KR20020045636A - Reach-type electric forklift truck with rear steering and steering - Google Patents

Abstract

PURPOSE: A reach typed electric forklift for driving and steering a rear wheel is provided to prevent wear of a rear wheel and to improve travelling safety. CONSTITUTION: An electric forklift of a reach type for driving and steering a rear wheel comprises a master assembly formed on a front face of a 4-wheel drive electric forklift; a fork(3) mounted on the 4-wheel drive electric forklift; a steering wheel installed on a driver's seat; a battery mounted on a lower portion of the driver's seat; front and rear wheels(6,7) fixed on a lower portion of the 4 wheels electric forklift; a steering shaft connected to a hydraulic pump; a steering cylinder(9) controlled by the steering wheel to steer the rear wheel; a piston rod(8,8a) stirred according to changed amount of the hydraulic pressure of the steering cylinder; brackets(9,9a) fixed on the rear wheels; and links(10,10a) rotationally fixed on the brackets.

Description

Reach-type electric forklift truck with rear steering and steering {.}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a forklift, and more particularly, to a driving apparatus of a four-wheeled electric forklift that can be miniaturized and reduced in weight by a structure that improves the driving method of a four-wheeled electric forklift such as a count balance electric forklift. .

In general, the forklift is divided into an engine forklift and an electric forklift according to a power source. An electric forklift includes a battery for supplying power and an electric motor for driving the battery, according to a state in which the fork on which the article is loaded is driven. There are two types of reach type and counter balance type. Forklift trucks are compactly designed to be used in a relatively small space and have a driving mechanism mainly driven by an electric motor. It is a three-wheeled system having a pair of road wheels formed at the front and a driver wheel driven and steered at the rear, or a caster wheel assisting the driver wheel. To load the cargo while protruding to the front of the In order to maintain balance with cargoes, it is a four-wheel system consisting of a pair of front wheels and a pair of rear wheels, and a counter weight that is heavy on the rear of the body is used to handle relatively heavy goods. It is used, the front wheel is driven by the electric motor, the rear wheel is steered by the steering apparatus.

The problem with the conventional counterbalanced electric forklift truck (see Fig. 1) is that the driving device is disposed on the front wheel, and the fork is moved in a state where the fork loads the object, so that excessive load acts on the front of the vehicle to promote wear of the front wheel. . Therefore, it is common to make the diameter of the front wheel larger than the diameter of the rear wheel to endure excessive loads in the front.In order to prevent such a load from being biased, the weight of the body increases as the counter weight is mounted on the rear. The power required increases. In general, the front wheel serves as a driving wheel, while the rear wheel mainly serves as a steering wheel.

Reach-type forklift trucks (see Fig. 2) are made of small size wheels coated with rubber or urethane to operate in a narrow place. Risks are caused. The reach type forklift is manufactured with a smaller diameter than the counter balance type wheels, and thus, it is impossible to work outdoors.

An object of the present invention is to propose a model of a new type of forklift utilizing only the advantages of a counterbalanced forklift and a rich forklift. In other words, it follows the advantages that can be used in the outdoors, which is an advantage of the counter balance type, suppresses the use of the counter weight, which is a disadvantage, and combines the steering and driving functions on the rear wheels, while the fork itself is an advantage of the forklift truck. The new forklift structure is proposed by referring to the structure that the weight can be loaded on the front wheel even when the object is loaded so that it can be used even without a separate counter weight.

Therefore, the present invention changes the four-wheel system in which the front wheel of the counter balance type is driven and the rear wheel is steered, so that the front wheel in the form of a rich electric forklift truck becomes a rod wheel, and the rear wheel can be driven and steered so that the weight at the rear of the vehicle body can be improved. In the present invention, the forklift can maintain the balance of the front and rear without installing a separate counter balance by allowing the weight of the fork to concentrate on the front wheel by loading the luggage with the fork and then moving the fork toward the vehicle body. To achieve the purpose.

In addition, the present invention increases the load on the rear of the vehicle body by minimizing the size of the rear wheel, which functions at the same time as the steering wheel and at the same time as the wheel of the front wheel, minimizes abrasion of the driving wheel, and moves the position of the fork to the inside of the vehicle body. By minimizing the length of the body, to facilitate the work in a narrow space, while maintaining the size of the counter-balanced wheels to implement a forklift truck that can work indoors as well as outdoors.

In the above-mentioned fork-lift truck, a part of moving the fork into the vehicle body after mounting the article on the fork is performed by a hydraulic cylinder or a hydraulic motor, which is known to those skilled in the art.

1 is a side view of a conventional count balanced forklift

2 is a side view of a conventional reach type forklift

3 is a front view of a four-wheeled electric forklift truck to which the present invention is applied.

4 is a bottom view of a four-wheeled electric forklift to which the present invention is applied.

Figure 5 is a rear view of the four-wheeled electric forklift applied to the present invention

Figure 6 is a part view of the axle and the leaf spring support applied in the present invention

Figure 7 is a perspective view of the components of Figure 6 combined

8 is a rear view when the forklift according to the present invention passes the inclined surface

Structural features for achieving the above object intended by the present invention comprises a pair of front wheels and a pair of rear wheels, in forming a four-wheeled electric forklift having a steering device on the rear wheel, drive motor, reducer and power The drive device including the transmission mechanism is installed on the axle of the rear wheel, characterized in that the driving and steering is performed simultaneously in the rear wheel.

The drive device includes a drive motor that operates a battery basically mounted on a four-wheel electric forklift as a power source, a speed reducer for reducing the power of the drive motor at an appropriate reduction ratio, and a power supply for transmitting power output from the speed reducer to both rear wheels. And a differential transmission device, and a power transmission mechanism such as a universal joint, a flexible shaft joint, and the like, for transmitting the power output from the differential gear device to the rear wheel.

The present invention is different from the conventional apparatus in which the driving device is formed on the front wheel which is the front of the vehicle body. As the driving device moves toward the center of the forklift vehicle body to drive the rear wheels, the center of gravity of the vehicle body moves inward and moves forward. It is balanced with the extender placed on the fork.

DETAILED DESCRIPTION Embodiments of the present invention described above will be described with reference to the accompanying drawings.

3 to 4 show a four-wheel reach forklift to which the present invention is applied. First, referring to FIG. 3, the four-wheel electric forklift 1 has a master assembly 2 and a fork 3 on the front side as in a conventional structure. ) Is formed, the steering wheel 4 is formed with a steering wheel 5 constituting a known steering device, a battery 4a is mounted at the lower part of the driver's seat, and a pair of front wheels 6 and rear wheels 7 at the lower body. Is formed.

The steering wheel 5 adjusts the hydraulic pressure of the steering cylinder 9 by compressing oil of a hydraulic pump (not shown) connected to the steering shaft 8 according to the rotating direction as in a known configuration. Steering takes place. That is, the piston rods 8 and 8a are alternated from side to side in accordance with the amount of change in the hydraulic pressure in the steering cylinder 9, one side is rotatably fixed to the end of the piston rods 8 and 8a, and the other On one side, the links 10 and 10a rotatably fixed to the brackets 9 and 9a fixed to the rear wheels 7 and 7a are interlocked so that the rear wheels 7 and 7a are steered left and right.

The steering apparatus is not limited to the example illustrated in the drawings, and various steering apparatuses may be applied by those skilled in the art.

A drive device for driving the rear wheels 7 is formed in the lower center of the vehicle body at a position near the rear wheels 7.

As shown in FIG. 4, the reduction gear 12 and the differential gear device 13 are formed from the driving motor 11 fixed to the center portion of the bottom of the vehicle body toward the rear wheels 7 and 7a.

The output shaft of the differential gear device 13 is connected to the axles 14 and 14a respectively connected to the rear wheels 7 and 7a, and at the ends of both axles 14 and 14a, the flexible shaft joint 15 ( It is fixed to the rear wheels 7 and 7a by 15a.

5 shows a rear view of a forklift truck formed by the present invention. As shown in the figure, the axle 14 is attached to both sides of the differential gear device 13 and the wheel support 24 is attached by attaching the wheel support 24 for engagement with the axle 14 and the leaf spring support 21. In the upper part of the) is installed a cylindrical shaft hole 22 and drills a hole in the vertical arm 30 is installed from the center of the leaf spring support 21 to the lower part to insert the shaft hole 22 and the pin 23 to the coupling In order to allow the left and right of the wheel support 24 to move up and down according to the inclination of the ground, and to prevent the pin 23 from falling out, the pin hole 31 for inserting the flow preventing pin 30 and the flow preventing pin 31 Hypothesis 6 is an assembly view of the components configured as described above. FIG. 7 shows a perspective view of the wheel support 24 and the leaf spring support 21 coupled in order to make the above description of FIG. 6 easier to understand.

In the present invention as described above, the driving device can be installed in the lower body of the vehicle body instead of the role of the counter balance, using a space in which the counter balance is not installed inside the body of the wheels of the same diameter or larger than the front wheels This can prevent the rapid wear of the rear wheels.

According to the present invention as described above, the driving device is installed on the rear wheel of the vehicle body so that the center of gravity is moved, so that the four wheel electric forklift can play the role of the counter balance of the conventional structure. This reduces the weight of the car body and maintains stability when the heavy material is loaded on the fork from the front, and meets the car body standard under the design conditions of general electric forklift trucks by using a space where a counter balance is not installed inside the car body. Therefore, it is possible to use rear wheels of a larger size than the specifications of the rear wheels to be applied to improve driving stability and to delay the rear wheels from quickly wearing out.

Claims (3)

In forming a four-wheeled electric forklift having a structure for moving a known fork of the reach type forklift truck back and forth, a pair of front wheels and a pair of rear wheels, and a steering device provided on the rear wheel, a drive motor, a speed reducer, and a power transmission mechanism. A drive device including a drive is installed on the axle of the rear wheel, and driving and steering is made in the rear wheel. A suspension device is provided between the wheel support 24 and the vehicle body supporting the rear wheel, and the front wheel moves after mounting the load on the fork. The four-wheel electric forklift having a structure in which the rear wheel combines steering and driving and moves the fork while the center of gravity of the fork is loaded on the rear surface. 2. The suspension device according to claim 1, wherein the suspension device is composed of a leaf spring, and the leaf spring support member 24 supporting the leaf spring and the wheel support member 24 are coupled to each other. The output shaft is connected to the axles 14 and 14a respectively connected to the rear wheels 7 and 7a, and the rear wheels 7 are connected to the ends of both axles 14 and 14a by flexible shaft joints 15 and 15a. (7a), the size of the wheel uses the conventional counter-balanced size, the wheel diameter of the rear wheel adopts the same or larger than the diameter of the front wheel, and the driver's seat on the upper part of the body It is provided, the battery is a four-wheel electric forklift having a structure that the fork moves while the rear wheel serves both steering and driving, characterized in that arranged under the seat of the driver's seat The coupling between the wheel support 24 and the leaf spring support 24 is performed by inserting a pin 23 between the vertical arm 30 and the shaft hole 22 to drive the ground. Four-wheel electric forklift having a structure in which the rear wheel is steered and driven, and the fork moves while being horizontally maintained.