KR102199681B1 - Hydraulic cylinder filter of engine - Google Patents

Abstract

The present invention relates to a filter of a hydraulic cylinder for propulsion, which can remove various dangerous devices that can impair the lifespan of a hydraulic transport device for actual propulsion of a propulsion device (waterjet or the like) from the hydraulic transport device. The filter comprises: a frame part (100) having coupling shafts (101) provided at one upper end thereof and one lower end corresponding thereto; couplings (200) coupled to the coupling shafts (101) of the frame part (100); a filter coupling shaft (102) provided at an upper end of the frame unit (100); and a filter unit (300) coupled by the filter coupling shaft (102). The filter unit (300) is divided into a filter rod (310) for forming magnetic force and a filter handle (320) provided with a wrench recess (329) formed at an upper end thereof and fixing and coupling the filter rod (310). Therefore, quick replacement of the filter enables maintenance and repair at a fast speed, and the filter can be used in waterjet propulsion devices of various sizes and can prevent a decrease in the torque of the hydraulic cylinder.

Description

Filter of hydraulic cylinder for propulsion {Hydraulic cylinder filter of engine}

The present invention relates to a filter capable of removing various dangerous devices that may impair the life of the device in a hydraulic transport device for actual propulsion of a propulsion device (water jet, etc.), and more specifically, a metallic material using a permanent magnet. It relates to a hydraulic cylinder filter capable of preventing internal damage to an operating cylinder of a water jet by filtering out foreign matter.

Although the propulsion device using a hydraulic cylinder is complex, it is possible to obtain a high propulsion force and to easily perform a turning, and thus, a hydraulic cylinder used for a water jet is being operated in various ships recently built.

In particular, the South Korean Navy has also adopted a water jet propulsion method for the recently commissioned Yun Young Sub-class guided missile high-speed ship (PKG), and small military ships to be built in the future are also trying to adopt a water jet propulsion method.

The propulsion method of the propulsion device for a hydraulic cylinder is a method of rotating a hydraulic gear using a hydraulic cylinder and pushing seawater or fresh water at a high speed with the torque of the rotating gear, and the cylinder requires a lot of movement. Because of this, the device quickly deteriorates.

The cause of this problem is that smooth filtering is not performed due to the inherent problem of the hydraulic cylinder, which is filtered only by two filters of the hydraulic supply shaft line filter and return filter when a foreign matter in the hydraulic circuit occurs. There is a problem in that the ultra-small particles having a metallic diameter of 10 to 20 um or less condensate in the cylinder or cause fine cracks in the cylinder by themselves and wear the waterjet thruster at a high speed.

Therefore, in order to solve this problem of the hydraulic cylinder, attempts have been made to solve the problem by using a permanent magnet, and in particular, reference is made to the structure of removing foreign substances in the hydraulic control circuit published as Japanese Laid-Open Patent Publication No. 2019-023481.

This document is installed between the hydraulic control circuit and the oil pump that discharges oil into the pipe and the pipe, and the piezoelectric element generates power by placing a piezoelectric element generated by the pulsation of the oil flowing through the pipe. It is described as including an electromagnet that generates an electromagnetic force by converting the magnetic force to magnetic force, and the electromagnet is described as allowing materials that have magnetism or can be attracted in the oil flowing through the pipe to be filtered through the electromagnet.

On the other hand, the device for removing metallic foreign matter from hydraulic cylinder hydraulic oil, published as Korean Public Utility Publication No. 20-1998-0018801, also has the same problem and solution, and describes a device for removing metallic foreign matter from hydraulic cylinder hydraulic oil used in various machinery. Are doing.

This document includes at least a means for removing metallic foreign matter provided on the piston and the gland so that the metallic foreign material remaining in the copper oil does not act as an abrasive in the perturbation portion corresponding between the outer peripheral surface of the piston and the tube, and between the outer peripheral surface of the rod and the inner diameter of the gland. , It is described that it prevents abrasion of perturbations such as rods and tubes by inducing metallic foreign substances remaining in the hydraulic oil to the magnetic body.

In this way, the hydraulic cylinder can be used in a state in which a considerable amount of foreign matter has been removed through magnetic pulling of metallic substances, and maintenance and maintenance periods can be extended longer. In order to apply the propulsion device of the transport means to be carried out, maintenance and maintenance must be performed at a high speed, and there has been a problem to be advantageous in supply by allowing it to be applied and used in various standards.

1. Japanese Laid-Open Patent Publication No. 2019-023481. 2. Republic of Korea Public Utility Publication No. 20-1998-0018801. 3. Chinese Published Patent Publication No. CN102678685A.

The configuration of the present invention and its operation and embodiments are intended to solve the above-described problems through the following means.

1. Through quick replacement and replacement of the filter, maintenance and repair can be performed at a fast speed.

2. It makes it possible to use water jet propulsion devices of various specifications and does not cause a decrease in the torque of the hydraulic cylinder.

3. It is intended to obtain a filter of a hydraulic cylinder for propulsion, which enables easy maintenance and filter replacement by maintaining filtering at all times even when the hydraulic cylinder is not in use.

The configuration of the present invention for solving the above-described problems is a frame portion 100 provided with a coupling coupling shaft 101, respectively, at one lower end corresponding to one upper end as shown in FIG. 1, and the frame portion The coupling 200 coupled to the coupling coupling shaft 101 of 100), the filter coupling shaft 102 provided on the upper end of the frame portion 100, and coupled by the filter coupling shaft 102 A filter of a hydraulic cylinder for propulsion provided with a filter unit 300 is configured, and the filter unit 300 attracts metallic foreign substances by a permanent magnet so that the fluid flowing inside the frame unit 100 flows into the hydraulic cylinder Filtering can be performed when entering S).

The filter unit 300 is provided with a filter rod 310 forming a magnetic force to attract foreign substances, and a wrenching groove 329 at the top to be coupled to or removed from the filter coupling shaft 102 of the frame unit 100 On the other hand, the filter rod 310 is divided into a filter handle 320 that can be fixedly coupled and used.

As shown in Fig. 6, the filter rod 310 can be separated from the filter handle 320, and the filter handle 320 is coupled with the filter rod 310 as shown in Fig. 6A to enable simple coupling. In the coupling surface of the coupling magnet 325 may be inserted. It is possible to easily separate or combine the filter rod 310 through the coupling magnet 325, and users can quickly exchange and use the filter rod 310, as well as embossing due to the characteristics of the filter rod 310 It has a feature that can reduce maintenance time and cost as much as possible because it can easily wipe away lumps of foreign matter that have been filtered out with a towel.

On the other hand, the hydraulic cylinder (S) in which various usage standards exist should be able to flow in a fluid so as to match the allowable diameter that the hydraulic cylinder (S) can use, and the coupling 200 is shown in FIG. 5A. In order to be able to implement the embodiment as described above, the present invention faces the present invention by allowing the oil injection unit 201 to be provided on the inner circumferential surface in order to prevent inconvenience in fluid inflow due to displacement of the diameter so as to perform such a role. Make it possible to solve the task.

Through the above configuration and its operation and embodiments, the present invention can obtain the following effects.

1. Fast replacement and replacement of the filter enables quick maintenance and repair,

2. It can be used in water jet propulsion devices of various specifications, and torque of hydraulic cylinder does not decrease.

3. Easy maintenance and filter replacement are possible by maintaining the filtering at all times even when the hydraulic cylinder is not used.

1 is a perspective view showing a preferred coupling relationship of components according to the present invention in a preferred embodiment of the present invention.
FIG. 2 is an exploded view showing the frame part 100 in a semi-transparent state after disassembling the filter part 300 and the coupling 200 from the frame part 100 in a preferred embodiment of the present invention.
3 is a partially enlarged exploded view showing an exploded shape of the filter part 300 from the frame part 100 in a preferred embodiment of the present invention.
4 is a partially enlarged view showing in more detail the shape of the coupling 200 coupled to the frame portion 100 in a preferred embodiment of the present invention.
5 is an exemplary view showing a shape in which the frame portion 100 is coupled to a hydraulic cylinder S through a coupling 200 in a preferred embodiment of the present invention.
5A is a partial cross-sectional view showing in detail the coupling relationship between the injection port of the hydraulic cylinder S and the oil injection unit 201 of the coupling 200 in a preferred embodiment of the present invention.
6 is a partial exploded view showing a shape in which the filter rod 310 is separated from the filter handle 320 in a preferred embodiment of the present invention.
6A is a cross-sectional view of a filter unit 300 showing that the filter rod 310 is in a permanent magnet state in a preferred embodiment of the present invention.
6B is a cross-sectional view illustrating the filter unit 300 in a state in which the filter rod 310 to which the molecular sieve layer 312 is applied is coupled to the filter handle 320 in a preferred embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The terms and meanings used are terms selected in consideration of functions, functions, and configurations in the embodiments with reference to the drawings, and interpretation may vary according to intentions or precedents of users and practitioners. If it is specifically defined in the present specification, it follows the definition, but if there is no specific definition, it should be interpreted as a meaning commonly used by those skilled in the art, and some symbols in the drawings explaining an embodiment of the present invention and the configuration and action combination Although may be omitted, it is possible to interpret the location of the parts and the like within the scope of the present invention based on the configuration and operation examples described below in order to achieve the present invention.

The configuration for solving the present problem of the present invention is a frame portion 100 provided with a coupling coupling shaft 101, respectively, at one lower end corresponding to an upper end of one side as shown in FIG. 1, and the frame portion 100 A filter coupled by a coupling 200 coupled to the coupling coupling shaft 101 of ), a filter coupling shaft 102 provided at the upper end of the frame portion 100, and the filter coupling shaft 102 A filter of the hydraulic cylinder for propulsion provided with the part 300 is configured, and the filter part 300 attracts metallic foreign substances by a permanent magnet so that the fluid flowing inside the frame part 100 flows into the hydraulic cylinder (S ) To allow filtering to be performed.

On the other hand, as shown in FIG. 2, the coupling means such as screws may be additionally provided on the coupling coupling shaft 101 so that the coupling 200 can be removed from the frame part 100, The filter unit 300 is inserted into the filter coupling shaft 102 provided at the upper end of the frame unit 100 and then coupled.

3 is a partial enlarged view showing a detailed shape of the filter unit 300 coupled to the filter coupling shaft 102.

The filter unit 300 is provided with a filter rod 310 forming a magnetic force to attract foreign substances, and a wrenching groove 329 at the top to be coupled to or removed from the filter coupling shaft 102 of the frame unit 100 On the other hand, the filter rod 310 is divided into a filter handle 320 that can be fixedly coupled and used.

On the other hand, it is a preferred embodiment to further include a plurality of foldable rotation levers 321 at one end of the filter handle 320 to help users for the purpose of rapid maintenance.

As shown in Fig. 6, the filter rod 310 can be separated from the filter handle 320, and the filter handle 320 is coupled with the filter rod 310 as shown in Fig. 6A to enable simple coupling. In the coupling surface of the coupling magnet 325 may be inserted. On the other hand, a plurality of foreign matter discharge holes 323 in the coupling surface of the filter handle 320 and the filter rod 310 in enabling simple separation or coupling of the filter rod 310 through the coupling magnet 325 When the filter rod 310 is inserted into the coupling magnet 325 of the filter handle 320 by allowing this to be further provided, foreign matters entering or trapped in the coupling portion can be easily discharged.

In the above configuration, users can quickly exchange and use the filter rod 310, and due to the characteristics of the filter rod 310, it is possible to remove foreign matter lumps that have been easily filtered with embossing or towels, so maintenance time It has a feature that can minimize the cost and cost.

On the other hand, FIG. 6A shows a filter rod 310 capable of filtering only metallic foreign substances by magnetic force, and the filter rod 310 may be used in a state of a permanent magnet as shown in FIG. 6A. , As shown in FIG. 6B, a molecular sieve layer 312 may be applied to the outer peripheral surface of the filter rod 310.

The molecular sieve layer 312 is characterized in that it is made of an inorganic compound having fine pores such as a zeolite-based molecular sieve (ZMS) or an illumina-based ceramic, and in addition to foreign substances having a metallic component, the frame portion 100 ) Fine particles of non-metallic and non-ferrous components that may occur when the fluid circulates within) can be additionally filtered, or fine foreign substances that are less than 10 um to 20 um can be filtered.

4 is a partially enlarged view showing a detailed shape of the coupling 200 coupled to the coupling coupling shaft 101.

The hydraulic cylinder (S) having various usage standards must be able to flow in a fluid to match the allowable diameter that the hydraulic cylinder (S) can use, and the coupling 200 is implemented as shown in FIG. 5A. In order to be able to implement the example, an oil injection unit 201 is provided on the inner circumferential surface to prevent inconvenience in fluid inflow due to displacement of the diameter so as to perform such a role.

The oil injection unit 201 may be provided in a simple through-hole shape, but it is possible to additionally insert an o-ring, etc. to block leakage, and the coupling 200 is a relatively simple shape and is a poor facility. Since it can be manufactured quickly, it can be easily provided without being limited by the hydraulic cylinder S to be used and inserted as shown in FIG. 5.

The present invention made up of the above configuration and combination and its action has a feature that can be easily manufactured and used in a relatively simple configuration, and not only increases the operating life expectancy of the hydraulic cylinder S of the water jet propulsion, but also It has a feature that can save maintenance time and cost to the maximum by enabling maintenance and maintenance.

As described above, the present invention has been described with reference to the drawings, but is not limited thereto, and obvious modifications, configurations, and actions that can be derived from the embodiments described in the present invention are not necessarily limited thereto. It is described in the claims and should be interpreted as such.

100: frame portion 101: coupling coupling shaft
102: filter coupling shaft 200: coupling
201: oil injection unit 300: filter unit
310: filter rod 312: molecular sieve layer
320: filter handle 321: folding rotating lever
323: foreign matter discharge hole 325: coupling magnet
329: wrenching groove S: hydraulic cylinder

Claims (4)

A frame portion 100 provided with a coupling coupling shaft 101 at one lower end corresponding to one upper end, and a coupling 200 coupled to the coupling coupling shaft 101 of the frame portion 100, In the filter of the hydraulic cylinder for propulsion provided with a filter coupling shaft 102 provided at the upper end of the frame portion 100 and a filter portion 300 coupled by the filter coupling shaft 102,
The filter unit 300,
A filter rod 310 forming magnetic force,
Formed in a state divided into a filter handle 320 provided with a plurality of foldable rotation levers 321 at one end so that the filter rod 310 can be fixedly coupled and used while the wrenching groove 329 is provided at the top And
Propulsion, characterized in that, while the coupling magnet 325 is further inserted into the coupling surface of the filter handle 320 coupled to the filter rod 310, a foreign substance discharge hole 323 is further provided on the coupling surface Of hydraulic cylinders for use. delete The method of claim 1,
A filter of a hydraulic cylinder for propulsion, characterized in that a molecular sieve layer 312 of which material is alternatively limited to a zeolite-based molecular sieve (ZMS) or an illumina-based ceramic is applied to the outer peripheral surface of the filter rod 310. The method of claim 1,
The coupling 200 is a filter of a hydraulic cylinder for propulsion, characterized in that the oil injection unit 201 is further provided on the inner circumferential surface.

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