, and the connection wiring is placed along the ground. Damage to the indicator due to the effects of lightning can be particularly effectively prevented or minimized.

Further, the arrangement is not limited to the above, and the load load unit, the digital load cell 2 (2A to 2D), the connection wiring 5, the indicator 4, etc. are all arranged outdoors or all indoors. Of course, it is possible to apply the above configuration to the weighing device.

Further, in the above embodiment, since the digital load cell 2 (2A to 2D) is used and the signal from the load cell is a digital signal, a relay having a contact (contact resistance) between the load cell and the indicator 4 Since the signal from the load cell does not deteriorate even if the (cutoff relay 20) is provided, there is an advantage that the reliability of the measuring device 1 can be maintained satisfactorily. That is, when an analog load cell is used as the load cell, the load cell signal is a weak analog signal. Therefore, if there is a contact such as a relay in the signal path from the load cell to the indicator, a voltage drop occurs at the contact and the measured value is measured. There is a risk of error. That is, when an analog load cell is used, the contacts and wiring may also cause an error. Therefore, if a contact such as a relay is inserted in the middle, the reliability is lowered, but the digital load cell is used in the above configuration. Therefore, such a decrease in reliability does not occur.

Since the cutoff relay 20 is in the connected state when the measuring device 1 is in operation, there is no effect of protecting the indicator 4 by the cutoff relay 20 at this time. However, since the first surge protection circuit 16 (16A to 16D) and the second surge protection circuit 17 (17A to 17C) are provided in the front and rear stages of the cutoff relay 20, they are affected by the induced lightning through the connection wiring 6. Even in such a case, overvoltage or overcurrent within the withstand range of the first surge protection circuit 16 (16A to 16D) or the second surge protection circuit 17 (17A to 17C) causes an overvoltage or overcurrent on the indicator 4 side. Protected without being transmitted. Further, by providing a surge protection circuit (SPD circuit) also in the load cell unit connection portion (so-called junction box) 7, the digital load cell 2 (2A to 2D) is affected by the induced lightning even when it is affected by the connection wiring 5. The impact on can be minimized. It should be noted that even if at least one of the first surge protection circuit 16 (16A to 16D) and the second surge protection circuit 17 (17A to 17C) is provided, the indicator 4 can be protected.

Further, according to the above configuration, a DLC power supply voltage measuring circuit 22 as a power supply voltage detecting means for detecting the voltage of the power supply supplied from the indicator 4 to the digital load cell 2 (2A to 2D) side is provided to measure the DLC power supply voltage. When it is detected by the circuit 22 that the power supply voltage has dropped, the sub CPU (sub control unit) 21 operates the cutoff relay 20 to cut off the electrical connection between the connection wiring 5 and the indicator 4, and this It is configured to warn that an abnormal situation in which the power supply voltage drops has occurred by displaying a warning on the display unit of the indicator or generating an alarm sound.

That is, in the above configuration, the connection cable to the terminal block 13 and the digital load cell 2 (2A to 2D), the load cell unit connection portion (junction box) 7, and the digital load cell 2 (junction box), which are external (upper) to the indicator 4. If the wires are short-circuited due to troubles such as 2A to 2D), the voltage drops. Therefore, if the cutoff relay 20 is not provided, an excessive current may flow through the indicator 4 and damage the indicator 4. However, in the above configuration, when the electric wires are short-circuited outside the indicator 4 and the voltage drops, this voltage drop is detected by the DLC power supply voltage measuring circuit 22 and cut off by the sub CPU (sub control unit) 21. The relay 20 is turned off and the electrical connection between the connection wiring 5 and the indicator 4 is cut off. In this case, since the signal of the digital load cell 2 (2A to 2D) cannot be obtained, the measurement cannot be performed. However, since the short-circuited external circuit portion can be cut off, an excessive current flows from the indicator 4 and the indicator 4 Can be prevented from being damaged.

In addition, when such a short-circuit trouble occurs, a warning is displayed by an alarm display or a warning sound by the display unit 4a of the indicator 4, so the user knows this state, investigates the cause of the short-circuit, and removes it. Then, by having the error clearing procedure performed, the cutoff relay 20 can be returned to the normal state and the weighing operation by the weighing device 1 can be restarted. Further, as the warning method, in addition to displaying with the indicator 4 or issuing an alarm, the communication function (not shown) of the sub CPU 21 may be used to display by another means provided externally, or the user. You may tell to.

Further, in the above embodiment, a case where a cutoff relay (interlocking relay) 20 for cutting off the electrical connection between the connection wiring 5 and the indicator 4 is provided in conjunction with the case where the power supply from the commercial power source is stopped. As described above, as shown in FIG. 3, instead of the cutoff relay 20, a grounding relay 25 for grounding the electrical connection between the connection wiring 5 and the indicator 4 may be provided as an interlocking relay. When the power supply from the commercial power supply is stopped, it is possible to prevent the abnormal voltage or current from the connection wiring 5 from flowing to the ground 14 side by the grounding relay 25 and transmitting to the indicator 4, so that the indicator 4 can be prevented from being transmitted to the indicator 4. Can be prevented or minimized from being damaged, and the reliability of the measuring device 1 can be improved. Although not shown, if necessary, measures may be taken to prevent the ground relay 25 from short-circuiting when the power is input. Further, both the cutoff relay 20 and the grounding relay 25 may be provided as interlocking relays.

Further, in the above embodiment, the case where the interlocking relay (disconnection relay 20 and grounding relay 25) and the surge protection circuits 16 and 17 are provided in the indicator storage unit 10 for accommodating the indicator 4 has been described. Not limited to this, interlocking relays (disconnection relay 20 and grounding relay 25) and surge protection circuits 16 and 17 are provided separately from the indicator 4 or are arranged inside the housing of the indicator 4. Interlocking relays (disconnection relay 20 and grounding relay 25), surge protection circuits 16 and 17 (or at least interlocking relays), connection wiring 5 and indicator 4 (signal processing unit of indicator 4). ) And it may be provided.

1 Weighing device (truck scale)
2 Digital load cell 3 Mount (load load part)
4 Indicator 5 Connection wiring 6 Power supply 7 Load cell unit connection (junction box)
9 Ground 10 Indicator storage 11 Power switch 12 Power plug 13 Terminal block 14 Ground 15 Sub-board 16 1st surge protection circuit (1st surge absorbing means)
17 Second surge protection circuit (second surge absorbing means)
18 Power surge protection circuit 20 Cutoff relay (interlocking relay)
21 sub CPU
22 DLC power supply voltage measurement circuit (power supply voltage detection means)
23A, 23B Signal connection line 23C, 23D Power supply line 24 Timer 25 Grounding relay (interlocking relay)

Claims (8)

A weighing device including a digital load cell, a load load unit, an indicator, a connection wiring for connecting the digital load cell and the indicator, and a power supply unit connected to a commercial power source.
A cutoff relay that cuts off the electrical connection between the connection wiring and the indicator when the power supply from the commercial power supply is stopped, and a grounding relay that puts the electrical connection between the connection wiring and the indicator in a grounded state. A weighing device characterized by having an interlocking relay, which is at least one of the relays of. The weighing device according to claim 1, wherein surge absorbing means is provided at least one of the front stage and the rear stage of the interlocking relay. When the power plug connected to the commercial power supply is removed from the commercial power supply or the power switch is turned off, the interlocking relay is activated to cut off or ground the electrical connection between the connection wiring and the indicator. The weighing device according to claim 1 or 2. The metering according to any one of claims 1 to 3, wherein the interlocking relay is de-energized by the timer at the stop setting time to cut off or ground the electrical connection between the connection wiring and the indicator. Device. The cutoff relay is provided with a power supply voltage detecting means for detecting the voltage of the power supply supplied from the indicator to the digital load cell side, and when the power supply voltage detecting means detects that the power supply voltage has dropped, the cutoff relay is provided. The measuring device according to any one of claims 1 to 4, wherein the electrical connection between the connection wiring and the indicator is cut off by the method. The weighing device according to claim 5, further comprising a warning means for notifying that the electrical connection between the connection wiring and the indicator is cut off due to a decrease in the power supply voltage. The weighing according to any one of claims 1 to 6, wherein the load-bearing unit and the digital load cell are arranged outdoors, the indicator is arranged indoors, and the connection wiring is arranged along the ground. Device. The weighing device according to any one of claims 1 to 7, wherein the weighing device is a truck scale or a hopper scale.

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