JP5325717B2 - Hydraulic device - Google Patents

Description

  The present invention relates to a hydraulic device used in a machine tool or the like, and more particularly to a hydraulic device in which a liquid tank is connected to a dynaclean via a pipe.

  BACKGROUND ART A hydraulic device, for example, a hydraulic unit is provided with an oil tank that supplies hydraulic oil to an actuator or stores hydraulic oil returned from the actuator. The oil tank is hermetically sealed to prevent contamination and oxidation of the hydraulic oil, and its upper part is connected to a dynaclean via a pipe. This dynaclean stabilizes the pressure in the sealed oil tank, and includes a bladder (elastic bag) that expands and contracts in response to a change in pressure in the oil tank.

  In the conventional example, when the hydraulic oil contains a lot of moisture, the moisture is easily vaporized, and the vaporized moisture is condensed and stays in the pipe. Therefore, rust is generated inside the pipe, and when the water containing the rust flows into the oil tank, the contamination of the hydraulic oil is promoted.

  In view of the above circumstances, an object of the present invention is to prevent water containing rust from flowing into a liquid tank.

The present invention relates to a hydraulic apparatus in which a hydraulic circuit is connected to a sealed liquid tank, and the liquid tank is connected to Dynaclean via a pipe, wherein the Dynaclean is configured to control the pressure in the sealed liquid tank. Condensation flow regulation for preventing condensation from flowing into the liquid tank is provided, which is provided with an elastic bag that expands and contracts in response to a change in pressure in the liquid tank. Means are provided , and the dew flow control means is formed by making the liquid tank side of the pipe higher than the dynaclean side .

  According to the present invention, since the dew flow control means is provided in the pipe, water (condensation) containing rust generated in the pipe does not flow into the liquid tank. Therefore, it is possible to prevent the liquid in the liquid tank from being oxidized or contaminated.

It is a front view which shows 1st Embodiment of this invention. It is a front view which shows 2nd Embodiment of this invention. It is a principal part expanded sectional view of piping. It is a principal part expanded sectional view which shows 3rd Embodiment of this invention.

A first embodiment of the present invention will be described with reference to FIG.
A hydraulic device for driving the actuator 1, for example, a hydraulic device A, is connected to a hydraulic circuit L, a liquid tank 2 in a sealed state, and a Dynaclean 10 connected to the liquid tank 2 via a pipe 4. And. A hydraulic oil 8 is stored in the liquid tank 2, and the upper portion of the tank 4 is sealed by a closing member 9. A vertical first connection end 4a located at one end of the pipe 4 is connected to the upper side of the liquid tank 2, and a vertical second connection end 4b located at the other end of the pipe 4 is It is connected to the bladder 12 of the Dynaclean 10.

  The inclined pipe portion 4c that connects the connecting end portions 4a and 4b is higher on the liquid tank 2 side than the Dynaclean 10 side, and its center line 4w is at an angle with respect to the horizontal line 14 (parallel to the floor surface). θ is inclined. The inclination angle is appropriately selected as necessary, and for example, an angle θ = 10 ° is adopted.

  In FIG. 1, 16 is disposed in the hydraulic circuit L and pumps up the hydraulic oil 8 in the liquid tank 2, 17 is an accumulator disposed in the hydraulic circuit L, and 19 is disposed in the hydraulic circuit L. The provided safety valve, 18 is a filter, 20 is a selector valve, 21 is a check valve, 22 is a drain valve of the bladder 21, and 23 is a selector switch.

The operation of this embodiment will be described.
The hydraulic unit A pumps the hydraulic oil 8 in the liquid tank 2 into the hydraulic circuit (hydraulic circuit) L by driving the pump 16, and returns the hydraulic oil 8 in the hydraulic circuit L to the liquid tank 2. In other words, the actuator 1 is driven. For this reason, the hot water-containing hydraulic oil 8 enters the liquid tank 2, so that the pressure in the liquid tank 2 rises and moisture vaporizes and adheres to the inner surface of the pipe 4 to cause condensation 26.

  When the pressure in the liquid tank 2 rises, the air 25 in the liquid tank 2 flows into the Dynaclean 10 through the pipe 4. Then, the bladder 12 expands and accumulates the air 25. Condensation 26 in the pipe 4 falls and accumulates on the lower inner surface 4d of the pipe 4. Since the inner surface 4d is inclined, the dew condensation 26 falls into the bladder 12 of the Dynaclean 10 and is accommodated. Is done. Therefore, water containing rust (condensation) does not enter the liquid tank 2, so that contamination of the hydraulic oil 8 can be prevented.

  In addition, you may make it cool the piping 4 with a cooling means, for example, the cooling medium wound around the piping 4. FIG. When cooled in this way, the water vaporized in the liquid tank 2 is immediately cooled and liquefied in the pipe 4 and flows into the DYNACLEAN 10, so that the generation of rust in the pipe 4 can be suppressed.

A second embodiment of the present invention will be described with reference to FIGS.
The difference between this embodiment and the first embodiment is that instead of providing the pipe 4 with the inclined pipe portion 4c, a horizontal pipe portion 4h is provided, and a drain port 30 is provided on the lower side of the horizontal pipe portion 4h. This is because the lower inclined inner surface 4f of the horizontal pipe portion 4h is inclined downward toward the discharge port 30.

  In this embodiment, when the pressure in the liquid tank 2 increases, the air 25 passes through the piping 4 and accumulates in the DYNACLEAN 10, but condensation (water) 26 falls on the lower inclined inner surface 4f, It flows into the outlet 30 while being guided by the lower inclined inner surface 4f. The water 26 in the discharge port 30 is discharged outside by opening the valve 31. Therefore, water containing rust (condensation) does not enter the liquid tank 2, so that contamination of the hydraulic oil 8 can be prevented.

A third embodiment of the present invention will be described with reference to FIG.
The difference between this embodiment and the second embodiment is that instead of inclining the lower inclined inner surface 4f of the horizontal pipe portion 4h downward toward the discharge port 30, the lower inclined inner surface is not inclined. The inclined surface 35 is formed on the horizontal surface 4e and inclined downward toward the discharge port 30 on the horizontal surface 4e.

  In this embodiment, as in the second embodiment, when the pressure in the liquid tank 2 becomes high, the air 25 passes through the pipe 4 and enters the Dynaclean 10, but the condensation (water) 26 is in the lower part. It falls on the side inner surface 4e and flows into the discharge port 30 while being guided by the inclined groove 35. Therefore, water containing rust (condensation) does not enter the liquid tank 2, so that contamination of the hydraulic oil 8 can be prevented.

  In the above-described embodiment, the hydraulic device using hydraulic oil as the hydraulic device has been described. However, it is needless to say that a hydraulic device using other liquid, for example, water, can be used instead of the hydraulic device. .

DESCRIPTION OF SYMBOLS 1 Actuator 2 Liquid tank 4 Piping 8 Hydraulic oil 10 Dynaclean 25 Air 26 Condensation A Hydraulic device L Hydraulic circuit

Claims (1)

In the hydraulic device in which the hydraulic circuit is connected to a sealed liquid tank, and the liquid tank is connected to a dynaclean via a pipe,
The dynaclean stabilizes the pressure in the sealed liquid tank, and includes an elastic bag that expands and contracts in response to a change in the pressure in the liquid tank.
Wherein the piping, condensation is provided with condensation flows down regulating means for preventing the flow into the liquid tank,
The dew flow control means is formed by making the liquid tank side of the piping higher than the dynaclean side .