KR101484787B1 - Apparatus for cooling main control valve for construction machinery - Google Patents

Abstract

The present invention relates to a control valve assembly having an electronic proportional control valve of a construction machine, and more particularly to a cooling device for a control valve assembly of a construction machine. A cooling device for a control valve assembly of a construction machine according to the present invention comprises a valve body (1) having a plurality of spools, and a cooling device for a control valve assembly having a plurality of electromagnetic proportional control valves for driving the spool A cooling jacket mounted on the valve body so as to surround at least a part of the electromagnetic proportional control valve and a coolant pipe mounted in contact with the outer circumferential surface of the cooling jacket, And the cooling liquid is supplied to the cooling pipe in such a manner that the electromagnetic proportional control valve can be operated at a temperature at which the electromagnetic proportional control valve can be operated . According to the present invention, a cooling jacket is coupled to a surface of the control valve assembly which is in contact with the outside of the valve, and a groove having the same outer diameter as the cooling liquid pipe is provided in order to increase the contact area with the cooling liquid pipe. To flow through the coolant pipe to reduce the heat generation of the electron proportional control valve. In addition, the constant groove of the cooling jacket not only enhances the cooling efficiency, but also effectively aligns and fixes the cooling liquid pipe, thereby further enhancing the cooling efficiency.

Construction machinery, main control valve, electronic proportional control valve, cooling

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a cooler for a control valve assembly of a construction machine,

The present invention relates to a control valve assembly of a construction machine, and more particularly to a cooling device for a control valve assembly of a construction machine.

The field of electronic control of construction machinery is expected to continue to develop continuously. Especially, in the electronicization, which is an important part in intelligent excavation work, EPPR valve (Electronic Proportional Pressure Reduce (EPPR)) is used to control the movement of the spool inside the MCV (Main Control Valve) A system that controls the position of the spool in proportion to the voltage applied to the valve (hereinafter referred to as the "electron proportional control valve") is a very important factor.

The intelligent or unmanned excavation system means replacing the conventional mechanical NFC system with the electronicization system, and the most important part for the electronicization of the construction machine is the control valve assembly. There is a need for a device that changes the movement of the spool inside the control valve assembly so that it can be controlled by an electronic signal, which is an electron proportional control valve. In the conventional mechanical NFC method, the pressure generated by the joystick is used to move the spool inside the control valve assembly, and the pressure generated by the joystick is transmitted to the spool inside the control valve assembly through the hydraulic hose to move the spool. 1 is a perspective view showing a part of a control valve assembly (main control valve) to which an electronic proportional control valve is attached. Referring to FIG. 1, in order to change the movement of the spool to electronicization, one or more electronically controlled proportional valves are provided to remove the existing control valve assembly and the hydraulic hose line and to operate the spool by electrical signals. The electronic control proportional valve is a device that generates pressure proportional to the voltage applied to the valve. The position of the spool can be controlled according to the magnitude of the voltage applied to the electronic control proportional valve.

However, such control valve assemblies or electronic control proportional electronic devices can be affected by temperature rise in the external environment, heat generated by the operation of the construction machine itself, or heat generated by the operation of the electronic device itself, If the proportional valve is not properly cooled, the temperature of the control valve assembly or the electronic proportional control valve may rise rapidly, leading to a decrease in operating speed, a malfunction, or a failure of the function.

In addition, malfunction of the electronic proportional control valve due to external temperature rise or overheating of the construction machine may have a great influence on the fine control work of the construction equipment.

It is an object of the present invention to provide a control valve assembly of a construction machine capable of effectively discharging heat generated from the outside or inside of a construction machine, And to provide a cooling device for a control valve assembly.

It is another object of the present invention to provide a cooling jacket for a control valve assembly in which a predetermined groove is provided so that a contact area between a cooling liquid pipe through which a cooling liquid such as oil or cooling water flows and a cooling jacket is increased, To the cooling jacket effectively.

Other objects and advantages of the present invention will be apparent from the following detailed description and accompanying drawings.

According to the present invention, the cooling jacket is coupled to the outside of the electronic control proportional valve of the control valve assembly and the same groove as the outer diameter of the cooling liquid pipe is provided to widen the contact area between the cooling jacket and the cooling liquid pipe, By flowing the cooling liquid, it is possible to more effectively reduce the heat generation of the electronically controlled proportional valve.

In addition, the constant groove of the cooling jacket not only increases the cooling efficiency, but also effectively aligns and fixes the cooling liquid pipe, which further improves the cooling efficiency, thereby maintaining optimal performance of the control valve assembly.

According to a first aspect of the present invention, there is provided a cooling device for a control valve assembly (10) having a valve body (12) having a plurality of spools and a plurality of electromagnetic proportional control valves (14) , A cooling jacket (22) mounted on the valve body so as to surround at least a part of the electromagnetic proportional control valve, and a cooling liquid pipe (26) mounted in contact with the outer surface of the cooling jacket, And a cooling liquid pipe (26) is formed on the outer circumferential surface of the cooling jacket so as to correspond to each of the at least one electromagnetic proportional control valve, And the proportional control valve is maintained at an operable temperature.

According to another aspect of the present invention, there is provided an electronic proportional control valve, wherein an air cooling type cooling fin is additionally formed on an outer circumferential surface of the cooling jacket.

In another preferred embodiment of the present invention, the cooling jacket is fixedly coupled to the fixing bracket of the electromagnetic proportional control valve.

According to the present invention, a groove, which is the same as the outer diameter of the coolant pipe, is provided so as to connect the cooling jacket to the contact surface of the outside of the electron proportional control valve and to widen the contact area of the coolant pipe. By flowing the coolant through the coolant pipe, And serves to reduce the heat generation of the proportional control valve. In addition, the constant groove of the cooling jacket not only improves the cooling efficiency, but also enables the alignment and fixing of the cooling liquid pipe to be effected effectively, thereby further enhancing the cooling efficiency.

According to the second aspect of the present invention, when the temperature of the electromagnetic proportional control valve detected by the temperature sensor is higher than a predetermined temperature, the electromagnetic proportional control valve to which the cooling jacket is coupled is further provided with a temperature sensor, And the cooling liquid is supplied to the pipe.

According to the present invention, it is possible to control the cooling liquid to be supplied to the cooling liquid pipe only when the electron proportional control valve is in a deteriorated state, so that the power used in the cooling device can be saved more efficiently.

According to a third aspect of the present invention, a cooling apparatus of the present invention includes: a drain line (400) for guiding operating oil supplied to each working device via a control valve assembly to an oil tank (T) An inlet line (100) connected to the inlet of one of the plurality of cooling jackets and connected to an outlet of the other one of the plurality of cooling jackets, And a discharge line (300) for guiding the oil to the oil tank, wherein the cooling liquid pipes of the plurality of cooling jackets are sequentially connected to each other, and the electromagnetic proportional control valve is cooled by the operating oil.

According to a preferred embodiment of the present invention, an oil cooler 550 is further provided on the drain line of the present invention for cooling hydraulic oil directed to the oil tank, and the inflow line is branched from the downstream of the oil cooler.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings.

2 is a view showing a cooling device mounted on an electronic proportional control valve according to a preferred embodiment of the present invention.

2, the cooling apparatus of the present invention includes a cylindrical cooling jacket 22 attached to a control valve assembly having an electron proportional control valve 20, and a cooling jacket 22 mounted in contact with the outer circumferential surface of the cooling jacket 22 And a coolant pipe (26). The cylindrical cooling jacket 22 may be mounted in contact with the outer circumferential surface corresponding to each of the one or more electron proportional control valves 20. [

A helical groove may be formed on the outer circumferential surface of the cooling jacket 22 so that the coolant pipe 26 is closely attached thereto. The cooling jacket 22 may be attached in close contact with the outer circumferential surface of the electromagnetic proportional control valve 20. A predetermined groove may be formed on the outer circumferential surface of the cooling jacket so that the cooling liquid pipe 26 can be closely contacted. The coolant pipe 26 is a tube having a coolant flow path through which a cooling fluid such as cooling water flows or oil (with an operation unique to the construction machine of the object to be cooled), and is connected to a coolant supply source through an inlet pipe and an outlet pipe. On the other hand, the coolant supply source may be a coolant supply source already used in the construction machine, and it may be provided with a separate coolant supply source for cooling the control valve assembly including the electronic proportional control device of the present invention.

FIG. 3 is a view showing a cooling jacket according to a preferred embodiment of the present invention, and FIG. 4 is a view illustrating a cooling liquid pipe according to a preferred embodiment of the present invention.

3 and 4, the coolant pipe is formed by bending in a cylindrical shape, and the outer diameter of the coolant pipe and the diameter of the helical groove formed on the outer circumferential surface of the cooling jacket are formed to be the same size can do. The cooling liquid pipe can be formed by extrusion molding or the like and can be used after being cut to a required length and then bending into a cylindrical shape. Further, the cooling liquid pipe, the inlet pipe, the outlet pipe, and the like can be formed using a metal or a synthetic resin suitable for the flow path of the cooling liquid such as copper, its alloy aluminum or its alloy. In addition, the cooling liquid pipe and the cooling jacket may be made of a metal material having the same or similar thermal expansion rate so that the shape of the coolant pipe and the shape of the groove of the cooling jacket changes in accordance with the external temperature of the construction machine or the temperature of the construction machine itself. .

In another preferred embodiment of the present invention, the cooling jacket may further include an air cooling type cooling fin on an outer circumferential surface thereof. By forming the air-cooling type cooling fin, the cooling effect using the coolant and the air-cooling type using the air can be used together to enhance the cooling effect.

In another preferred embodiment of the present invention, the cooling jacket is fixedly coupled to the fixing bracket of the electromagnetic proportional control valve. 2, the cooling jacket 22 may be secured to the electromagnetic proportional control valve 20 or the control valve assembly using a cooling jacket coupling bolt 24 or the like.

According to a second aspect of the present invention, a cooling apparatus of the present invention includes: a temperature sensor (52) capable of measuring a current temperature of the electronic proportional control valve; and a temperature sensor And a cooling liquid supply controller 54 for controlling the cooling liquid to flow to the cooling liquid pipe 58 only when the current temperature of the construction machine is equal to or higher than the reference temperature.

According to a preferred embodiment, the temperature sensor of the present invention can be attached to an electronic proportional control valve 50 that is directly affected by a change in temperature. The temperature sensor 52 detects the current temperature of the electron proportional control valve and transmits the detected result to the cooling liquid supply controller 54. [

5 is a block diagram of a cooling apparatus including a temperature sensor according to a preferred embodiment of the present invention.

5, the coolant supply controller 54 is connected to a coolant supply source 56 for providing a coolant to the coolant pipe 58 and to a temperature sensor 52. [ The coolant supply controller 54 may store a reference temperature at which the range of the temperature at which the electron proportional control valve 50 is operable is measured in advance so that the electron proportional control valve 50 may malfunction due to heat. The coolant supply controller 54 compares the present temperature of the electron proportional control valve 50 received from the temperature sensor 52 with a previously stored reference temperature so that the current temperature of the electronic proportional control valve 50 is lower than the reference temperature A signal for requesting the cooling liquid supply source 56 to stop the supply of the cooling liquid to the cooling liquid pipe 58 is transmitted while the cooling liquid is being supplied to maintain the state in which the cooling liquid is not supplied when the cooling liquid is not supplied . On the other hand, when the current temperature of the electromagnetic proportional control valve 50 transmitted from the temperature sensor 52 is higher than the previously stored reference temperature, the cooling liquid supply controller 54 requests the cooling liquid supply source to supply the cooling liquid to the cooling liquid pipe 58 Lt; / RTI >

According to this configuration, it is possible to control the supply of the coolant to the coolant pipe only when the control valve assembly provided with the electronic proportional control valve is in a deteriorated state, so that the power used in the cooler can be saved more efficiently .

According to a preferred embodiment of the present invention, when the cooling liquid supply controller determines that the current temperature of the electronic proportioning control valve is higher than the reference temperature stored in advance, the cooling device of the present invention warns the deterioration state of the electronic proportional control valve toward the user And a warning unit for performing a warning. When the coolant supply controller determines that the current temperature of the electronic proportional control valve is higher than the reference temperature, the coolant supply controller can transmit a signal requesting the start of the coolant supply to the coolant supply source. In addition, By recognizing the condition, the user can additionally ask for temporary measures such as a construction machine interruption.

Hereinafter, a coolant supply source according to a preferred embodiment of the present invention will be described.

According to a third aspect of the present invention, a cooling device for a control valve assembly according to the present invention comprises a drain line (400) for guiding operating oil supplied to each working device via a control valve assembly to an oil tank (T) (100) branched off from a drain line and connected to an inlet of one of the plurality of cooling jackets, and an outlet line connected to an outlet of the other one of the plurality of cooling jackets, And a discharge line (300) for guiding the operating fluid to the oil tank, wherein the cooling fluid pipes of the plurality of cooling jackets are sequentially connected to each other, and the electromagnetic proportional control valve is cooled by the operating oil .

According to a preferred embodiment of the present invention, an oil cooler 550 is further provided on the drain line of the present invention for cooling hydraulic oil directed to the oil tank, and the inflow line is branched from the downstream of the oil cooler.

6 is a view showing a configuration of a coolant supply source according to a preferred embodiment of the present invention.

6, in the cooling device of the construction machine according to the present invention, the control valve assembly 600 having the electromagnetic proportional control valve can be cooled by using the hydraulic fluid to be drained as a cooling liquid.

6, the coolant supply source 500 includes an oil cooler 550 for cooling the operating oil. The first oil passage 100 is connected to the oil cooler 550 and the tank T And branches from the connecting channel 440 (lower drain channel). Therefore, the cooling fluid flowing through the first flow path 100 is hydraulic oil cooled by the oil cooler 550.

A drain drain line 440 having an oil cooler 550 is provided between the drain line 400 and the tank T and a drain line 430 opposite the oil cooler 550 ) And the tank T may be provided with a check valve 610 for opening the flow path when the pressure of the flow path is equal to or higher than the reference pressure. A check valve 620 may also be provided on the drain line 400 connected to the hydraulic line of the operating part (between the joint point with the hydraulic lines 420 and 430 and the drain line).

The check valve 610 is a pressure control check valve that is opened at a pressure equal to or higher than a reference pressure. When the pressure of the hydraulic fluid drained here is lower than the reference pressure, all of the hydraulic fluid drained due to the non-opening of the check valve 610 will be cooled through the oil cooler 550. However, A portion of the hydraulic fluid to be drained and opened by the check valve 610 will be bypassed through the open check valve 610. [ The check valve 610 is provided to overheat the oil cooler 550 when the hydraulic fluid drained from the oil cooler 550 is overdischarged as in the prior art, .

6, a flow path 440 between a branch point at which the first flow path 100 is branched and the tank T 440 (lower drain) is formed so as to smoothly supply operating fluid, which is a cooling fluid, A check valve 630 for opening the flow path 440 is provided. As a result, when the pressure of the oil passage 440 (lower drain passage) between the branch point and the tank T is equal to or less than the predetermined pressure, the check valve 630 is not opened, The flow rate of the operating fluid supplied to the first flow path 100 can be ensured. On the other hand, when the pressure of the oil passage 440 (lower drain passage) between the branch point and the tank T exceeds the predetermined pressure, the check valve 630 is opened so that a part of the operating oil flows through the check valve 630 So that the hydraulic oil is prevented from being supplied to the first oil passage 100 at an excessively higher pressure than necessary.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention. In other words, the present invention can be modified within the scope of the appended claims, and therefore should not be construed as being limited to the above-described exemplary embodiments.

1 is a perspective view showing a part of a control valve assembly (main control valve) to which an electronic proportional control valve is attached,

Figure 2 shows a cooling device mounted on an electronic proportional control valve according to a preferred embodiment of the present invention,

3 shows a cooling jacket according to a preferred embodiment of the present invention,

4 is a view showing a coolant pipe according to a preferred embodiment of the present invention,

5 is a block diagram of a cooling apparatus including a temperature sensor according to a preferred embodiment of the present invention;

6 is a view showing a configuration of a coolant supply source according to a preferred embodiment of the present invention.

Claims (5)

delete delete delete 1. A cooling device for a control valve assembly (10) comprising a valve body (12) having a plurality of spools and a plurality of electromagnetic proportional control valves (14) for driving the spools, A cooling jacket (22) mounted on the valve body so as to surround at least a part of the electromagnetic proportional control valve, and a coolant pipe (26) mounted in contact with the outer surface of the cooling jacket, Lt; / RTI > The cooling jacket 22 is installed corresponding to each of the one or more electron proportional control valves, A helical groove is formed on the outer circumferential surface of the cooling jacket so that the cooling liquid pipe (26) The electronic proportional control valve is maintained at an operable temperature by the cooling liquid supplied to the cooling pipe, A drain line (400) for guiding the operating oil supplied to each working device to the oil tank via the control valve assembly; An inlet line (100) branched from the drain line and connected to an inlet of one of the plurality of cooling jackets; A discharge line (300) connected to an outlet of the other one of the plurality of cooling jackets to guide the hydraulic fluid discharged from the coolant pipe to the oil tank, Further comprising: Wherein the cooling fluid pipes of the plurality of cooling jackets are sequentially connected to each other so that the electromagnetic proportional control valve is cooled by the operating oil. 5. The method of claim 4, An oil cooler 550 is installed on the drain line for cooling hydraulic oil flowing toward the oil tank, Wherein the inlet line (100) branches off from the downstream of the oil cooler (550).

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