KR100431668B1 - suction filter and manufacturing method thereof - Google Patents

Abstract

(Solution means) The upper plate 4 is formed at a predetermined position of the upper filter cloth 2 constituting the filter bag 1, and the upper end of the spring 5 is fixed to the lower surface of the upper plate 4. Provided is a suction filter characterized in that a spring (5) is attached to the upper plate (4), and a lower filter cloth contact member (7) having a lower surface spherical shape is attached to the lower end of the spring (5). .

(Effect) Since the filter bag can be formed easily without wrinkles in the bag, it is possible to produce a highly reliable filter with high productivity.

Description

Suction filter and manufacturing method thereof

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a suction filter for attaching a fuel pipe in a fuel tank to a suction pipe for sucking and sending fuel in a fuel tank to an engine.

As shown in FIG. 3, in the fuel tank of an automobile, a pump b for sending fuel in the tank a to the engine is provided, and the fuel is sucked from the suction pipe b1 formed in the pump b. The fuel filter c is then passed through to the engine.

In this case, as shown in Fig. 3, the suction filter d is also attached to the tip of the suction pipe b1 to remove relatively large impurities, and the suction filter d is located at the bottom of the fuel tank a. It is arranged in contact with the surface.

As said suction filter (d), the thing of the structure shown in FIG. 2 is known conventionally. That is, the pipe attachment hole formed in the upper filter cloth d3 is formed integrally with the jaw-shaped flange d2 at the lower end of the pipe portion d1 connected to the suction pipe b1 of the pump b. The pipe part d1 is inserted in d4, and the press clip 5d is attached to this pipe part d1, and the upper filter cloth d3 is provided between the flange d2 and the press clip d5. The upper filter cloth d3 is attached to the distal end of the pipe portion d1 by holding and holding the peripheral portion of the pipe attachment hole d4. And a truncated coil spring d7 is attached to the spring attachment part d6 which protruded on the lower surface of the said flange d2, and arrange | positions the lower filter cloth d8 so that this coil spring d7 may be surrounded, The periphery of the lower filter cloth d8 and the periphery of the upper filter cloth d3 are thermally bonded to each other to form a filter bag d9 at the distal end of the pipe portion d1.

As shown in FIG. 3, the suction filter is attached to the front end of the suction pipe b1 of the pump b installed in the fuel tank a, and the filter bag d9 is attached to the bottom of the fuel tank a. It is installed in contact with the surface. At this time, the filter bag bladder d9 of the suction filter always maintains a predetermined degree of swelling by the coil spring d7 provided therein, and the filter bag bladder d9 is crushed by the suction pressure of the fuel. In addition, the bottom surface of the filter cloth bag d9 is always in contact with the bottom surface of the fuel tank a due to the elasticity of the coil spring d7.

However, the conventional suction filter shown in FIG. 2 has the following problems. That is, this suction filter has a large throttle angle α of the filter bag d9 when the upper filter cloth d3 and the lower filter cloth 8 are thermally bonded to form the filter bag d9. When the periphery of the upper and lower filter cloths d3 and d8 are folded together, the upper and lower filter cloths d3 and d8 tend to be wrinkled, so that it is difficult to form the filter cloth bag d9 neatly, in particular, the height h of the filter cloth bag d9. In the case of holding the relative high, it is quite difficult to form the filter cloth bag d9 so as not to wrinkle.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a suction filter having high reliability and excellent productivity by allowing the filter bag to be easily formed without wrinkles.

1 is a schematic cross-sectional view showing a suction filter according to an embodiment of the present invention.

Figure 2 is a schematic cross-sectional view showing a conventional suction filter

3 is a schematic view showing an example of a structure in a fuel tank of a motor vehicle;

* Description of the symbols for the main parts of the drawings *

1-filter bag 2-upper filter bag

3-lower filter cloth 4-upper plate

4a-spring retainer 5-spring

6-pipe part 7-lower filter cloth contact member

7a-hook studs

In order to achieve the above object, the present invention is a suction filter provided in the front end of the fuel intake pipe disposed in the fuel tank, the upper filter cloth and the lower filter cloth is bonded to each other at the periphery to form a bag-shaped filter cloth bag And a spring installed in the filter bag to prevent the filter bag from being crushed, wherein the upper plate of the synthetic resin to which the fuel suction pipe is connected is integrally formed with the upper filter cloth, and the upper side The upper end of the spring is fixed to the lower surface of the plate, and the spring is attached to the upper plate, and the lower filter cloth contact member having a lower surface formed in a spherical shape is attached to the lower end of the spring.

That is, in the suction filter of the present invention, a lower filter cloth contact member having a lower surface spherical shape is attached to a lower end of a spring that holds the filter cloth bubble in a swollen state, and the lower filter cloth contact member has a spherical surface of the lower filter cloth contact member. The pressure of the filter bag is smaller than that of the conventional suction filter that presses a predetermined range of the lower filter bag to inflate the filter bag in a flat manner to inflate the bag. When the filter bag is formed by adhering the periphery of the lower filter cloth with the lower filter cloth, wrinkles of the upper and lower filter cloth are less likely to be formed, and thus the filter bag without wrinkles can be formed relatively easily.

Therefore, according to the suction filter of the present invention, it is possible to easily form the filter cloth bag without causing wrinkles in the filter bag. Thus, a highly reliable filter can be obtained with good productivity.

In addition, after the filter bag is formed, the spherical lower surface of the lower filter cloth contact member easily slides the inner surface of the lower filter cloth, so that the front end of the spring is always located at the center of the lower filter cloth, so that the spring is tilted. It is possible to stably attach the suction filter in a state in which the filter cloth bag is inflated stably.

Embodiment of the Invention

Hereinafter, the Example of this invention is shown and this invention is demonstrated more concretely.

FIG. 1 shows a suction filter according to an embodiment of the present invention, which is similar to the suction filter d shown in FIG. 3, at the tip of a pump b disposed in the fuel tank a. Is attached, the bottom surface is to be installed in contact with the bottom surface of the fuel tank (a).

1 is a filter bag in which the upper filter cloth 2 and the lower filter cloth 3 are heat-bonded at the periphery of each other and formed into a bag shape. An upper plate made of synthetic resin is formed at the center of the upper filter cloth 2. 4) is integrally formed with the upper filter cloth 2, and the coil spring 5 is attached to this upper plate 4. As shown in FIG.

Here, the upper plate (4) is formed integrally with the filter cloth (2) by the insert molding method, the forming material of the upper plate (4) has passed through the mesh of the filter cloth (2), the upper filter cloth ( The center part of 2) is embedded in the center part of the thickness direction of the upper plate 4. As shown in FIG.

Although not shown in the upper plate 4 formed integrally with the upper filter cloth 2, a round hole penetrating the inside and outside of the filter bag pocket 1 is formed in the center thereof, and the upper surface of the upper plate 4 The pipe part 6 which communicates with this round hole is integrally formed, and this pipe part 6 is being fixed to the suction pipe or pump in a fuel tank. In addition, a ring wall-shaped spring fixing portion 4a is integrally formed on the lower periphery of the upper plate 4, and the upper end of the coil spring 6 is fitted into and fixed to the spring fixing portion 4a. 6A is an attachment piece which integrally protrudes in the upper part of the outer peripheral surface of the said pipe part 6, and protrudes on the pump side to the hole (not shown) formed in this attachment piece 6a. By fitting the pieces, the filter bag 1 is fixed to the pump.

Further, a lower filter cloth abutting member 7 is attached to the lower end of the spring 5. The lower filter cloth abutting member 7 is a substantially hemispherical member having an upper surface flat and a lower surface spherical in shape, and a plurality of hook-shaped locking projections 7a protrude from the upper surface thereof. The lower end of the coil spring 5 is fitted and fixed to the locking protrusion 7a.

Here, as the upper filter cloth and the lower filter cloth, an appropriate filter cloth may be used according to the type of fuel, and the like, but there is no particular limitation, and in particular, a mesh cloth made of synthetic resin capable of thermally bonding such as nylon, polyethylene, polypropylene, polyacetal ( mesh) is suitably used. In addition, since the suction filter is enough to remove solid impurities, it is preferable that the size of the eye of the mesh fabric for this is about 30 to 120 microns, in particular about 70 to 77 microns.

As the material for forming the upper and lower plates 4 and 6, the injection molding thermoplastic resin is preferably used. Specifically, nylon, polyethylene, polypropylene, polyacetal, or the like is preferably used.

This suction filter can be manufactured as follows. First, the upper filter cloth 2 is cut into a predetermined shape, and this is set in an injection molding machine, and the upper plate 4 and the pipe portion 7 are integrally formed in the center of the upper filter cloth 2 by the insert molding method. .

Subsequently, the upper end of the coil spring 5 is fixed to the spring fixing part 4a of the upper plate 4 to attach the coil spring 5 to the upper filter cloth 2, and the coil spring 5 The lower filter cloth contact member 7 is attached to the lower end of the coil spring 5 by engaging the hook-shaped locking protrusion 7a of the lower filter cloth contact member 7 at the lower end thereof.

Subsequently, the lower filter cloth 3 is disposed so that the coil spring 5 is surrounded between the lower filter cloth 3 and the upper filter cloth 2, and the peripheral portions of the upper filter cloth 2 and the lower filter cloth 3 are arranged. In this state, the suction filter of the present example can be manufactured by setting both filter cloths 2 and 3 in the heat sealer, heat-bonding the peripheral portions of the upper and lower filter cloths 2 and 3 with each other to form a filter bag.

As described above, in the suction filter of the present embodiment, a lower filter cloth contact member 7 having a lower surface spherical shape is attached to the lower end of the coil spring 5 which keeps the filter bag pocket 1 in an inflated state. Since the spherical surface of the lower filter cloth abutting member 7 abuts against the lower filter cloth 3 and presses it to inflate the bag 1, the predetermined range s of the lower filter cloth d8 shown in FIG. Throttle angle α of the filter bag 1 is smaller than that of the conventional suction filter which presses the surface flatly to inflate the filter bag d9. When the filter cloth bag 1 is formed by adhering the parts, wrinkles are hardly formed in the upper and lower filter cloths 2 and 3, so that the filter cloth bag 1 without wrinkles can be formed relatively easily.

Thus, according to the suction filter of the present embodiment, since the filter cloth bag 1 without wrinkles can be easily obtained, a high performance filter can be manufactured with good productivity without causing performance degradation by wrinkles.

After the upper filter cloth 2 and the lower filter cloth 3 are attached to each other to form the filter bag 1, the spherical lower surface of the lower filter cloth engaging member 7 forms the inner surface of the lower filter cloth 2. Since the tip of the coil spring 5 is always located in the center of the lower filter cloth 3 because it is easy to slide, in a state in which the filter bag 1 is inflated stably without tilting the coil spring 5. The suction filter can be attached or the like.

In addition, in the suction filter of the present embodiment, the upper plate 4 made of synthetic resin is integrally formed on the upper filter cloth 2 constituting the filter cloth bag 1, and the pipe part 6 of the upper plate 4 is formed. Since the suction pipe or the pump in the fuel tank is configured to be connected, there is no fear of the filter bag pocket 1 coming out of the suction pipe or the pump, which is highly reliable.

In addition, the suction filter of this invention is not limited to said each Example, It can change suitably. For example, in the above embodiment, the upper plate 4 is integrally formed on the upper filter cloth, but the filter cloth bag 1 is supported by inserting and supporting the upper filter cloth 2 with the flange and the clip as in the conventional example of FIG. You may connect with the pipe part 6, and various changes may be made also about the other structure, unless the summary of this invention is departed.

As described above, according to the suction filter of the present invention, it is possible to easily form the filter cloth bag without forming wrinkles in the filter bag. Thus, a highly reliable filter can be obtained with good productivity.

Claims (6)

A suction filter formed at the distal end of a fuel intake pipe disposed in a fuel tank, wherein the upper filter cloth and the lower filter cloth are bonded to each other at the periphery thereof to form a bag-shaped filter bag, and a spring is disposed in the filter bag. A suction filter configured to prevent crushing, The upper plate made of synthetic resin to which the fuel suction pipe is connected is provided at a predetermined position of the upper filter cloth, and the upper end of the spring is fixed to the lower surface of the upper plate to attach a spring to the upper plate. Suction filter, characterized in that attached to the lower filter cloth contact member formed in a spherical shape at the bottom of the lower surface. The method according to claim 1, The plate, the suction filter is formed integrally with the upper filter cloth by a synthetic resin. The method according to claim 2, And the upper filter cloth and the upper plate are integrated by insert molding. The method according to any one of claims 1 to 3, A spring filter is formed on the upper plate, and a suction filter fixed by inserting an upper end of the spring into the spring fixing part. A manufacturing method for obtaining the suction filter according to any one of claims 1 to 3, wherein one end of the spring is fixed to the upper plate provided on the upper filter cloth to attach the spring to the upper filter cloth, and the other end of the spring The lower filter cloth contact member is attached, and a lower filter cloth is disposed so that the spring is surrounded between the lower filter cloth and the upper filter cloth, and the periphery of the upper filter cloth and the lower filter cloth is superimposed on each other, and both filter cloths are attached to the thermal bonder in this state. And a peripheral filter of the upper and lower filter cloths is thermally bonded to each other. A manufacturing method for obtaining a suction filter according to claim 4, wherein one end of a spring is fixed to an upper plate provided on an upper filter cloth to attach a spring to an upper filter cloth, and the lower filter cloth contact member is attached to the other end of the spring. The lower filter cloth is arranged so that the spring is surrounded between the lower filter cloth and the upper filter cloth, and the upper periphery of the upper filter cloth and the lower filter cloth is superimposed on each other, and in this state, both filter cloths are set in a heat sealer, A method of manufacturing a suction filter, characterized in that the peripheral edges are thermally bonded to each other.