KR100973122B1 - Hydraulic feed device - Google Patents

Abstract

The present invention relates to a portable hydraulic pressure supply device, and more particularly, a hydraulic pressure supply device for easily operating a drive device such as a cylinder, a press, an engine, etc. in a manufacturing process of a ship, a mechanical device, etc. is made of a compact structure In order to facilitate storage, the present invention, the case 10 to open and close the inner storage space with the cover (12, 12a); A hydraulic pump 30 for generating a hydraulic pressure by sucking the fluid F through the suction line 32 which is placed in the case 10 and extends to the outside; A pressure control valve (34) for controlling the pressure of the hydraulic or circulating fluid supplied from the hydraulic pump (30); A direction control valve 40 connected to the pressure control valve 34 for changing a direction in which the fluid F flows; From the directional control valve 40 is proposed a portable hydraulic supply device consisting of a supply line 44 and a recovery line 46 to connect the external drive device to operate.

Case, hydraulic pump, pressure control valve, directional control valve, supply line.

Description

Portable hydraulic feed device

The present invention relates to a portable hydraulic supply device, and more particularly, hydraulic supply for easily operating a driving device (hereinafter, referred to as a 'drive device') of a cylinder, a press, an engine, etc. in a manufacturing process of a ship or a mechanical device. The present invention relates to a portable hydraulic supply device which is made of a compact structure to facilitate movement and storage.

In general, when manufacturing an operation device (hereinafter, referred to as a 'cylinder') of a ship, an engine, a press, a cylinder, and the like, the device is partially operated while the power source is not connected in the process of machining, assembling, and intermediate inspection of each part. There is a need to do it.

For example, in the case of the cylinder being manufactured, in order to operate the piston rod inside the cylinder without the hydraulic line is connected, an operating force corresponding to the capacity of the cylinder is required. Of course, the higher the rated capacity of the cylinder, the more difficult it is to operate the cylinder.

As described above, in order to operate the cylinder in the related art, a worker uses a hammer, hammer, jockey, lever, etc. to apply a heavy impact force to the piston rod or excessively operate, resulting in damage to the device. There is an urgent need to protect workers from industrial accidents due to the increase in the incidence of safety accidents such as increased fatigue and risk of workers due to excessive work, and the development of industrial technology.

In addition, in order to supply various fluids, that is, hydraulic oil, lubricating oil, fuel, water and the like (hereinafter, referred to as 'fluid', F) to the above-mentioned machinery such as ships, engines, presses, cylinders, and the like, It was made available to supply.

However, it is inconvenient to extend the supply line from the hydraulic supply device installed at a long distance, and inconvenient to use in a wide range of complex workplaces, as well as a delay in the working time and the congestion has a disadvantage. Or, there is a problem in that workability and work efficiency are deteriorated, such as the hassle of transporting the cylinder to the vicinity where the hydraulic supply device is installed and moving the cylinder back to its original working position.

In addition, as described above, there is a problem in that the cylinder is damaged or damaged due to collision with the surrounding structure in the process of carrying the cylinder, and the quality of the product is reduced by lowering the precision of the product.

In order to solve the above problems, the present invention, the case 10 is to be opened and closed by the cover 12, 12a of the inner storage space partitioned by the diaphragm 11; A hydraulic pump 30 for generating a hydraulic pressure by sucking the fluid F through the suction line 32 which is placed inside the case 10 and extends to the outside; A pressure control valve (34) for controlling the pressure of the hydraulic or circulating fluid supplied from the hydraulic pump (30); A direction control valve 40 connected to the pressure control valve 34 for changing a direction in which the fluid F flows; A supply line 44 and a recovery line 46 connecting the external control device to operate from the direction control valve 40; By storing the fluid (F) recovered through the circulation line 48 connected to the directional control valve 40 and resupply to the pressure control valve 34, the auxiliary to prevent the overload of the hydraulic pump 30 It is to propose a portable hydraulic supply device characterized in that consisting of a container (50).

The portable hydraulic pressure supply device of the present invention having the features as described above has the advantage of being able to move easily at the work site as well as a compact portable configuration, stably easy to install, and stably supply constant hydraulic pressure. Of course, the cylinder can also be operated simply and smoothly to provide a variety of convenience.
In addition, the present invention is accompanied by the effect of significantly reducing the working time through the flow rate measuring device, the work efficiency and workability significantly improved, and the productivity can be improved.
When the flow measuring device is not used, the present invention can arrange the lines (hoses) inside the case and arrange them, and has an advantage of extending the life by preventing damage and failure of the device.

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The portable hydraulic pressure supply device of the present invention includes a case 10 in which an inner storage space is opened and closed by an outer cover 12 and 12a, a hydraulic pump 30 placed inside the case 10, and the hydraulic pump ( 30, a pressure control valve 34 provided on one side, a directional control valve 40 connected to the pressure control valve 34, a supply line 44 and a recovery line 46 for connecting to an external operating device. ), And an auxiliary container 50 for preventing the overload of the hydraulic pump, the control unit 52 and the like.
Referring to the portable hydraulic supply apparatus of the present invention in more detail with reference to the accompanying drawings as follows.
First, Figure 1 is a front view showing a partially cut portable hydraulic supply apparatus according to a preferred embodiment of the present invention, Figure 2 is a plan view of a portable hydraulic supply apparatus according to the present invention.
The inside of the case 10 partitions the internal storage space by installing diaphragms 11 on both sides, and the hydraulic pump 30 is placed in the middle of the storage spaces, and the suction line 32 on both sides. Or supply line 44, recovery line 46, etc. to be stored separately to be stored.
The case 10 is coupled to the upper plate 13 in the upper middle portion and is opened to both sides of the upper plate and sealed with an upper cover 12a, and the upper cover 12a is the upper plate 13 and the hinge 14 The upper cover 12a from the case is fixed so as not to be opened arbitrarily by installing the clamp 15 on the outside.
The front side of the case 10 is also opened to facilitate maintenance of the internal motor, and covered with a front cover 12 to be detachably coupled as the fastener 16, and the fastener 16 is bolted and It is preferable to assemble easily with a nut or a butterfly nut.
The case 10 is equipped with at least one handle 18 to facilitate the transport of the hydraulic supply device.
The hydraulic pump 30 is connected to the suction line 32 on the suction port side, the discharge line 36 is connected to the discharge port side, the pressure control valve 34 to supply the hydraulic pressure to the discharge port shaft.
The pressure control valve 34 controls the discharge pressure of the hydraulic pump and the pressure of the fluid circulated so that the hydraulic pressure is supplied at an appropriate pressure.
The discharge line 36 is connected to the direction control valve 40 installed on the upper plate 13, the supply line 44 and the recovery line 46 is connected to the other side of the direction control valve 40.
The direction control valve 40 controls the flow of the fluid supplied or recovered to the cylinder, which can change the direction in which the supply line 44 or the recovery line 46 flows in accordance with the operation of the upper lever 41 When the lever 41 is located in the middle, the hydraulic pressure is idle (neutral).
The circulation line 48 at the lower side of the directional control valve 40 is connected to the hydraulic pump 30 to circulate the fluid, and the circulation line 48 is provided with an auxiliary container 50. By temporarily storing (F) the hydraulic pump 30 to prevent overload during operation.
One side of the directional control valve 40 is equipped with a measuring instrument 55 to measure the pressure or flow rate, temperature, etc. of the hydraulic pressure supplied to double the safety.
The lines 32, 44, and 46 are preferably made of a hydraulic hose, and end portions thereof are equipped with connectors 33 and 33a to facilitate connection of pipes, and the connectors are composed of unions, nipples, valves, and the like. . In addition, the recovery line 46 is equipped with a check valve (43).
In order to use the portable hydraulic pressure supply device of the present invention configured as described above, the operator lifts the case 10 and conveniently transports it near the operating device, and then opens the upper cover 12a to open the lines 32, 44, and 46. Pull it out of the case as necessary and connect the power.
Subsequently, the suction line 32 is connected to a separate fluid supply line through the connector 33 or is introduced into a storage container containing the fluid so that the fluid is sucked in, and the supply line 44 or the recovery line ( 46 is connected to the inlet and outlet of the fluid for the operation of the cylinder, respectively.
Next, when the hydraulic pump 30 is operated, the fluid F is sucked through the suction line 32, and the hydraulic pressure is supplied to the pressure regulating valve 34. Then, after passing through the directional control valve 40, Supplying hydraulic pressure through the supply line 44 allows the cylinder to operate.
Thereafter, after operating the cylinder, the fluid F is recycled back to the hydraulic pump 30 through the direction control valve 40 and the circulation line 48 through the recovery line 46.
In this case, the direction control valve 40 rotates the lever 41 in the clockwise or counterclockwise direction as shown in FIG. 2 to reverse the direction of the supply line 44 or the recovery line 46 through which the fluid flows. If the lever 41 is located in the middle, the recovery line 46 and the supply line 44 are in direct communication with each other and the piston is stopped and the discharge line 36 is circulated. Directly in line with the line 48, the hydraulic pressure is idle.
Here, the pressure control valve 34 corrects the difference between the hydraulic pressure of the hydraulic pump 30 and the hydraulic pressure recovered from the circulation line 48 so that the hydraulic pressure is supplied at an appropriate pressure.
In addition, the fluid F circulated to the pressure control valve 34 through the recovery line 46 is received in the auxiliary container 50 and then supplied to the hydraulic pump 30, which is the hydraulic pump 30. It prevents the overload occurring in the pump and prevents damage to the hydraulic pump and ensures that the fluid is circulated smoothly.
As described above, after using the hydraulic supply device of the present invention, the lines 32, 44, and 46 are arranged and stored in the storage space of the case 10. Of course, after the power line is also arranged in the interior, the upper cover 12a can be closed and safely stored.

1 is a front view partially showing the portable hydraulic pressure supply device according to a preferred embodiment of the present invention.

2 is a plan view of a portable hydraulic pressure supply device according to the invention.

Claims (2)

A case 10 configured to open and close the inner storage space partitioned by the diaphragm 11 by the outer covers 12 and 12a; A hydraulic pump 30 for generating a hydraulic pressure by sucking the fluid F through the suction line 32 which is placed inside the case 10 and extends to the outside; A pressure control valve (34) for controlling the pressure of the hydraulic or circulating fluid supplied from the hydraulic pump (30); A direction control valve 40 connected to the pressure control valve 34 for changing a direction in which the fluid F flows; A supply line 44 and a recovery line 46 connecting the external control device to operate from the direction control valve 40; By storing the fluid (F) recovered through the circulation line 48 connected to the directional control valve 40 and resupply to the pressure control valve 34, the auxiliary to prevent the overload of the hydraulic pump 30 Portable hydraulic supply device, characterized in that consisting of a container (50). The method of claim 1, Portable hydraulic supply device, characterized in that the upper cover (12a) is provided with a stopper (15).

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