KR101156100B1 - Diaphragm with External Chamber - Google Patents

Abstract

The present invention comprises a housing case 100 consisting of a side wall 101, a bottom member 102 and the upper member 103; A soft diaphragm 200 installed in an inner space of the housing case 100; And an outer chamber 310 formed as a space between an upper surface of the diaphragm 200 and an inner surface of the upper member 103 of the housing case 100 generated when the inner chamber 210 is compressed. Including, the housing case 100 has a suction port 110 penetrating one side of the side wall 101 or the bottom member 102; And a housing case outlet 120 penetrating through one side of the upper member 103, wherein the diaphragm 200 temporarily stores the air introduced through the suction port 110 therein. 210); An inlet valve 220 installed at a position corresponding to the inlet 110 to be closed in the process of compressing the inner chamber 210 and to be opened in a process of expanding the inner chamber 210; A diaphragm outlet 230 communicating the inner chamber 210 and the outer chamber 310; And a discharge valve 240 installed at the diaphragm outlet 230 to be opened in the process of compressing the inner chamber 210 and closed in the process of expanding the inner chamber 210. It relates to a diaphragm provided with an outer chamber, characterized in that.

Description

Diaphragm with External Chamber

The present invention relates to a diaphragm for generating compressed air, and more particularly, a compact size having an outer chamber formed as a space between the housing case and the soft diaphragm separate from the inner chamber provided inside the soft diaphragm. Its purpose is to dramatically increase the compressed air generated per unit time while minimizing the operating noise.

The operating principle of the pump using a conventional diaphragm is that the diaphragm 2 repeats compression and expansion according to the connecting rod 1 reciprocating as shown in FIG. 1, and the diaphragm 2 expands. If the diaphragm 2 is compressed, outside air flows into the diaphragm 2 when the opening / closing plate 4 blocking the intake valve 3 is opened. As the opening and closing plate 6 blocking the valve 5 is opened, the compressed air inside the diaphragm 2 is discharged through the discharge valve 5.

In order to increase the amount of air discharged per unit time using the conventional diaphragm 2, the RPM of the power unit is increased to increase the number of times of compression / expansion of the diaphragm 2 per unit time or the diaphragm 2 ) Inevitably, the size (volume) of the body itself must be enlarged, but depending on the use of the diaphragm 2, the volume may not be enlarged indefinitely (when compact compact size is required). Appropriate RPM is specified for each product, so it is impossible to increase RPM indefinitely.

Therefore, in the case of a small product requiring high-pressure discharge air, there is a problem that the conventional diaphragm does not meet the requirements of the product.

The present invention, created to solve the above problems, greatly increases the amount of air discharged per unit time while minimizing the overall appearance of the diaphragm and minimizes the operation noise, as well as small products requiring high-pressure blowing air as well as large-capacity products. And it is an object of the present invention to provide a new concept of diaphragm that can be applied to a variety of other products in various ways.

Technical composition of the present invention created to achieve the above object is as follows.

The present invention consists of a rigid housing case 100 and a soft diaphragm 200 installed therein and an outer chamber 310 formed of a space between the housing case 100 and the diaphragm 200. .

In other words, the present invention comprises a housing case 100 consisting of a side wall 101, a bottom member 102 and the upper member 103; A soft diaphragm 200 installed in an inner space of the housing case 100; And an outer chamber 310 formed of a space between an upper surface of the diaphragm 200 and an inner surface of the upper member 103 of the housing case 100 generated when the inner chamber 210 is compressed. Include.

The housing case 100 includes a suction port 110 penetrating one side of the side wall 101 or the bottom member 102; And a housing case outlet 120 penetrating one side of the upper member 103.

The diaphragm 200 includes an inner chamber 210 for temporarily storing air introduced through the inlet 110 therein; An inlet valve 220 installed at a position corresponding to the inlet 110 to be closed in the process of compressing the inner chamber 210 and to be opened in a process of expanding the inner chamber 210; A diaphragm outlet 230 communicating the inner chamber 210 and the outer chamber 310; And a discharge valve 240 provided at the diaphragm outlet 230 to be opened in the process of compressing the inner chamber 210 and closed in the process of expanding the inner chamber 210. It features.

According to the configuration of the present invention to minimize the volume of the entire diaphragm while significantly increasing the amount of air discharged per unit time and minimize the operating noise to small products requiring high-pressure blowing air, as well as large products and various other products It can be used in many ways.

That is, as shown in FIG. 2A, as the inner chamber 210 is compressed and the outer chamber 310 is expanded, the compressed air of the inner chamber 210 passes through the diaphragm discharge port 230. 310) (the diaphragm descends). In addition, as shown in FIG. 2 (b), while the inner chamber 210 is expanded and the outer chamber 310 is compressed, the outside air flows into the inner chamber 210 through the inlet 110 and at the same time the housing case outlet ( The compressed air of the outer chamber 310 is discharged to the outside through the 120 (diaphragm rise process).

In other words, the air introduced into the inner chamber 210 is compressed once inside the inner chamber 210 and moved to the outer chamber 310, and in the process of being discharged to the housing case outlet 120, the inside of the outer chamber 310 again. Once more compressed at, it can significantly increase the amount of air discharged and the air pressure.

In particular, the air flowing into the inner chamber 210 is supplied to the outer chamber 310 in the first compressed state in the inner chamber 210 so that more air is supplied to the outer chamber 310 at a given time and volume and discharged. Can be.

In addition, compared to the prior art, even if the overall size of the diaphragm can be provided with the same or more air pressure and air pressure per unit time can also reduce the operating noise.

1 is a cross-sectional structure of a conventional diaphragm device.
Figure 2 is a cross-sectional structure of a specific embodiment of the present invention, (a) the process of the inner chamber 210 is compressed and the outer chamber 310 is expanded while the diaphragm 200 descends, the air of the inner chamber 210 Shows a process of moving to the outer chamber 310 through the diaphragm outlet 230, and (b) a process in which the inner chamber 210 is expanded and the outer chamber 310 is compressed while the diaphragm 200 is raised. As an external air flows into the inner chamber 210 through the inlet 110 and the compressed air of the outer chamber 310 is discharged to the outside through the housing case outlet 120, (c) FIG. 2 illustrates a state in which the outer chamber 310 is not formed because the frame 200 is fully raised.
3 illustrates a case in which a power unit 410, an eccentric cam unit 420, and a connecting rod 430 are added as another specific embodiment of the present invention.
4 illustrates a case in which a storage tank 510 and an injection pipe 520 are added as another specific embodiment of the present invention. (A) A connection passage 540 is provided at the lower end of the injection pipe 520. The case is shown and (b) the case where the connection path 540 is provided in the intermediate | middle part of the injection pipe 520 is shown.

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.

Figure 2 is a cross-sectional structure of a specific embodiment of the present invention, (a) the process of the inner chamber 210 is compressed and the outer chamber 310 is expanded while the diaphragm 200 descends, the air of the inner chamber 210 Shows a process of moving to the outer chamber 310 through the diaphragm outlet 230, and (b) a process in which the inner chamber 210 is expanded and the outer chamber 310 is compressed while the diaphragm 200 is raised. As an external air flows into the inner chamber 210 through the inlet 110 and the compressed air of the outer chamber 310 is discharged to the outside through the housing case outlet 120, (c) The state in which the ram 200 is completely raised so that the outer chamber 310 is not formed is illustrated.

As shown in FIG. 2, the housing case 100 includes a side wall 101, a bottom member 102, and an upper member 103. Unlike the diaphragm 200, a hard material (a variety of synthetic resins such as plastic or Any material can be freely selected as long as it can maintain a given shape such as various metals.

A soft diaphragm 200 is installed in the inner space formed by the bottom member 102 and the upper member 103 of the side wall 101 of the housing case 100.

The diaphragm 200 is made of a soft material that is easily deformed when an external force is applied, unlike the housing case 100, and the inner chamber 210 is provided inside the diaphragm 200.

The outer chamber 310 is a space between the upper surface of the diaphragm 200 and the inner surface of the upper member 103 of the housing case 100 generated when the inner chamber 210 is compressed while the diaphragm 200 descends. Is formed. Therefore, when the diaphragm 200 fully rises, the space for temporarily forming the outer chamber 310 disappears.

The housing case 100 is provided with a suction port 110 penetrating one side of the side wall 101, the suction port 110 may be provided with only one or two or more.

In addition, the suction port 110 is not necessarily provided on the side wall 101 as shown in Figure 2, in some cases may be provided on one side of the bottom member (102).

The housing case 100 is provided with a housing case outlet 120 penetrating one side of the upper member 103. In the case of the housing case outlet 120, only one may be provided or two or more may be provided.

The interior of the diaphragm 200 is provided with an internal chamber 210 for temporarily storing the air introduced through the inlet 110.

The inner chamber 210 may form an annular sealed space. If the annular sealed space is formed in this way, even if the connecting rod 430 for moving the diaphragm 200 up and down passes through the center portion, the inner chamber ( 210 does not cause interference.

The lower surface of the diaphragm 200 is fixed to the inner surface of the bottom member 102 of the housing case 100 as shown in FIG.

The upper edge of the diaphragm 200 is fixed to the inner side of the upper member 103 of the housing case 100 to form a boundary of the outer chamber 310.

The suction valve 220 is installed in the diaphragm 200 corresponding to the suction port 110, and the suction valve 220 is a process in which the diaphragm 200 descends to compress the inner chamber 210 (inner chamber). In the process of compressing the air inside (210), the diaphragm 200 rises to open and close the opening chamber in the process of expanding the inner chamber 210.

Therefore, the inlet 110 is closed in the process of compressing the inner chamber 210 so that the outside air does not flow into the inner chamber 210, and the inlet 110 is opened in the process of expanding the inner chamber 210 and the inner chamber is opened. The internal air pressure is lower than the external air so that external air flows into the internal chamber 210.

The diaphragm discharge port 230 communicating with the inner chamber 210 and the outer chamber 310 passes through the upper portion of the diaphragm 200.

The diaphragm discharge port 230 is provided with a discharge valve 240, the discharge valve 240 is opened when the diaphragm 200 is lowered and the internal chamber 210 is compressed, the diaphragm 200 is raised In the process of expanding the inner chamber 210 is made of a closing membrane.

Therefore, the diaphragm outlet 230 is opened while the inner chamber 210 is compressed, and the air compressed in the inner chamber 210 is moved to the outer chamber 310 through the diaphragm outlet 230.

That is, when the diaphragm 200 descends, the diaphragm discharge port 230 is opened while the inner chamber 210 is compressed, and the upper surface of the diaphragm 200 and the upper member 103 of the housing case 100 are opened. A space is formed between the surfaces to form the outer chamber 310.

Therefore, the air of the inner chamber 210 is compressed to move to the outer chamber 310 through the diaphragm outlet 230.

When the diaphragm 200 rises, the inlet 110 is opened while the inner chamber 210 expands, and the diaphragm outlet 230 is closed. In addition, as the outer chamber 310 is compressed by the upper surface of the diaphragm 200, the air inside the outer chamber 310 is compressed and discharged to the outside through the housing case outlet 120, and is discharged through two compression processes. The bar becomes a higher pressure than the air introduced through the first inlet 110.

As shown in FIG. 2, the upper surface of the diaphragm 200 has a high dome shape, and the central portion of the upper surface of the diaphragm 200 is relatively thicker than other portions of the diaphragm 200. The inner surface of the upper member 103 of the housing case 100 is recessed to correspond to the upper surface of the diaphragm 200.

As such, the central portion of the upper surface of the diaphragm 200 is formed thicker than other portions, so that the air inside the outer chamber 310 can be more surely compressed and discharged to the outside when the diaphragm 200 is raised.

The inner surface of the side wall 101 of the housing case 100 may be provided with a stepped portion 130 protruding toward the diaphragm 200. In this case, the side surface of the diaphragm 200 may be a side wall of the housing case 100. 101) is configured in a form corresponding to the inner surface is mounted on the stepped portion (130).

As such, when the side of the diaphragm 200 is mounted on the stepped portion 130 of the housing case 100, the diaphragm 200 descends and descends and rises only at the center of the diaphragm 200. The state attached to the housing case 100 is maintained together with the upper edge of the diaphragm 200.

Therefore, despite the repetitive lifting movement of the diaphragm 200, when the diaphragm 200 rises, the diaphragm 200 may be immediately restored to its original shape, and the inflow, compression, and discharge of outside air may be continuously performed smoothly. have.

The diaphragm of the present invention may be added to the power unit 410, the eccentric cam portion 420, and the connecting rod 430 as shown in FIG.

Power unit 410 is a device for generating a driving force may include a variety of motors or engines.

One end of the connecting rod 430 is eccentrically connected to the eccentric cam part 420 to the eccentric cam part 420 which rotates in association with the power unit 410.

Therefore, when the eccentric cam unit 420 rotates in conjunction with the power unit 410, the connecting rod 430 reciprocates vertically.

The other end of the connecting rod 430 passes through the central portion of the annular inner chamber 210 and is coupled to the upper inside of the diaphragm 200.

Therefore, when the power unit 410 is operated, the diaphragm 200 inhales and compresses the outside air while repeating the vertical movement in conjunction with this, and then discharges it.

4, the storage tank 510 and the injection pipe 520 may be added to the diaphragm of the present invention. When the storage tank 510 and the injection pipe 520 are provided in this way, the storage tank ( The material stored in 510 may be mixed with compressed air and discharged to the outside through the injection pipe 520, and thus may be utilized for various purposes.

Figure 4 (a) shows a case in which the connection passage 540 is provided at the lower end of the injection pipe 520, Figure 4 (b) is a connection passage 540 is provided in the middle portion of the injection pipe 520 In this case, the specific location where the connection passage 540 is installed is not particularly limited and it is sufficient to connect the proper positions of each of the connection passage 540 and the injection pipe 520 to be mixed with the compressed air.

Storage tank 510 is shown to be installed on the upper portion of the housing case 100 is not necessarily installed on the upper portion may be installed on the side or other parts through appropriate design changes.

The injection pipe 520, which serves as an air discharge passage, is also shown to be installed on the upper portion of the housing case 100, but it is not necessarily installed on the upper portion, and may be installed on the side or another portion through appropriate design changes.

In this case, two or more housing case outlets 120 are provided. A part of the housing case outlets 120 is in communication with the inside of the storage tank 510, and the rest of the housing case outlets 120 are spray pipes 520. Communicating with

That is, the compressed air discharged through the some housing case outlet 120 is supplied into the storage tank 510, and the compressed air discharged through the remaining housing case outlet 120 is injected through the injection pipe 520. It is discharged to the outside.

When external pressure is not applied to the portion where the storage tank 510 and the housing case outlet 120 communicate with each other, the spring is closed by the elastic force of the spring. An opening and closing stopper 530 through which air is introduced into the storage tank 510 is provided.

The connection passage 540 serves as a passage connecting one side of the storage tank 510 and one side of the injection pipe 520. When the air is discharged to the outside through the injection pipe 520, the connection tank 510 is disposed inside the storage tank 510. The stored material is also ejected to the injection pipe 520 through the connection passage 540, mixed with air, and discharged to the outside through the injection pipe 520 together with the air.

That is, when the air compressed through the housing case outlet 120 is discharged to the outside through the injection pipe 520, the material inside the storage tank 510 connected through the connection passage 540 roll is also mixed and discharged. Air is introduced into the storage tank 510 by opening and closing the stopper 530 in the discharge process and the material inside the storage tank 510 is continuously and smoothly ejected to the injection pipe 520 through the connection passage 540. Can be.

As described above, the technical spirit of the present invention has been described with reference to specific embodiments of the present invention, but the protection scope of the present invention is not necessarily limited to these embodiments, and various designs may be made without changing the technical spirit of the present invention. Changes, additions or deletions of well-known technology, and simple numerical limitations also make it clear that they belong to the protection scope of the present invention.

100: housing case
101: side wall 102: bottom member 103: upper member
110: suction port
120: housing case outlet
130: step
200: diaphragm
210: inner chamber
220: suction valve
230: diaphragm outlet
240: discharge valve
310: outer chamber
410: power unit
420: eccentric cam part
430: connecting rod
510: storage tank
520: Injector
530: opening and closing stopper
540: connecting passage

Claims (6)

A housing case 100 composed of a side wall 101, a bottom member 102 and an upper member 103;
A soft diaphragm 200 installed in an inner space of the housing case 100; And,
An outer chamber 310 formed as a space between an upper surface of the diaphragm 200 and an inner surface of the upper member 103 of the housing case 100 generated when the diaphragm 200 descends;
Including,
In the housing case 100,
A suction port 110 penetrating one side of the side wall 101 or the bottom member 102; And,
A housing case outlet 120 penetrating one side of the upper member 103;
Is provided,
In the diaphragm 200,
An internal chamber 210 temporarily storing air introduced through the inlet 110 therein;
An inlet valve 220 installed at a position corresponding to the inlet 110 to be closed in the process of compressing the inner chamber 210 and to be opened in a process of expanding the inner chamber 210;
A diaphragm outlet 230 communicating the inner chamber 210 and the outer chamber 310; And,
A discharge valve 240 installed at the diaphragm discharge port 230 and having an opening / closing membrane which is opened in a process of compressing the inner chamber 210 and closed in a process of expanding the inner chamber 210;
Diaphragm having an outer chamber, characterized in that it comprises a. In claim 1,
The inner chamber 210 forms an annular sealed space,
The lower surface of the diaphragm 200 is fixed to the inner surface of the bottom member 102 of the housing case 100,
The upper edge of the diaphragm 200 is fixed to the inner surface of the upper member 103 of the housing case 100 to form a boundary of the outer chamber 310, the diaphragm provided with an outer chamber . In claim 2,
The upper surface of the diaphragm 200 becomes a dome shape with a high central portion, and the central portion of the upper surface of the diaphragm 200 is relatively thicker than other portions of the diaphragm 200,
The inner surface of the housing case 100, the upper member 103 is diaphragm provided with an outer chamber, characterized in that recessed to correspond to the upper surface of the diaphragm (200). In claim 2,
A stepped portion 130 protruding toward the diaphragm 200 is provided on an inner surface of the side wall 101 of the housing case 100.
The side surface of the diaphragm 200 is a shape corresponding to the inner surface of the side wall 101 of the housing case 100, the diaphragm provided with an outer chamber, characterized in that mounted on the stepped portion (130). The method according to any one of claims 2 to 4,
A power unit 410 for generating a driving force;
An eccentric cam unit 420 which rotates in association with the power unit 410; And,
A connecting rod 430 connected to the eccentric cam part 420 so that one end thereof is eccentric to convert a rotational movement of the eccentric cam part 420 into a vertical reciprocating motion;
More is included,
The other end of the connecting rod 430 is passed through the center of the annular inner chamber 210 is provided with an outer chamber, characterized in that coupled to the upper inside of the diaphragm (200). The method according to any one of claims 2 to 4,
A storage tank 510 installed at one side of the housing case 100; And,
An injection pipe 520 installed at one side of the housing case 100 to serve as an air discharge passage;
Includes more,
The housing case outlet 120 is provided with a plurality of parts of the housing case outlet 120 is in communication with the interior of the storage tank 510, the remaining portion of the housing case outlet 120 is the injection pipe 520 In communication with,
When the storage tank 510 and the housing case outlet 120 are in communication with each other, when the external pressure does not work, the spring is closed by the elastic force of the spring. It is provided; opening and closing plug 530 to be introduced into the storage tank 510;
One side of the storage tank 510 is connected to the injection passage 540 is connected to the injection pipe 520; is provided when the air is discharged to the outside through the injection pipe 520 inside the storage tank 510 Stored material is also provided through the connecting passage 540, the diaphragm provided with an outer chamber, characterized in that mixed with the air and discharged together.

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