KR101079357B1 - The structure for arm-roll truck with pin-in-slot - Google Patents

Abstract

The present invention relates to a driving method of an arm roll truck, which is an environmental special equipment, and more particularly, to reduce the weight of a vehicle by reducing the number of hydraulic cylinders used by changing the structure of the arm roll unit that is driven when the loading box is mounted and removed. The present invention relates to a method of changing an arm roll unit through a structure for reducing the number of operating devices to increase the driver's convenience.

To this end, a slide cylinder for horizontally moving the arm roll unit and a dumping cylinder for rotating the loading box is used to move the arm roll unit horizontally through one cylinder, and then a plate-shaped pin is inserted into the slot of the cylindrical rotating shaft and the slot. It is characterized by the modification of the structure of the arm roll unit so that the loading box can be rotated through the cylindrical bearing.

Arm rolls, Arm roll trucks, Arm roll units, Environmental special equipment

Description

Structure of arm roll unit using pin and slot {The structure for arm-roll truck with pin-in-slot}

The present invention relates to an arm roll unit of an arm roll truck, which is an environmental special equipment. More specifically, the structure of the arm roll unit driven at the time of loading and unloading of the loading box is changed in a pin and slot manner to reduce the number of hydraulic cylinders used. The present invention relates to a method of changing an arm roll unit through a structure that reduces weight and reduces the number of operation units of the operation unit to increase the convenience of the driver's operation.

Generally, the arm roll unit structure of an arm roll truck consists of the slide cylinder which moves an arm roll unit horizontally, and the dumping cylinder which raises an arm roll unit to rotate a load box. When the slide cylinder is extended, the arm roll hook moves horizontally from the rear of the driver's seat toward the rear of the vehicle body as shown in FIG. After that, as shown in (b) of FIG. 1, the loading cylinder is moved to the rear of the truck by pushing the arm roll hook until the slide cylinder continuously extends to reach the extension limit. After that, as shown in (c) of FIG. 1, the dumping cylinder is extended to drive rotation of the arm roll hook.
A total of three cylinders are required for the driving, one slide cylinder and two dumping cylinders are symmetrically mounted to balance the left and right. In addition, two steering wheels are required for driving such a slide cylinder and a dumping cylinder.
However, the driving made through such a structure is made through two steering wheels, which reduces the operator's convenience, and increases the weight of the vehicle body since the hydraulic cylinders are composed of two to three pieces for horizontal movement and rotational movement.
In addition, this drive is driven to mount and remove the loading roll of the arm roll truck through the stroke of contraction and tension of the slide cylinder and the stroke of contraction and tension of the dumping cylinder. Will be made.

The present invention is a hydraulic cylinder that is used to move the arm roll unit horizontally through the slide cylinder, and to mount and remove the loading box by rotating the arm roll hook through the dumping cylinder, the structure of the arm roll unit in the pin and slot manner The purpose of the present invention is to reduce the weight of the vehicle, reduce the weight of the vehicle, allow the arm roll unit to be mounted and dismounted continuously through a single stroke, and to improve the operator's operability and convenience of operation by reducing the number of operation units of the operation unit.

The present invention relates to an arm roll unit for mounting and removing a loading box of an arm roll truck, wherein the structure of the arm roll unit is changed to replace a slide cylinder for horizontal movement of the arm roll hook and a dumping cylinder for rotational movement of the arm roll hook. It is characterized in that the arm roll unit mounts and removes the loading box using a cylindrical bearing having pins and slots and one hydraulic cylinder.

The present invention is to change the structure of the arm roll unit by using a bearing consisting of a pin and a slot and one hydraulic cylinder to reduce the number of hydraulic cylinders compared to the arm roll unit of the conventional arm roll truck, thereby reducing the weight and By reducing the number of parts for driving the hydraulic cylinder, it is possible to reduce the maintenance cost and oil cost of the arm roll truck, and it can have the time saving effect according to the continuous loading box dismounting and discharging operation to proceed continuously. . In addition, it is possible to improve the operability and convenience of the driver by reducing the number of operating devices of the operation unit.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.
FIG. 2 is a structural diagram of a device for driving horizontal movement and rotation movement using one hydraulic cylinder 400 in an arm roll unit of an arm roll truck, and a pin coupling portion connecting a body and an arm roll hook to an arm roll hook in an existing roll unit. It shows the replacement with a component consisting of a plate-shaped pin 110 provided and a separate cylindrical bearing 200 with a slot into which the plate-shaped pin can be inserted. As shown in FIG. 2A, when the hydraulic cylinder is extended, the arm roll hook 100 and the plate-shaped pin 110 provided therewith are directed toward the rear of the vehicle along the mold 310 serving as a guide configured in the arm roll unit. When pushed horizontally to reach the end of the frame 300 configured in the arm roll unit, the plate-shaped pin 110 provided in the arm roll hook is configured inside the cylindrical bearing 200 as shown in FIG. It is inserted into the slot (more particularly the space between 210 and 220).
In this state, when the hydraulic cylinder 400 is further elongated, the female roll hook inserted into the slot (more specifically, the space between 210 and 220) configured in the cylindrical bearing as shown in (d) of FIG. 3 is provided. The arm roll hook 100 starts to rotate clockwise together with the plate-shaped pin 110. When the slot formed in the cylindrical bearing 200 (more specifically, the space between 210 and 220) and the plate-shaped pin 110 provided in the arm roll hook are completely coupled to each other, a cylindrical shape is formed. 100 rotates about this cylinder.
After the arm roll hook 100 is completely rotated as shown in FIG. 2 (c), the hydraulic cylinder 400 is shortened to return the arm roll hook 100 counterclockwise to return to the original position. At this time, the cylindrical bearing 200 rotates counterclockwise with the plate-shaped pin 110 provided in the female roll hook, and slots formed in the cylindrical bearing 200 as shown in (a) and (b) of FIG. 2. (More specifically, the space between the reference numeral 210 and 220) and the frame 310 serving as a guide is parallel to the plate-shaped pin 110 provided on the arm roll hook serves to fix the rotation axis of the cylindrical bearing Since the plate-shaped pin 110 provided in the arm roll hook cannot be pulled out before being positioned in the open portion of the part 320 of the frame, the arm roll hook 100 can maintain the rotation center while rotating counterclockwise. .
Then, when the counterclockwise rotation of the arm roll hook 100 ends, slots configured in the cylindrical bearing 200 as shown in FIGS. 2A and 2B (more specifically, between 210 and 220). Space) and the frame 310 serving as a guide are formed in parallel to the arm roll hook inserted into the slot (more specifically, the space between 210 and 220) configured inside the cylindrical bearing 200. The plate-shaped pin 110 can be pulled out toward the frame 310 serving as a guide, so that when the hydraulic cylinder 400 continues to contract, the arm roll hook 100 moves horizontally toward the front of the vehicle. To get started. If the hydraulic cylinder 400 continues to contract afterwards, the plate-shaped pin 110 provided in the arm roll hook is horizontally moved toward the front of the vehicle in a fixed state by the frame 310 serving as a guide. It will return to the original position where the driving started.

1 is a side view showing the driving of the arm roll unit in the process of mounting and removing the loading box of a typical arm roll truck.
Figure 2 is a side view showing the drive in the loading and removal process of the loading box of the arm roll unit devised through the present invention.
3 is an enlarged view of a driving process in which a plate-shaped pin provided in an arm roll unit and a separate cylindrical bearing having a slot into which a plate-shaped pin is used in the present invention are moved horizontally and rotationally of an arm roll hook. Side view.
4 is a perspective view of an arm roll hook having a plate-shaped pin;
5 is a perspective view of a separate cylindrical bearing with a slot into which plate-shaped pins can be inserted;
Figure 6 is a perspective view of a frame that serves to guide the rotational axis of the separate cylindrical bearing having a guide role of the plate-shaped pin provided in the arm roll hook and the slot into which the pin can be inserted
Figure 7 is a perspective view of the arm roll unit devised through the present invention
<Explanation of symbols for the main parts of the drawings>
100 a roll roll
Plate-shaped pin with 110 arm roll hook
Separate cylindrical bearing with slot into which 200 pins can be inserted
Upper part of a separate cylindrical bearing with a slot into which 210 pins can be inserted
Lower part of a separate cylindrical bearing with a slot into which a 220-plate pin can be inserted
The frame serves to fix the rotation axis of the separate cylindrical bearing with the guide of the pin provided in the 300 arm roll hook and the slot into which the pin can be inserted.
310 The part of the mold that serves as a guide for the pins on the arm roll hook
Portion of the frame which serves to secure the axis of rotation of a separate cylindrical bearing with a slot into which 320 pins can be inserted
400 hydraulic cylinder

Claims (1)

An arm roll unit for mounting and dismounting a loading box of an arm roll truck, comprising: a hydraulic cylinder (400), an arm roll hook (100) having plate-shaped pins, and a separate cylinder having a slot into which a plate-shaped pin can be inserted. Bearing 200, characterized in that it comprises a frame 300 which serves to guide the rotational axis of the separate cylindrical bearing having a guide role of the plate-shaped pin provided in the arm roll hook and the slot into which the pin can be inserted Arm roll unit device.

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