JPH0513378Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field The present invention provides a differential pressure gauge for monitoring the deterioration state of a filter element in an air filter device for purifying air emitted from a compressed air supply device, etc. It's about what you're prepared for.

Prior Art As shown in FIG. 9, in a conventional air filter device, in a container body 3 having an air inlet 1 and an air outlet 2, the air inlet 1 and the air outlet 2 are communicated via a filter element 4. The high pressure air inlet 7 of the differential pressure gauge 6 is connected to the connection port 5 opened on the air inlet side in the container body 3.
A connection port 8 provided at the air outlet 2 is connected to a low-pressure air inlet 9 of a differential pressure gauge 6 via a connector or a hose 10. In this device, the difference between the air pressure introduced from the high-pressure air inlet 7 and the air pressure introduced from the low-pressure air inlet 9 was detected by a Bourdon tube, and the deterioration state of the filter element was monitored.

Problems to be Solved by the Invention However, such conventional air filter devices use a connector or a hose to guide air on the air outlet side to the differential pressure gauge. Since these hoses are exposed to the outside, errors may occur in the measured values due to factors such as damage and deformation caused by external forces, which poses a problem in the reliability of the measured values.

Therefore, in view of the drawbacks of the conventional technology, the present invention
The purpose is to provide a device that is less likely to be deformed or damaged by external factors.

Means for Solving the Problem That is, the present invention provides a container that combines a head and a housing, with a high-pressure chamber partitioned at the center of the head via a partition wall, and a high-pressure chamber located on the outer periphery of the high-pressure chamber and connected to the partition wall. a low pressure chamber communicating through a drilled hole, an air inlet communicating with the high pressure chamber, an air outlet communicating with the low pressure chamber, and a filter element attached to the low pressure chamber side of the hole provided in the partition wall. This object is achieved by an air filter device comprising a differential pressure gauge installed in the low pressure chamber, a high pressure air inlet of the differential pressure gauge is connected to the high pressure chamber, and a low pressure air inlet is opened into the low pressure chamber.

Function Compressed air sucked from the air inlet is purified by a filter element installed in the air filter device. At this time, since the high pressure air inlet of the differential pressure gauge is connected to the high pressure chamber of the device, the air before passing through the filter is guided.

On the other hand, the air that has passed through the filter element is
The air is discharged from the air outlet, but since the low pressure air inlet of the differential pressure gauge is open to the low pressure chamber on the air outlet side, the air after passing through the filter element is guided to the differential pressure gauge.

The pressure difference between the pressure of the air introduced from the high-pressure air inlet and the pressure of the air introduced from the low-pressure air inlet is displayed as a meter value.

When the pressure difference is small, there is little deterioration of the filter element, and when the pressure difference is large, there is a lot of deterioration. Therefore, if the pressure difference is large, the filter element in the container can be replaced.

Embodiments The present invention will be described in detail below with reference to embodiments shown in the drawings. FIG. 1 is a front view of an air filter device according to an embodiment of the present invention, in which a container is constructed by connecting a cylindrical head 20 and a housing 23, and an air inlet is provided in the head 20 of the container. 21 and an air outlet 22 are provided.

Further, a meter 25 of a differential pressure gauge 24 is attached to a partition wall 26 forming a high pressure chamber 27 in the center of the head 20.

The inside of the device is as shown in FIGS. 2 and 3.
An air inlet 21 and an air outlet 22 are provided on the head side, and the air inlet 21 communicates with a high pressure chamber 27 partitioned by a partition wall 26 provided in the head 20. This high pressure chamber 27 communicates with a low pressure chamber 29 via a hole 28 made in the partition wall 26.
8 is equipped with an air filter element 30 on the low pressure chamber 29 side.

31 is the hole 28 and the filter element 30
This is a sealing O-ring installed between the The differential pressure gauge 24 uses a Bourdon tube type, and its main body is installed in a low pressure chamber 29. Third
In the one shown in the figure, a partition wall 2 forming a high pressure chamber 27 is shown.
A mounting port 32 is provided on the side surface of the pressure gauge 6, into which a high pressure air inlet 33 of the differential pressure gauge 24 is inserted and locked.

The high-pressure air introduction port 33 and the mounting port 32 have a D-cut type cross section as shown in FIG. A low pressure air inlet 34 of the differential pressure gauge 24 is open to the low pressure chamber 29, and air in the low pressure chamber 29 is guided to the differential pressure gauge 24 through the inlet 34.
A meter 25 of the differential pressure gauge 24 is fastened and fixed to a hole opened in the side surface of the head 20 with a ring nut 35. 36 and 37 are O-rings for sealing.

The method of mounting the differential pressure gauge 24 is not limited to the method described above, but as shown in FIGS.
There is a system in which a nut 38 is fixed to the mounting port 32 of No. 6, and the high pressure air inlet 33 is threaded, and the inlet 33 is screwed into the nut 38. In the case shown in FIG. 5, a transparent glass 41 is separately fixed in a hole drilled in the side surface of the head 20 using a retaining ring 39 and a packing 40.

Furthermore, when inserting and fixing the high-pressure air inlet 33 into the mounting hole 32 provided on the side of the partition wall 26 as shown in FIG. 7, a hole 42 is drilled in the partition wall 26 but not penetrating it, and a knock pin 43 attached to the differential pressure gauge 24 is inserted into the hole 42 to fix the high-pressure air inlet 33 to the side of the partition wall 26.
The head 20 is prevented from rotating.
A hole drilled in the side of the differential pressure gauge 24 is threaded, a stop ring 39 is screwed into the hole, and the differential pressure gauge 24 is pressed against the mounting port side.

Next, the type shown in Figure 8 is meter 2.
5 is an air filter device projecting to the outside, and the head 20 has an air inlet 21 and an air outlet 22.
The air inlet 21 and the air outlet 22 are connected to the partition wall 2.
6, the high pressure chamber 27 and the low pressure chamber 29 are divided into a high pressure chamber 27 and a low pressure chamber 29, and the high pressure chamber 27 and the low pressure chamber 29 are configured to communicate with each other via a filter element 30. A mounting portion 44 having a high-pressure air inlet 33 and a low-pressure air inlet 34 of the differential pressure gauge 24 is attached to a mounting port 32 that is opened toward the chamber 27 and has a communication port 43 with the low-pressure chamber 29.

The mounting portion 44 has a high pressure air inlet 33 in the center, a low pressure air inlet 34 on the outside thereof, and has an externally threaded outer surface. Furthermore, the high-pressure air introduction port 33 protrudes from the tip of the mounting portion 44, so that when the mounting portion 44 is attached to the mounting port 32, a gap 45 is created between the mounting port 32 and the mounting portion 44. It is configured.

Therefore, the low pressure chamber 29 and the low pressure air introduction port 34 communicate with each other via the gap 45. Note that 46 and 47 are O-rings for sealing.

With the configuration described above, the air filter device according to the present invention uses a differential pressure gauge to This eliminates the need for the inlet to be exposed to the outside.

In this embodiment, a Bourdon tube type differential pressure gauge is used, but the present invention is not limited to this, and a bellows type, diaphragm type, or other differential pressure gauge may be used.

Effects As mentioned above, in the air filter device according to the present invention, unlike the differential pressure gauge of the conventional device, the hose etc. were exposed to the outside, because it is configured to be connected internally, there is no possibility of damage due to external factors. The device is highly reliable.

[Brief explanation of the drawing]

1 to 8 show an embodiment of the present invention, in which FIG. 1 is a front view of the device, FIG. 2 is a cross-sectional view, FIG. 3 is a longitudinal sectional view, and FIG. Figure -
5 and 6 show other embodiments. FIG. 5 is a cross-sectional view of the device, FIG. 6 is a longitudinal sectional view, and FIG. 7 is a diagram of another embodiment of the device. 8 is a vertical sectional view of the device, and FIG. 9 is a partially cutaway sectional view of the device showing the prior art. 1... Air inlet, 2... Air outlet, 3... Container body, 4... Filter element, 5... Connection port, 6... Differential pressure gauge, 7... High pressure air inlet, 8...
... Connection port, 9 ... Low pressure air inlet, 10 ... Hose, 20 ... Head, 21 ... Air inlet, 22 ...
... Air outlet, 23 ... Housing, 24 ... Differential pressure gauge, 25 ... Meter, 26 ... Partition wall, 27 ...
...High pressure chamber, 28... Hole, 29... Low pressure chamber, 30...
...Filter element, 31...O ring, 3
2... Installation port, 33... High pressure air introduction port, 34...
...Low pressure air inlet, 35...Ring nut, 3
6, 37...O-ring, 38...nut, 39...
...Retaining ring, 40...Packskin, 41...Transparent glass, 42...Hole, 43...Communication port, 44...
Mounting part, 46... Gap, 46, 47... O-ring.

Claims (1)

[Utility Model Registration Claims] (1) A container combining a head and a housing, comprising a high pressure chamber separated by a partition wall at the center of the head, a low pressure chamber located on the outer periphery of the high pressure chamber and communicating with it via a hole in the partition wall, an air inlet communicating with the high pressure chamber, an air outlet communicating with the low pressure chamber, and a filter element attached to the low pressure chamber side of the hole in the partition wall.
a differential pressure gauge installed in the low pressure chamber;
An air filter device characterized in that the high pressure air inlet of the differential pressure gauge is connected to the high pressure chamber and the low pressure air inlet is open to the low pressure chamber. (2) An air filter device according to claim 1, characterized in that a transparent glass is attached to the container at a position opposite to the meter of the differential pressure gauge. (3) An air filter device according to claim 1, characterized in that an air inlet and an air outlet are installed in the head of the container.