KR101175240B1 - Hydraulic system for skid steer loader - Google Patents

Abstract

The present invention relates to a hydraulic system of a skid steer loader. The hydraulic system of the present invention includes a traveling system for driving left and right wheels, a working system for driving a work machine, and the working system includes a working oil pump, a hydraulic line for conveying hydraulic oil of the working oil pump, and a hydraulic line. A hydraulic system of a skid steer loader including a control valve for controlling hydraulic oil to operate a work machine, the hydraulic system comprising: a bypass line branched from a hydraulic line and connected to a traveling system, and bypassing the hydraulic oil of the hydraulic line to the traveling system; When the hydraulic fluid flow rate of the traveling system is insufficient and falls below the set pressure, a bypass valve is provided to open the bypass line to replenish the traveling system with the operating oil of the bypass line. According to this invention, since it has a structure which replenishes the traveling system with hydraulic oil of the hydraulic pump which drives a work system, it does not need to provide the separate replenishment pump for refilling hydraulic fluid. In particular, since it is not necessary to provide a separate refill pump, the manufacturing cost is low, it is not necessary to provide a separate installation space for installing the refill pump. In addition, since it has a configuration that adequately replenish only the insufficient flow rate, it is possible to improve the energy efficiency.

Description

HYDRAULIC SYSTEM FOR SKID STEER LOADER}

1 is a hydraulic circuit diagram schematically showing the configuration of a hydraulic system of a conventional skid steer loader;

2 is a hydraulic circuit diagram schematically showing the configuration of the hydraulic system of the skid steer loader according to the present invention.

♣ Explanation of symbols for the main parts of the drawing ♣

10: left wheel oil pump 12: hydraulic line

13: Left wheel hydraulic motor 20: Right wheel oil pump

22: hydraulic line 23: right wheel hydraulic motor

30: working oil pump 32: hydraulic line

33: control valve 40: odometer

50: work system 70: bypass line

72: first branch line 74: second branch line

80: replenishment valve 82: first hydraulic pressure unit

84: pilot signal line 86: second pressure receiving unit

88: compression spring

The present invention relates to a hydraulic system of a skid steer loader, and more particularly, to a hydraulic system of a skid steer loader for driving left and right wheels and for driving various work machines.

The skid steer loader is a kind of heavy equipment used to move or load unshaped powder-like objects such as soil or sand to a high place. It is a bucket that can hold loads and a bucket that moves up and down. Has a boom assembly. And the lower part of the vehicle body is provided with wheels that are independently driven left and right to enable work in a small space and a small working radius.

This skid steer loader has a hydraulic system for driving the device. The hydraulic system comprises an oil pump for generating the pressurized oil, a control valve for controlling the flow direction and the flow rate of the pressurized oil, and a working machine for mechanical work.

Figure 1 is a simplified hydraulic circuit diagram showing the configuration of the hydraulic system of the skid steer loader. According to this, the hydraulic system of the skid steer loader has a left wheel oil pump 10, a right wheel oil pump 20, and a work machine oil pump 30 driven by a power source 1 such as an internal combustion engine or an electric motor. The left wheel oil pump 10 and the right wheel oil pump 20 are swash plate type variable hydraulic pumps in which the discharge amount and the discharge direction are controlled, and the work machine oil pump 30 is a gear pump in which the discharge amount and the discharge direction are constant. These left wheel oil pump 10, right wheel oil pump 20 and work machine oil pump 30 are so-called tandem pumps installed in series with each other.

The left wheel oil pump 10 has a hydraulic line 12, which is connected at both ends to the left wheel oil pump 10 so as to continuously circulate hydraulic oil discharged from the left wheel oil pump 10. Is connected to both output terminals. And the left wheel hydraulic motor 13 is installed on the hydraulic line (12). The left wheel hydraulic motor 13 drives the left wheels of the skid steer loader.

The right wheel oil pump 20 has a hydraulic line 22, and the hydraulic line 22 has both ends of the right wheel oil pump 20 so as to continuously circulate hydraulic oil discharged from the right wheel oil pump 20. Is connected to both output terminals. The right wheel hydraulic motor 23 is installed on the hydraulic line 22. The right wheel hydraulic motor 23 drives the right wheels of the skid steer loader.

The work machine oil pump 30 has a hydraulic line 32, and a control valve 33, an oil cooler 35, and an oil filter 36 are sequentially installed on the hydraulic line 32. The control valve 33 is equipped with a boom spool, a bucket spool, and an optional spool not shown to operate various work machines such as the boom cylinder 37, the bucket cylinder 38, and the like. The oil cooler 35 and the oil filter 36 cool and filter the hydraulic oil flowing along the hydraulic line 32.

Here, the left wheel oil pump 10 driving the left wheels and the hydraulic line 12 and the left wheel hydraulic motor 13 and the right wheel oil pump 20 and the hydraulic line 22 and the right wheel driving the right wheels The hydraulic motor 23 will be referred to as "run system 40". And the working oil pump 30, the hydraulic line 32 and the control valve 33 for driving the various working machines will be referred to as "work industry 50".

According to such a configuration, first, the power source 1 operates. Then, the left wheel, right wheel, working oil pumps (10, 20, 30) are each operating at the same time to generate a pressure oil. At this time, the hydraulic oil of the left and right wheel oil pumps 10 and 20 is circulated through the respective hydraulic lines 12 and 22 to drive the left wheel hydraulic motor 13 and the right wheel hydraulic motor 23, thereby. Skid steer loaders are capable of driving forward, reverse and turn. And the pressurized oil of the working oil pump 30 is introduced into the control valve 33 through the hydraulic line 32, the pressurized oil introduced into the control valve 33 is boom by the boom spool, bucket spool and option spool (not shown) Cylinder 37, the bucket cylinder 38 is introduced into the operating.

On the other hand, the hydraulic system of the skid steer loader further includes a hydraulic oil replenishment pump 60 for replenishing the hydraulic oil to the traveling system 40 constituting the closed circuit. The hydraulic oil replenishment pump 60 pumps the hydraulic oil, and serves to supply the pumped hydraulic oil to each of the hydraulic lines 12 and 22 of the traveling system 40.

As such, the reason for replenishing the driving system 40 is that the volumetric efficiency of each of the oil pumps 10 and 20 and the hydraulic motors 13 and 23 does not reach 100%. This is because the hydraulic oil discharged from the oil pumps 10 and 20 is slightly insufficient for pumping the oil.

On the other hand, the conventional hydraulic system of the skid steer loader is further provided with a hydraulic oil replenishment pump 60 for replenishing the hydraulic fluid to the traveling system 40, it takes a lot of cost and time to install and install it In addition, there is a problem that a separate installation space must be prepared to install it.

In addition, the hydraulic oil replenishment pump 60 always pumps a certain amount of hydraulic fluid, and when only a small amount of hydraulic fluid is required in the traveling system 40, the pumped hydraulic fluid must be drained again, thus reducing energy efficiency. .

Therefore, the present invention has been made to solve the above problems, the object of which is to reduce the manufacturing cost and manufacturing time by having a configuration that replenishes the hydraulic fluid to the odometer even at a low cost and simple configuration, It is to provide hydraulic system of skid steer loader which does not need installation space.

In addition, another object of the present invention is to provide a hydraulic system of the skid steer loader that can be configured to properly replenish only the flow rate required for the traveling system to improve energy efficiency.

These objects include a traveling system for driving left and right wheels, a working system for driving a work machine, the traveling system including a left wheel oil pump and a hydraulic line for circulating hydraulic oil discharged from the left wheel oil pump; And a hydraulic power line for circulating hydraulic oil discharged from the right wheel oil pump and the right wheel oil pump while operating by hydraulic oil circulated along the hydraulic line and driving the left wheels; And a right wheel hydraulic motor operated by the circulating hydraulic fluid to drive the right wheels, wherein the work system controls a working oil pump, a hydraulic line for transporting the working oil of the working oil pump, and the hydraulic oil of the hydraulic line. To the hydraulic system of the skid steer loader including a control valve for operating the work machine. On, is branched from the hydraulic lines of the working system is connected with a hydraulic line of the travel system, a bypass line for the traveling to step bypassing the hydraulic fluid of the hydraulic lines of the working system and; When the hydraulic fluid flow rate of the traveling system is insufficient and falls below the set pressure, the hydraulic pressure of the skid steer loader comprising a replenishment valve for opening the bypass line to refill the traveling system with the operating oil of the bypass line. Can be achieved by the system.

Preferably, the refill valve includes a first hydraulic pressure part on one side and a second hydraulic pressure part on the other side, wherein the first hydraulic pressure part is connected to the traveling system by a pilot signal line, and the second hydraulic pressure part is a set pressure. It is characterized in that the compression spring is provided to provide an internal spool structure for opening the bypass line when the hydraulic oil pressure of the pilot signal line is less than the set pressure of the compression spring.

Hereinafter, a preferred embodiment of the hydraulic system of the skid steer loader according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a hydraulic circuit diagram showing the configuration of the hydraulic system of the skid steer loader according to the present invention. According to this, the hydraulic system of the skid steer loader of the present invention has a left wheel oil pump 10, a right wheel oil pump 20, and a work machine oil pump 30 driven by the power source 1. The left wheel oil pump 10 and the right wheel oil pump 20 are swash plate type hydraulic pumps, and the work machine oil pump 30 is a gear pump.

The left wheel oil pump 10 has a hydraulic line 12. Both ends of the hydraulic line 12 are connected to both output ends of the left wheel oil pump 10 so that the hydraulic oil discharged from the left wheel oil pump 10 can be continuously circulated. And the left wheel hydraulic motor 13 is installed on the hydraulic line (12).

The right wheel oil pump 20 has a hydraulic line 22. Both ends of the hydraulic line 22 are connected to both output ends of the right wheel oil pump 20 so that the hydraulic oil discharged from the right wheel oil pump 20 can be continuously circulated. The right wheel hydraulic motor 23 is installed on the hydraulic line 22.

The work machine oil pump 30 has a hydraulic line 32. The control valve 33, the oil cooler 35, and the oil filter 36 are sequentially installed on the hydraulic line 32. The control valve 33 is equipped with a boom spool, a bucket spool, and an optional spool not shown to operate various actuators such as the boom cylinder 37 and the bucket cylinder 38. The oil cooler 35 and the oil filter 36 cool and filter the hydraulic oil flowing along the hydraulic line 32.

Here, the left wheel oil pump 10, the hydraulic line 12 and the left wheel hydraulic motor 13, the right wheel oil pump 20, the hydraulic line 22 and the right wheel hydraulic motor 23 " (40) ". And the working oil pump 30, the hydraulic line 32 and the control valve 33 for driving various working machines will be referred to as "working system 50".

On the other hand, the hydraulic system of the present invention, the bypass line 70 branched from the hydraulic line 32 of the work system 50, and each hydraulic line of the traveling system 40 branched from the bypass line 70 ( 12 and 22 have a first branch line 72 and a second branch line 74 connected to each other.

The bypass line 70 bypasses the working oil of the work machine oil pump 30 flowing along the hydraulic line 32 of the work system 50. In addition, the first branch line 72 and the second branch line 74 transfer hydraulic oil bypassed to the bypass line 70 to the hydraulic lines 12 and 22 of the traveling system 40, respectively. In particular, the hydraulic oil is transferred to each of the hydraulic lines 12 and 22 of the traveling system 40 forming a closed loop.

Meanwhile, the replenishment valve 80 is installed in the bypass line 70. When the hydraulic oil flow rate of the traveling system 40 is insufficient and the internal pressure falls below the set pressure, the supplemental valve 80 opens the bypass line 70 to transfer the hydraulic oil of the bypass line 70 to the traveling system 40. Refill each hydraulic line (12, 22).

The replenishment valve 80 includes a pilot signal line 84 connecting the first hydraulic part 82 on one side and the output terminal 80a of the first hydraulic part 82 and the replenishment valve 80. The pilot signal line 84 transfers the hydraulic oil pressure of the traveling system 40 to act on the first hydraulic pressure unit 82, and the hydraulic oil pressure of the traveling system 40 (hereinafter referred to as "pilot pressure"). ) To pressurize the replenishment valve (80), but in a direction to block the bypass line (70).

The replenishment valve 80 has a second hydraulic pressure portion 86 on the other side, and a compression spring 88 is installed on the second hydraulic pressure portion 86. The compression spring 88 pressurizes the replenishment valve 80, and pressurizes the bypass line 70 in the opening direction. Here, the tension of the compression spring 88 is the set pressure. Therefore, when the pilot pressure of the pilot signal line 84 is greater than the set pressure of the compression spring 88, the refill valve 80 is switched in the direction to block the bypass line 70, the bypass Shut off line 70. When the pilot pressure of the pilot signal line 84 is smaller than the set pressure of the compression spring 88, the supplemental valve 80 is switched to open the bypass line 70 while the bypass line ( Open 70).

On the other hand, the compression spring 88 is a variable spring that can adjust the tension. Thus, the set pressure can be adjusted.

According to the replenishment valve 80 of such a structure, when the hydraulic fluid flow volume of the traveling system 40 is sufficient and its internal pressure is more than the set pressure, the bypass line 70 is interrupted | blocked and the hydraulic fluid replacement is restrict | limited, and the traveling system When the flow rate of the hydraulic oil of 40 is insufficient and the internal pressure is lower than the set pressure, the bypass line 70 is opened to serve to replenish the hydraulic oil.

On the other hand, since the refill valve 80 has a configuration for replenishing the traveling system 40 with the hydraulic oil of the working machine hydraulic pump 30, it is not necessary to provide a separate replenishment pump for refilling the hydraulic oil. In particular, since it is not necessary to provide a separate refill pump, the manufacturing cost is low, it is not necessary to provide a separate installation space for installing the refill pump. In addition, since only the flow rate required for the traveling system 40 has a configuration that adequately refills the hydraulic oil of the working machine hydraulic pump 30, it is possible to improve energy efficiency.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

Since the hydraulic system of the skid steer loader according to the present invention having such a configuration has a configuration for replenishing the traveling system with hydraulic oil of the working machine hydraulic pump, it is not necessary to provide a separate supplementary pump for replenishing hydraulic fluid. In particular, since it is not necessary to provide a separate refill pump, the manufacturing cost is low, it is not necessary to provide a separate installation space for installing the refill pump. In addition, since it has a configuration that adequately replenish only the insufficient flow rate, it is possible to improve energy efficiency.

Claims (3)

And a traveling system 40 for driving left and right wheels, and a working system 50 for driving a work machine. The traveling system 40 includes a left wheel oil pump 10 and the left wheel oil pump ( 10, the left wheel hydraulic motor 13 for driving the left wheels while being operated by the hydraulic oil circulated through the hydraulic oil discharged from the 10, the hydraulic line 12 and the right wheel oil pump ( 20) and the right wheel hydraulic motor for driving the right wheels while being operated by the hydraulic line 22 for circulating the hydraulic oil discharged from the right wheel oil pump 20 and the hydraulic oil circulated along the hydraulic line 22 ( 23), the work system 50 controls the working oil pump 30, the hydraulic line 32 for transferring the working oil of the working oil pump 30, and the operating oil of the hydraulic line 32 Including a control valve 33 for operating the work machine. In the hydraulic system of the skid steer loader, Branched from the hydraulic line 32 of the work system 50 is connected to the hydraulic lines 12, 22 of the traveling system 40, the hydraulic oil of the hydraulic line 32 of the work system 50 A bypass line 70 for bypassing the traveling system 40; When the hydraulic fluid flow rate of the traveling system 40 is insufficient and falls below the set pressure, the supplementary valve which opens the bypass line 70 to replenish the traveling system 40 with the hydraulic oil of the bypass line 70. Hydraulic system of the skid steer loader, characterized in that it comprises (80). The method of claim 1, The replenishment valve 80, And a first hydraulic part 82 on one side and a second hydraulic part 86 on the other side, wherein the first hydraulic part 82 is connected to the traveling meter 40 by a pilot signal line 84. The second hydraulic unit 86 is provided with a compression spring 88 that provides a set pressure. When the hydraulic oil pressure of the pilot signal line 84 is smaller than the set pressure of the compression spring 88, Hydraulic system of the skid steer loader, characterized in that it has an internal spool structure for opening the bypass line (70). 3. The method of claim 2, The compression spring 88, the hydraulic system of the skid steer loader, characterized in that the variable to adjust the set pressure.

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