JPH0734211Y2 - Air regulator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to an air regulator for adjusting the flow rate of air flowing in auxiliary air passages arranged in parallel with an intake passage of an internal combustion engine.

[Conventional technology]

Generally, in an electronically controlled fuel injection internal combustion engine, a throttle valve is provided in the middle of an intake passage from an air cleaner to a combustion chamber of the internal combustion engine, and the intake air amount is adjusted by adjusting the opening degree of the throttle valve, and The injection device controls the injection amount of fuel to operate the internal combustion engine.

On the other hand, when warming up at low temperature, the throttle valve is closed and the flow rate of intake air is controlled using the auxiliary air passage. The auxiliary air passage is a passage provided by bypassing between the upstream side and the downstream side of the throttle valve of the intake passage without using a throttle valve, and the auxiliary air passage is controlled by an air regulator provided in the middle of the auxiliary air passage. The flow rate of air flowing through the passage is controlled.

And, in general, air regulators are shown in FIGS.
It is configured as shown in the figure.

In the figure, 1 is a housing body made of aluminum, and the housing body 1 has an outlet passage 1A of a passage portion 2 which is connected in the middle of the auxiliary air passage and becomes a part of the auxiliary air passage,
It is configured to have a bimetal chamber 1B containing a bimetal 5 described later. Reference numeral 3 denotes a resin cover for covering the housing body 1, and the cover 3 has the outlet passage 1A.
An inlet passage 3A is formed at a position facing the inlet passage 3A.
And the outlet passage 1A form the passage portion 2. Further, the contact surface of the cover 3 with the housing body 1 is formed into a flat surface shape that abuts against the contact surface on the housing body 1 side.

4 is a state in which the cover 3 is applied to the housing body 1,
In the shutter chamber formed between these, the shutter chamber 4
Is interposed between the inlet passage 3A and the outlet passage 1A of the passage portion 2, and the flow passage area thereof is adjusted by the shutter 7 described later.

Reference numeral 5 is a bimetal provided in the bimetal chamber 1B of the housing body 1, and an electric heater is provided at the base end of the bimetal 5.
5A is installed. Reference numeral 6 denotes an adjusting plate fixedly provided in the shutter chamber 4. The adjusting plate 6 has an opening 6A for extending the tip portion 5B of the bimetal 5 into the shutter chamber 4, and the inlet passage. A communication port 6B for connecting the 3A and the exit passage 1A is provided. Reference numeral 7 denotes a shutter rotatably attached to the adjusting plate 6 via a pin 8, and the shutter 5 is engaged with the tip portion 5B of the bimetal 5.
A flow path adjusting hole 7B for adjusting the flow path area by relatively shifting between the bimetal engaging hole 7A in which the shutter 7 is rotated by the deformation of the bimetal 5 and the passage portion 2 by the rotation of the shutter 7. And are provided.

Reference numeral 9 denotes a gasket which is interposed between the contact surfaces of the housing body 1 and the cover 3 and seals between the contact surfaces. The gasket 9 includes bolts 10, 10 at the four corners of the housing body 1 and the cover 3, respectively. By being fastened with 10, ..., The contact surfaces of the housing body 1 and the cover 3 are pressed against each other to hermetically seal between them.

The air regulator configured as described above controls the flow rate of the intake air passing through the auxiliary air passage during the warm-up operation. Specifically, when the throttle valve is closed and the intake air is taken in through the auxiliary air passage, the electric heater 5A is energized. This allows
The bimetal 5 is gradually deformed and the shutter 7 is rotated,
The flow passage adjustment hole 7B is relatively displaced with respect to the passage portion 2 to adjust the flow passage area.

[Problems to be solved by the device]

By the way, in the conventional technology with the above-mentioned configuration, since the cover 3 is formed of resin, it has poor rigidity and is easily deformed. Therefore, when the cover 3 is fastened to the housing body 1 via the gasket 9 and the bolts 10 at the four corners thereof, a sufficient pressing force to the housing body 1 side is obtained at each bolt 10 portion. At the intermediate portion of the bolt 10, the cover 3 is bent and the pressing force on the housing body 1 side is weakened, and the airtightness at this portion deteriorates.

As a countermeasure for this, there is a method of using a liquid gasket instead of the gasket 9 and a method of using a metal material having high rigidity for the cover 3, but both of them have a problem that the cost increases.

The present invention has been made in view of the above-mentioned problems of the conventional art, and an object of the present invention is to provide an air regulator capable of ensuring airtightness between a housing body and a cover with a simple structure and without increasing the cost. .

[Means for Solving the Problems]

In order to solve the above-mentioned problems, the present invention employs a structure in which a housing body made of metal in which an outlet passage and a bimetal chamber are integrally formed, and the housing body is provided with a lid. A cover made of resin having an inlet passage formed at a position opposite to the opening, a bimetal provided in the bimetal chamber of the housing body and heated by an electric heater, and the outlet formed between the housing body and the cover. A shutter chamber interposed between the passage and the inlet passage and rotatably provided in the shutter chamber and rotated by the deformation of the bimetal to adjust the flow passage area between the outlet passage and the inlet passage. The shutter and a gasket that is interposed between the contact surfaces of the housing body and the cover and seals between the contact surfaces, and the upstream side and the downstream side of the throttle valve. An air regulator for adjusting the flow rate of bypass air flowing in the auxiliary air passage communicating bets, lies in the formed convexly said housing body side contacting surface of the cover.

[Action]

With the above configuration, the gasket is uniformly pressed between the entire convex contact surface of the flexible cover and the contact surface on the housing body side, so that the airtightness between the housing body and the cover is improved. Secure.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. Since the overall configuration of the air regulator of the present invention is almost the same as that of the above-mentioned conventional technique, here,
The same members are designated by the same reference numerals, and the description thereof will be omitted.

First, a first embodiment will be described with reference to FIGS. 1 and 2. In the drawings, 11 is a cover of this embodiment formed of, for example, phenolic resin, and the entire structure of the cover 11 is conventional. In the same manner as described above, it has an inlet passage 11A and has a recess 11B for forming the shutter chamber 4,
The contact surface 11C of the cover 11 with the housing body 1 side is
As shown in FIG. 2, the convex shape is formed so as to form a part of a spherical surface (a surface indicated by a chain line).

The present embodiment is configured as described above, but when the cover 11 is attached to the housing body 1, it becomes as follows.

The cover 11 has bolt holes 11D, 11D,
It is fastened to the housing main body 1 with the bolt 10 via.
On the other hand, of the contact surface 11C of the cover 11, the portions of the bolt holes 11D are at the farthest positions in the virtual spherical surface of FIG. Therefore, when the contact surface 11C of the cover 11 is pressed against the contact surface of the housing body 1, the contact surface of the housing body 1 is first contacted at the intermediate position 11C ₁ that is farthest from each bolt hole 11D. When the cover 11 bends as the bolt holes 11D are tightened by the bolts 10 and the bolt holes 11D contact the abutment surface of the housing body ₁ , the pressing force at each intermediate position 11C ₁ is the highest. It's getting higher. And
By fastening each bolt hole 11D part with each bolt 10,
The pressing force in this part becomes high and the cover as a whole
A uniform pressing force is exerted on the entire contact surface 11C of 11a.

As a result, the gasket 9 interposed between the housing body 1 and the cover 11 can be attached to the contact surface 11C of the cover 11 and the contact surface of the housing body 1 without particularly changing the structure and increasing the cost. It is possible to secure the airtightness between them by pressing uniformly in the entire area.

Next, a second embodiment of the present invention will be described with reference to FIG.

Reference numeral 21 denotes a resin-molded cover of the present embodiment, and the contact surface 21C of the cover 21 has an intermediate portion 21C ₁ of each bolt hole 21D.
When the cover 21 is fastened to the housing body 1 with the bolts 10, the contact surface 21C of the cover 21 has a uniform pressing force when the cover 21 is fastened to the housing body 1 by the bolts 10. Is configured to be obtained. Where height h
Is set to about 0.1 mm.

Also in this embodiment configured as described above, the same operation and effect as those of the first embodiment can be obtained.

[Effect of device]

As described in detail above, according to the present invention, since the housing body side contact surface of the resin cover is formed in a convex shape, the cover and the housing body are not particularly changed without increasing the structure. The gasket is fastened in a slightly bent state, and the gasket can be uniformly pressed over the entire convex contact surface of the cover to ensure airtightness.

[Brief description of drawings]

1 and 2 relate to a first embodiment of the present invention, FIG. 1 is a perspective view showing a cover of an air regulator, and FIG. 2 is an explanation showing a state of a contact surface of the cover of FIG. 3 and 4 are side views showing a cover as a second embodiment of the present invention,
4 and 5 relate to a conventional technique, FIG. 4 is a side view showing an air regulator, and FIG. 5 is a vertical sectional view of FIG. 1 ... Housing body, 1A ... Exit passage, 1B ... Bimetal chamber, 4 ... Shutter chamber, 5 ... Bimetal, 5A ...
Electric heater, 7 ... Shutter, 9 ... Gasket, 11,2
1 …… Cover, 11A …… Inlet passage, 11C, 21C …… Abutting surface.

Claims (1)

[Scope of utility model registration request] 1. A metal housing main body in which an outlet passage and a bimetal chamber are integrally formed, and a housing main body provided with a lid, and an inlet passage is formed at a position facing the outlet passage. A resin cover, a bimetal provided in the bimetal chamber of the housing body and heated by an electric heater, and a shutter formed between the housing body and the cover and interposed between the outlet passage and the inlet passage. A chamber, a shutter that is rotatably provided in the shutter chamber and that rotates by the deformation of the bimetal to adjust the flow passage area between the outlet passage and the inlet passage, and the housing body and the cover, respectively. And a gasket which is interposed between the contact surfaces of the throttle valve and seals between the contact surfaces of the throttle valve and the auxiliary air passage which communicates between the upstream side and the downstream side of the throttle valve. In the air regulator for adjusting the flow rate of air, the housing main body side contact surface of the cover is formed in a convex shape, and the gasket is uniformly pressed over the entire convex contact surface to ensure airtightness. An air regulator characterized by its construction.