JP4294419B2 - Device for measuring the weight of a load in a container handling vehicle - Google Patents

Description

The present invention relates to a weight measurement device for a load in a container handling vehicle, and more particularly to a technique capable of accurately measuring the weight of a load even when the load is loaded in a biased manner before and after the container.

In a container handling vehicle in which a container can be loaded and unloaded freely, there is the following device as a device for measuring the weight of a load loaded on the container (see, for example, Patent Document 1).

Specifically, the weight of the load is converted by tilting the container at a predetermined constant angle and measuring the hydraulic pressure acting on the dump cylinder in this state.
JP-A-8-233640

  However, in the above-described conventional measuring apparatus, when the load is uniformly loaded on the container, the weight can be measured with a certain degree of accuracy. Unless it is taken, it is usually impossible first, and in reality, the load is loaded in a mountainous state biased toward the front side or rear side of the container.

  When the load is loaded in a biased state in the container as described above, there is a problem that the conventional apparatus has a variation in measurement, an error increases, and accurate weight measurement cannot be performed. For example, when the load is loaded on the front side of the container, the hydraulic pressure acting on the dump cylinder is larger than when the load is loaded on the back side. Appears as an error.

  In recent years, collection of charged garbage is also performed, and accurate measurement of the weight of the garbage is indispensable at the collection site for such charged collection.

The present invention has been made in view of the above-mentioned problems, and the object of the present invention is to accurately measure the weight of the load on the site regardless of the load state of the load on the container. An object of the present invention is to provide a weight measuring device for a load in a container handling vehicle.

A weight measuring apparatus for a load in a container handling vehicle according to a first aspect of the present invention includes a dump frame that is rotatably supported at a rear portion of a vehicle body, and an outer arm whose rear end portion is rotatably supported by the dump frame. And a horizontal portion inserted into the outer arm and a vertical portion having a hook provided at the tip thereof, which is erected from the horizontal portion and the front end portion of the horizontal portion, and is formed in a substantially L shape, and is extendable with respect to the outer arm. It is composed of a telescopic arm and a dump cylinder connected between the vehicle body and the outer arm. While the telescopic arm is retracted with respect to the outer arm, the container is loaded and unloaded between the vehicle body and the ground by the dump cylinder, while the outer arm And the dump frame are tied together, and the container is tilted by the dump cylinder without retracting the telescopic arm with respect to the outer arm. In the container handling vehicle to be operated, the tilting position of the container by the dump cylinder when the telescopic arm is retracted with respect to the outer arm, and the position of the container by the dump cylinder when the telescopic arm is not retracted with respect to the outer arm. The container is configured to measure the weight of the container based on the load acting on the dump cylinder and the tilting position to the set angle .

A weight measuring apparatus for a load in a container handling vehicle according to a second aspect of the present invention includes a dump frame that is rotatably supported at a rear portion of a vehicle body, and an outer arm whose rear end portion is rotatably supported by the dump frame. And a horizontal portion inserted into the outer arm and a vertical portion having a hook provided at the tip thereof, which is erected from the horizontal portion and the front end portion of the horizontal portion, and is formed in a substantially L shape, and is extendable with respect to the outer arm. It is composed of a telescopic arm and a dump cylinder connected between the vehicle body and the outer arm. While the telescopic arm is retracted with respect to the outer arm, the container is loaded and unloaded between the vehicle body and the ground by the dump cylinder, while the outer arm And the dump frame are tied together, and the container is tilted by the dump cylinder without retracting the telescopic arm with respect to the outer arm. In container handling vehicles which, above the rear portion of the body cylinder lift lift the bottom rear of the mounted container to the vehicle body is provided, so that the container is substantially horizontal in this lifting cylinder in a state where the container by a predetermined angle tilt The weight of the container is measured based on the load acting on the dump cylinder and the lifting cylinder when the container is lifted.

A weight measuring apparatus for a load in a container handling vehicle according to a third aspect of the invention includes a dump frame that is rotatably supported at the rear part of a vehicle body, and an outer arm whose rear end part is rotatably supported by the dump frame. And a horizontal portion inserted into the outer arm and a vertical portion having a hook provided at the tip thereof, which is erected from the horizontal portion and the front end portion of the horizontal portion, and is formed in a substantially L shape, and is extendable with respect to the outer arm. It is composed of a telescopic arm and a dump cylinder connected between the vehicle body and the outer arm. While the telescopic arm is retracted with respect to the outer arm, the container is loaded and unloaded between the vehicle body and the ground by the dump cylinder, while the outer arm And the dump frame are tied together, and the container is tilted by the dump cylinder without retracting the telescopic arm with respect to the outer arm. In container handling vehicles which, before Symbol is on the vehicle body is provided weight measuring device for measuring the weight of the containers placed on the vehicle body at one place or two places, while being degenerated telescopic arm relative to outer arm And the weight of the container is measured based on the weight measurement by the weight measuring device in a state in which the telescopic arm is not retracted with respect to the outer arm .

A weight measuring apparatus for a load in a container handling vehicle according to a fourth aspect of the present invention includes a dump frame that is rotatably supported at the rear part of a vehicle body, and an outer arm whose rear end part is rotatably supported by the dump frame. And an arm that is refractable with respect to the outer arm, has a vertical portion with a horizontal portion and a front end portion of the horizontal portion, and has a hook at the tip, and is formed in a substantially L shape, And a dump cylinder connected between the outer arm and the container is loaded and unloaded between the vehicle body and the ground by the dump cylinder in a state where the arm is refracted with respect to the outer arm, while the outer arm and the dump frame are integrated. In a container handling vehicle in which the container is tilted by a dump cylinder without refracting the arm against the outer arm. The tilt position of the container by the dump cylinder when the arm is refracted with respect to the outer arm, and the tilt position of the container by the dump cylinder when the arm is not refracted with respect to the outer arm. The container is configured to measure the weight of the container based on a load acting on the dump cylinder.

A weight measuring apparatus for a load in a container handling vehicle according to a fifth aspect of the present invention includes a dump frame that is rotatably supported at the rear part of the vehicle body, and an outer arm whose rear end part is rotatably supported by the dump frame. And an arm that is refractable with respect to the outer arm, has a vertical portion with a horizontal portion and a front end portion of the horizontal portion, and has a hook at the tip, and is formed in a substantially L shape, And a dump cylinder connected between the outer arm and the container is loaded and unloaded between the vehicle body and the ground by the dump cylinder in a state where the arm is refracted with respect to the outer arm, while the outer arm and the dump frame are integrated. In a container handling vehicle in which the container is tilted by a dump cylinder without refracting the arm against the outer arm. A lifting cylinder is provided at the rear part of the vehicle body to lift the bottom rear part of the container mounted on the vehicle body. When the container is tilted by a predetermined angle, the container is dumped when the container is lifted so as to be substantially horizontal. The weight of the container is measured based on a load acting on the cylinder and the lifting cylinder.

A weight measuring apparatus for a load in a container handling vehicle according to a sixth aspect of the invention includes a dump frame rotatably supported at a rear portion of a vehicle body, and an outer arm having a rear end portion rotatably supported by the dump frame. And an arm that is refractable with respect to the outer arm, has a vertical portion with a horizontal portion and a front end portion of the horizontal portion, and has a hook at the tip, and is formed in a substantially L shape, And a dump cylinder connected between the outer arm, and the container is loaded and unloaded between the vehicle body and the ground by the dump cylinder in a state where the arm is refracted with respect to the outer arm, while the outer arm and the dump frame are integrated. In a container handling vehicle in which the container is tilted by a dump cylinder without refracting the arm against the outer arm. On the vehicle body, a weight measuring device for measuring the weight of the container placed on the vehicle body is provided at one or two locations, the arm being refracted with respect to the outer arm, and the arm with respect to the outer arm. The container is configured to measure the weight of the container based on the weight measurement by the weight measuring device in a state where the container is not refracted.

According to the device for measuring the weight of a load in a container handling vehicle according to the present invention, even when the load is not uniform in the container and is loaded in a forward or backward direction, the weight of the load is accurately measured. In addition, it can be easily applied to existing container handling vehicles. In addition, since it is possible to accurately measure the weight of the load, it is possible to reliably prevent overloading, thereby enabling safe driving and unloading of containers, and accurate garbage collection at the collection site. Since the weight of (load) can be measured, it can greatly contribute to the charge of garbage collection.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 shows a container handling vehicle equipped with a container .

The container handling vehicle is provided with a loading / unloading device 2 for loading and unloading the container C between the vehicle body 1 and the ground and discharging the load in the container C.

  The cargo handling device 2 includes an outer arm 21 that is horizontally disposed in a state where the container C is mounted, and a telescopic arm 22 that is formed in a substantially L shape having a vertical portion 22b that is vertically disposed in the same state. Yes.

  The rear end of the outer arm 21 is rotatably supported via a dump frame 2a that is rotatably supported at the rear portion of the vehicle body 1.

  The telescopic arm 22 is formed in a substantially L shape by a horizontal portion 22a inserted into the outer arm 21 and a vertical portion 22b erected from the front end portion of the horizontal portion 22a. The horizontal portion 22a is shown in the figure. The outer arm 21 can be extended and contracted in the longitudinal direction by a non-extending cylinder.

  The vertical portion 22b is provided with a hook 23 that can be freely engaged with and disengaged from an engagement pin C1 provided on the container C at the tip thereof.

  Further, a dump cylinder 24 (see FIGS. 3 to 5) is connected between the outer arm 21 and the vehicle body 1, and the cargo handling device 2 is centered on the rear end portion by the expansion and contraction of the dump cylinder 24. And is configured to be rotatable in the front-rear direction.

  As the container C, an open type whose upper surface is opened or a sealed type whose upper surface is also closed is used, and the rear wall can be opened and closed so that the load can be discharged. In addition, the engaging pin C1 is provided at the upper part of the front wall, the support leg C2 is provided at the bottom front part, and the support roller C3 is provided at the bottom rear part.

  Further, a hinge roller 11 for smoothly loading and unloading the container C between the vehicle body 1 and the ground is provided at the rear end portion of the vehicle body.

Then, when the container C is unloaded by the container handling vehicle, first, with the container C mounted as shown in FIG. 1, the horizontal portion 22a of the extendable arm 22 is moved to the outer arm 21 by the extendable cylinder as shown in FIG. In contrast, the container C on the vehicle body 1 is slid backward by a predetermined length. Thereafter, to tilt the container C is rotated upward more outer arm 21 with the telescopic arm 22 to the dump cylinder 24 as shown in FIG. As a result, the container C can be lowered from the top of the vehicle body 1 to the ground as shown in FIG. Further, the ground container C can be loaded on the vehicle body 1 by the reverse operation to that described above.

  On the other hand, when discharging the load loaded in the container C, the outer arm 21 and the dump frame 2a are fixed integrally by a lashing device (not shown) with the container C loaded on the vehicle body 1. By tying and retracting the telescopic arm 22 with respect to the outer arm 21, the cargo handling device 2 is pivoted upward as shown in FIG. Discharge.

By the way, the above-described container handling vehicle is equipped with a load weight measuring device which is a main part of the present invention for measuring the weight of the load loaded on the container C.

  As shown in FIG. 6, the weight measuring device calculates the weight of the container C based on the pressure sensor 3 that detects the pressure (load) of the pressure oil acting on the dump cylinder 24 and the detection result of the pressure sensor 3. And a display device 5 for displaying the calculation result.

  The calculation device 4 includes a calculation unit 41 to which a pressure signal from the pressure sensor 3 is input, and a storage unit 42.

  In addition to the pressure signal, an operation signal from the measurement operation unit 6 is input to the calculation unit 41. The calculation unit 41 uses the operation signal to output a dump cylinder 24 of the cargo handling device 2 through a control device (not shown). Is operated, the weight of the container C is converted through the storage unit 42 based on the pressure signal from the pressure sensor 3 at this time, and the result is output to the display device 5.

  In the storage unit 42, weight conversion data of the container C based on the pressure signal is input in advance as a data table.

  Here, the measurement principle by this weight measuring apparatus will be described.

First, as shown in FIG. 7, in an ideal state assuming that the loads are loaded evenly in the container C,
W: Weight of load L: Horizontal distance B from center of hinge roller 11 (center of tilting of cargo handling device 2) to center of gravity of load B: Distance P from center of hinge roller 11 to extension line of dump cylinder 24 Dump cylinder 24 Pressure A acting on the piston chamber side of the piston of the dump cylinder 24,
W × L = (P × A) × B, and as a result, W = (P × A) × B / L.
Therefore, in the state where the dump cylinder 24 is extended and the container C is tilted at a certain angle, the center of gravity of the load is at the center of the container C, so the distance L is obtained, and the distance B, the pressure receiving area A Since the weight W can be calculated by detecting the pressure P and the weight of the container C itself can be known in advance, the weight of the load can be calculated as a result. .

  However, this is an ideal state assuming that the loads are evenly loaded in the container C, and the loads are loaded on the container C in a biased manner toward the front side or the rear side. If the center of gravity is not the center, the distance L is unknown and the weight W cannot be calculated.

  Accordingly, when the load is loaded on the container C in a biased manner toward the front side or the rear side, the weight of the load is obtained as follows.

First, the weight W when the telescopic arm 22 of the cargo handling device 2 is extended with respect to the outer arm 21 (see FIG. 8) is:
W = (P1 × A) × B / L1 (1)
Next, the weight W when the telescopic arm 22 is retracted relative to the outer arm 21 (see FIG. 9) is:
W = (P2 × A) × B / L2 (2)
Here, since the expansion / contraction amount S of the expansion / contraction arm 22 is set in advance, L2 = L1-S.
W = (P2 × A) × B / L1-S (3)
Thus, simultaneous equations are established by the above equations 1) and 3), and the weight W can be obtained from the simultaneous equations by detecting P1 and P2 in two states in which the telescopic arm 22 is extended and retracted. It will be possible.

  Accordingly, the detected pressure data by the pressure sensor 3 in various states biased to the container C, that is, various states biased to the front side, the rear side, and the like are obtained in advance as weight conversion data by experiments and stored in the storage unit 42. By inputting, the weight of the container C can be measured as follows.

  That is, when the weight of the load actually loaded in the container C is measured by the weight measuring device, when the operation signal from the measurement operation unit 6 is input to the calculation unit 41, the calculation unit 41 passes through the control device. The container C is tilted by a predetermined angle by extending the dump cylinder 24 and tilting the cargo handling device 2 upward by a predetermined angle.

  In this state (first position), the load (pressure) acting on the dump cylinder 24 is first detected by the pressure sensor 3, and this detected pressure is set to P1.

  Subsequently, after the dump cylinder 24 is retracted and the container C is returned to the traveling state, the telescopic arm 22 is retracted, the container C is moved backward by a distance S corresponding to the expansion / contraction amount of the telescopic arm 22, and the dump cylinder 24 is again connected. The cargo handling device 2 is tilted upward by a predetermined angle by being extended. In this state (second position), the load (pressure) acting on the dump cylinder 24 is detected by the pressure sensor 3, and this detected pressure is set to P2.

  When the detected pressures P1 and P2 are detected by the pressure sensor 3 in this way, the calculation unit 41 converts the weight of the load from the detected pressures P1 and P2 based on the weight conversion data in the storage unit 42, and displays the result as a display device. 5 is displayed.

  The angle at which the container C is tilted is set in advance to an appropriate angle at which the weight of the load can be accurately measured based on the principle described above. When the cargo handling device 2 reaches the angle, an angle sensor, a proximity sensor, This is detected by a detection device such as a limit switch, and the tilting operation of the cargo handling device 2 is stopped at a fixed position.

  In the above description, when the container C is displaced from the first position to the second position, the container C is once moved, but the container C is moved from the first position while being tilted by a predetermined angle. You may make it measure to the weight of the container C by displacing to a 2nd position.

By measuring the weight of the load in this way, the weight of the load can be accurately measured even when the load is not uniform in the container C and is loaded in the forward or backward direction. . In addition, the present invention can be applied to existing container handling vehicles at low cost simply by adding a few members such as the pressure sensor 3.

  In addition, since it is possible to accurately measure the weight of the load, it is possible to reliably prevent overloading, thereby enabling safe driving and unloading of the container C, and accurate on the collection site. Since it is possible to measure the weight of garbage (load), it can greatly contribute to charge for garbage collection.

  Note that the above-described embodiment is merely a preferred embodiment of the present invention, and the present invention is not limited to this, and various design changes can be made within the scope thereof.

  For example, in this embodiment, the container C is displaced to two positions by using the expansion and contraction of the expansion and contraction arm 22 by the cargo handling device 2 having a configuration in which the expansion and contraction arm 22 can expand and contract with respect to the outer arm 21 is described. However, the present invention is not limited to the expansion / contraction operation of the expansion / contraction arm 22 and can be applied to any device provided with means capable of displacing the container C to two positions. For example, the extendable arm 22 may be configured to be refractable rather than extended, and the container C may be displaced to two positions by this refraction operation.

Next, FIG. 10 shows another embodiment of the weight measuring apparatus for the load. The basic configuration of the container handling vehicle excluding the weight measuring device is the same as that of the container handling vehicle described above, and the same members are denoted by the same reference numerals as necessary and description thereof is omitted.

  This weight measuring apparatus includes a pressure sensor 3 for detecting the pressure (load) of pressure oil acting on the dump cylinder 24, a lifting cylinder 7 (see FIG. 11) for lifting the rear portion of the container C on the vehicle body 1, and a lifting cylinder. A second pressure sensor 8 that detects the pressure of the pressure oil acting on the pressure sensor 7, a calculation device 4 that calculates the weight of the container C based on the detection results of the pressure sensor 3 and the second pressure sensor 8, and a calculation result. And a display device 5.

  As shown in FIG. 11, the lifting cylinder 7 is provided on the vehicle body 1 side so as to face the rear end of the bottom surface of the container C mounted on the vehicle body 1. The end is lifted to a predetermined height. Specifically, in a state where the dump cylinder 24 is extended to tilt the container C by a predetermined angle, the rear end of the container C is lifted by the lifting cylinder 7 so that the container C becomes substantially horizontal as shown in FIG. At this time, the pressure of the pressure oil acting on the cylinders 24 and 7 is detected by the pressure sensor 3 and the second pressure sensor 8. It should be noted that the lifting cylinder 7 needs to be disposed so as not to interfere with the normal loading / unloading operation of the container C.

  The calculation device 4 includes a calculation unit 41 to which pressure signals from the pressure sensor 3 and the second pressure sensor 8 are input, and a storage unit 42.

  In addition to the pressure signals described above, operation signals from the measurement operation unit 6 are input to the calculation unit 41, and the calculation unit 41 operates the dump cylinder 24 through a control device (not shown) according to the operation signals as will be described later. At the same time, the lifting cylinder 7 is operated, and the weight of the load in the container C is converted based on the weight conversion data (described later) input to the storage unit 42 from the pressure signals from the pressure sensor 3 and the second pressure sensor 8 at this time. Then, this result is output to the display device 5.

  In the storage unit 42, weight conversion data of the container C based on each pressure signal is input in advance as a data table. That is, when a load is loaded on the container C, even if the load is the same, if the load is loaded on the front side or the rear side of the container C, the dump cylinder 24 and The load acting on the lifting cylinder 7 is different. Accordingly, various pressure data of pressure oil acting on the dump cylinder 24 and the lifting cylinder 7 for various situations is obtained in advance as weight conversion data by experiment, and this is input to the storage unit 42 to calculate. The unit 41 converts the weight of the load from the two detected pressures from the pressure sensor 3 and the second pressure sensor 8.

  Therefore, when the weight of the load actually loaded on the container C is measured by the weight measuring device, when the operation signal from the measurement operation unit 6 is input to the calculation unit 41, the calculation unit 41 passes through the control device. The container C is tilted by a predetermined angle by extending the dump cylinder 24 and tilting the cargo handling device 2 upward by a predetermined angle (see FIG. 11).

  Subsequently, the lifting cylinder 7 is extended from this state and lifted to a position where the container C is in a substantially horizontal state (see FIG. 12).

  In this state, each load (pressure) acting on the dump cylinder 24 and the lifting cylinder 7 is detected by the pressure sensor 3 and the second pressure sensor 8.

  When the pressure is detected by the pressure sensor 3 and the second pressure sensor 8 in this manner, the calculation unit 41 converts the weight of the load based on the detected pressure and the weight conversion data in the storage unit 42 and displays the result. Displayed by the device 5.

  The angle at which the container C is tilted is set in advance to an appropriate angle at which the weight of the load can be accurately measured. When the cargo handling device 2 reaches the angle, detection by an angle sensor, a proximity sensor, a limit switch, or the like. This is detected by the device, and the tilting operation of the cargo handling device 2 is stopped at a fixed position.

By measuring the weight of the load in this way, the weight of the load can be accurately measured even when the load on the container C is not uniform and is loaded on the front or back. Moreover, it can be easily applied to existing container handling vehicles.

  In addition, since it is possible to accurately measure the weight of the load, it is possible to reliably prevent overloading, thereby enabling safe driving and unloading of the container C, and accurate on the collection site. Since it is possible to measure the weight of garbage (load), it can greatly contribute to charge for garbage collection.

FIG. 13 shows still another embodiment of the weight measurement apparatus for the load. The basic configuration of the container handling vehicle excluding the weight measuring device is the same as that of the container handling vehicle described above, and the same members are denoted by the same reference numerals as necessary and description thereof is omitted.

  The weight measuring device includes a load cell 10 as a weight measuring device for measuring the weight of the container C placed on the vehicle body, a calculation device 4 for calculating the weight of the container C based on the detection result of the load cell 10, and a calculation. And a display device 5 for displaying the result.

  As shown in FIG. 14, two load cells 10 are provided, for example, on the left and right sides of the vehicle body 1 that supports the container C when the container C is placed on the vehicle body 1. Specifically, a load cell 10 is provided at a portion of the vehicle body 1 corresponding to a main girder provided on the bottom surface of the container in the front-rear direction, and when the container C is placed on the vehicle body 1, the load cell 10 is The weight is measured when the main girder rides.

  Further, a pad 10a made of resin or the like (see FIG. 15) is provided on the upper surface of the load cell 10 so that the container C can smoothly slide on the load cell 10 as described later with the container C supported. ing.

  By the way, if a total of four load cells 10 are provided on the front, rear, left and right sides of the vehicle body frame, the deviation of the center of gravity position before and after the container C can be corrected, so that the weight of the container C can be accurately measured. However, if four expensive load cells are used, the cost of the entire apparatus increases, which is not practical. Accordingly, the cost is reduced by using two load cells 10, and the measurement accuracy is improved by displacing the container C in two positions in a horizontal state as described later, and measuring the weight of the container C at these two positions. I try to plan.

  The calculation device 4 includes a calculation unit 41 to which a weight signal from the load cells 10 and 10 is input, and a storage unit 42.

  In addition to the weight signals from the load cells 10 and 10, the operation signal from the measurement operation unit 6 is input to the calculation unit 41. In the calculation unit 41, the container C is placed horizontally through a control device (not shown). In such a state, the telescopic arm 22 is expanded and contracted to be displaced into two positions, a position indicated by a solid line in FIG. 14 and a position indicated by a two-dot chain line in FIG. 14, and from the weight signals from the load cells 10 and 10 at these two positions. The weight of the load of the container C is converted based on the weight conversion data (described later) input to the storage unit 42, and the result is output to the display device 5.

  In the storage unit 42, weight conversion data of the container C based on the weight signal of each load cell 10 at the two positions is input as a data table in advance. That is, when a load is loaded on the container C, even if the load is the same, if the load is loaded on the front side or the rear side of the container C, the load cell 10 may change depending on the situation. The measured weight is different. Accordingly, various weight data measured by each load cell 10 for various situations are obtained in advance as weight conversion data by experiment and input to the storage unit 42, so that the calculation unit 41 has the above two positions. The weight of the load is converted from the detected weight.

  Therefore, when the weight of the load actually loaded in the container C is measured by the weight measuring device, when an operation signal from the measurement operation unit 6 is input to the calculation unit 41, first, as shown in FIG. In the state where the container C is placed on the vehicle body 1 (first position), the weight of the container C is measured by each load cell 10.

  Subsequently, the telescopic arm 22 is retracted in this state, and the container C is slid rearward to the position indicated by the two-dot chain line in FIG. 14, and the weight of the container C is measured by each load cell 10 in this state (second position). To do.

  When the weight of the container C at two positions is detected by each load cell 10 in this way, the calculation unit 41 converts the weight of the load based on the weight conversion data of the storage unit 42 from the detected weight, and displays the result. Displayed by the device 5.

  In addition, a detection device such as a proximity sensor or a limit switch is provided on the telescopic arm 22 or the like, and the container C is disposed at the same second position every time by making the amount of degeneration of the telescopic arm 22 constant by the detection of the detection device. Like to do.

Therefore, instead of extending the dump cylinder 24 and tilting the container C as in the above-described embodiment, the weight of the load is measured in a horizontal and stable state in which the container C is placed on the vehicle body 1. Even when the load on the container C is not uniform and is loaded on the front or back side, the weight of the load can be measured with higher accuracy than the one that tilts the container C. It can be easily applied to existing container handling vehicles.

  In addition, since it is possible to accurately measure the weight of the load, it is possible to reliably prevent overloading, thereby enabling safe driving and unloading of the container C, and accurate on the collection site. Since it is possible to measure the weight of garbage (load), it can greatly contribute to charge for garbage collection.

  In this embodiment, the load cell 10 is provided in two places on the left and right, but the load cell 10 may be provided in only one place.

It is a schematic side view which shows the whole structure of a container handling vehicle. It is a side view for demonstrating the container unloading operation | movement of a container handling vehicle. It is a side view for demonstrating the container unloading operation | movement of a container handling vehicle. It is a side view for demonstrating the container unloading operation | movement of a container handling vehicle. It is a side view for demonstrating discharge operation | movement of the load loaded into the container of the container handling vehicle. It is a block diagram which shows the structure of the weight measurement apparatus of a load. It is a figure for demonstrating the principle of weight measurement. It is a figure for demonstrating the principle of weight measurement. It is a figure for demonstrating the principle of weight measurement. It is a block diagram which shows other embodiment of the weight measuring apparatus of a load. It is a schematic side view which shows the state which tilted the container by the predetermined angle in the weight measurement. It is a schematic side view which shows the state of the container at the time of a weight measurement. It is a block diagram which shows other embodiment of the weight measuring apparatus of a load. It is a schematic side view showing a container handling vehicle provided with a load cell. It is a partial side view of the expansion which shows the attachment state of a load cell.

2 Cargo Handling Device 21 Outer Arm 22 Telescopic Arm 24 Dump Cylinder 3 Pressure Sensor 4 Computing Device 7 Lifting Cylinder 8 Second Pressure Sensor 10 Load Cell

Claims (6)

A dump frame that is rotatably supported at the rear part of the vehicle body, an outer arm whose rear end part is rotatably supported by the dump frame, a horizontal part inserted into the outer arm, and a front end part of the horizontal part. It has a vertical part with a hook at the tip and is formed in a substantially L shape, and is composed of a telescopic arm that is telescopic with respect to the outer arm, and a dump cylinder that is connected between the vehicle body and the outer arm. The container is loaded and unloaded between the vehicle body and the ground by the dump cylinder while the telescopic arm is retracted with respect to the outer arm, while the outer arm and the dump frame are secured together, and the telescopic arm is attached to the outer arm. In a container handling vehicle in which a container is tilted by a dump cylinder without being retracted, the telescopic arm with respect to the outer arm The load acting the tilted position to the set angle of the container by dump cylinder while being degenerated, the dump cylinder with tilted position to set the angle of the container by dump cylinder in a state that does not degenerate the telescopic arm relative to the outer arm A weight measurement apparatus for a load in a container handling vehicle, wherein the weight of the container is measured based on the container. A dump frame that is rotatably supported at the rear part of the vehicle body, an outer arm whose rear end part is rotatably supported by the dump frame, a horizontal part inserted into the outer arm, and a front end part of the horizontal part. It has a vertical part with a hook at the tip and is formed in a substantially L shape, and is composed of a telescopic arm that is telescopic with respect to the outer arm, and a dump cylinder that is connected between the vehicle body and the outer arm. The container is loaded and unloaded between the vehicle body and the ground by the dump cylinder while the telescopic arm is retracted with respect to the outer arm, while the outer arm and the dump frame are secured together, and the telescopic arm is attached to the outer arm. mounting of the container handling vehicle for tilting the container by dump cylinder in a state that does not degenerate, to the vehicle body in the rear part of the vehicle body A lifting cylinder is provided to lift the bottom rear of the container, and when the container is tilted at a predetermined angle, the lifting cylinder lifts the container so that the container is substantially horizontal, based on the load acting on the dump cylinder and the lifting cylinder. A weight measuring device for a load in a container handling vehicle, wherein the weight of the container is measured. A dump frame that is rotatably supported at the rear part of the vehicle body, an outer arm whose rear end part is rotatably supported by the dump frame, a horizontal part inserted into the outer arm, and a front end part of the horizontal part. It has a vertical part with a hook at the tip and is formed in a substantially L shape, and is composed of a telescopic arm that is telescopic with respect to the outer arm, and a dump cylinder that is connected between the vehicle body and the outer arm. The container is loaded and unloaded between the vehicle body and the ground by the dump cylinder while the telescopic arm is retracted with respect to the outer arm, while the outer arm and the dump frame are secured together, and the telescopic arm is attached to the outer arm. in container handling vehicle for tilting the container by dump cylinder in a state that does not degenerate, it is placed on the vehicle body before SL on the vehicle body Weight measuring device for measuring the weight of the container is provided at one position or two positions, the weight measurement by the weight measuring instrument and state of the telescopic arm was stuck against the outer arm, a state which does not degenerate the telescopic arm relative to the outer arm A weight measurement apparatus for a load in a container handling vehicle, wherein the weight of the container is measured based on the container. A dump frame that is rotatably supported at the rear part of the vehicle body, an outer arm whose rear end part is rotatably supported by the dump frame, and a refractive part that is refractable with respect to the outer arm. The horizontal part and the front end of the horizontal part It is composed of an arm formed in a substantially L shape with a vertical portion provided with a hook at the tip and a dump cylinder connected continuously between the vehicle body and the outer arm, with respect to the outer arm. The container is loaded and unloaded between the vehicle body and the ground by the dump cylinder while the arm is refracted, and the outer arm and the dump frame are secured together and the arm is not refracted with respect to the outer arm by the dump cylinder. In a container handling vehicle that tilts a container, a dump cylinder in a state where the arm is refracted with respect to the outer arm. The weight of the container is measured based on the load acting on the dump cylinder between the tilt position to the set angle of the container and the tilt position to the set angle of the container by the dump cylinder when the arm is not refracted with respect to the outer arm. An apparatus for measuring the weight of a load in a container handling vehicle characterized by being configured as described above . A dump frame that is rotatably supported at the rear part of the vehicle body, an outer arm whose rear end part is rotatably supported by the dump frame, and a refractive part that is refractable with respect to the outer arm. The horizontal part and the front end of the horizontal part It is composed of an arm formed in a substantially L shape with a vertical portion provided with a hook at the tip and a dump cylinder connected continuously between the vehicle body and the outer arm, with respect to the outer arm. The container is loaded and unloaded between the vehicle body and the ground by the dump cylinder while the arm is refracted, while the outer arm and the dump frame are secured together and the arm is not refracted with respect to the outer arm by the dump cylinder. In a container handling vehicle that tilts a container, a rear rear portion of a container mounted on the vehicle body is lifted at the rear portion of the vehicle body. A lifting cylinder is provided, and the weight of the container is measured based on the load acting on the dump cylinder and the lifting cylinder when the container is lifted so that the container is substantially horizontal with the container tilted by a predetermined angle. An apparatus for measuring the weight of a load in a container handling vehicle characterized by being configured as described above. A dump frame that is rotatably supported at the rear part of the vehicle body, an outer arm whose rear end part is rotatably supported by the dump frame, and a refractive part that is refractable with respect to the outer arm. The horizontal part and the front end of the horizontal part It is composed of an arm formed in a substantially L shape with a vertical portion provided with a hook at the tip and a dump cylinder connected continuously between the vehicle body and the outer arm, with respect to the outer arm. The container is loaded and unloaded between the vehicle body and the ground by the dump cylinder while the arm is refracted, and the outer arm and the dump frame are secured together and the arm is not refracted with respect to the outer arm by the dump cylinder. In a container handling vehicle that tilts a container, a weight measurement for measuring the weight of a container placed on the vehicle body is provided on the vehicle body. The container is provided at one or two locations, and the weight of the container is measured based on the weight measurement by the weight measuring device in a state where the arm is refracted with respect to the outer arm and a state where the arm is not refracted with respect to the outer arm. A weight measuring apparatus for a load in a container handling vehicle characterized by being configured as follows.

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