JPH0730965Y2 - Diaphragm actuator - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (1) Purpose of the Invention [Field of Industrial Application] The present invention relates to a diaphragm actuator.

[Prior Art] In the diaphragm actuator described in Japanese Utility Model Publication No. 62-46820, the bearing (guide bush) that supports the rod is composed of a low friction material and a tubular rubber elastic material. Therefore, according to this conventional technique, when the diaphragm actuator is installed in a high temperature device such as a turbocharger and used in a high temperature environment, the elastic material may be thermally deteriorated in a short period of time.
In addition, in order to prevent biting between the rod and the bearing, this type of actuator is generally required to operate so as to follow the bearing within a range in which the bearing does not lose its bearing function when the rod swings. According to the above-mentioned prior art, since the follow-up operation of the bearing is made solely by the elastic deformation of the elastic material, when the elastic material is thermally deteriorated as described above, the follow-up operation is not accurately performed, and Or there is a risk of malfunction occurring due to this.

[Problems to be Solved by the Invention] In view of the above points, an object of the present invention is to provide a diaphragm actuator having a structure that suppresses thermal deterioration of a bearing constituent member and easily follows a swing of a rod.

(2) Configuration of the Invention [Means for Solving the Problems] In order to achieve the above object, a diaphragm actuator of the present invention supplies pressure to an inner section of a housing in which a diaphragm is installed to connect the diaphragm to the diaphragm. In the diaphragm actuator in which the rod is supported by a bearing provided in the housing, and the bearing is held by the holding portion from the outer peripheral side thereof, the bearing is held by the holding portion. Between a bearing housing made of a heat-resistant material in which the rod is slidably inserted and an inner peripheral surface of the holding portion functioning as an outer race and an outer peripheral surface of the bearing housing functioning as an inner race. It was decided to have a required number of heat-resistant bearing balls inserted in the gap.

[Operation] In the diaphragm actuator of the present invention having the above-mentioned configuration, the bearing housing and the bearing balls that form the bearing are formed of a heat-resistant material, so that the required heat resistance is secured and the rod is Since the bearing housing slidably inserted is supported by the holding portion via the bearing balls, the bearing housing follows the swing of the rod within the range in which the bearing balls roll.

[Embodiment] Next, an embodiment of the diaphragm actuator according to the present invention will be specifically described with reference to the accompanying drawings.
However, the embodiments described below are provided for the purpose of facilitating the understanding of the present invention and not for limiting the present invention.

FIG. 1 is a cross-sectional view showing an embodiment of a diaphragm actuator according to the present invention, showing a case where the diaphragm actuator is mounted on a turbocharger as a wastegate actuator for adjusting supercharging pressure.

First, referring to FIG. 1, the configuration of an embodiment of the diaphragm actuator according to the present invention will be described in detail. Reference numeral 10 denotes a diaphragm actuator according to the present invention, which is mounted on a turbocharger 20 so as to control a wastegate (that is, an actuated body) as a wastegate actuator for adjusting supercharging pressure. .

The diaphragm actuator 10 is a turbocharger 20.
A housing 11 composed of a housing half 11A mounted on the outer surface of the housing 11 and a housing half 11B crowned to the housing half 11A; and a housing 11 disposed in the housing 11 The space is divided into the first section 12 and the second section
A diaphragm 14 that is divided into 13 parts, a spring holding body 15 that is disposed with respect to the diaphragm 14, and an inner wall surface of the housing 11 that is held between the spring holding body 15 and the inner wall surface of the housing 11. The provided spring 16 and one end is fixed to the spring holder 15 and the other end is the second
Opening of housing half 11A (that is, rod penetrating portion) 1 adjacent to turbocharger 20 after crossing compartment 13
And a rod 18 extending from 7 toward the outside of the housing 11 toward the turbocharger 20 . 30 is provided in the opening portion (that is, rod penetrating portion) 17 of the housing half body 11A for supporting the rod 18 and suppressing the swinging of the rod 18 in the lateral direction (that is, the direction orthogonal to the extension direction thereof). Bearing half, housing half 11A
Of the bearing housing half 31a attached to the peripheral surface of the rod 18 near the inside of the opening (that is, the rod penetrating portion) 17 and of the bearing housing half 31a attached to the peripheral surface of the rod 18. Rod 1 for concave end face
The other bearing housing half body 31b, which is joined by indenting the end face convex portion from the extension direction of 8, and the bearing housing half body 31A formed by joining the bearing housing half bodies 31a, 31b (that is, "Inner race"
Bearing ball 31 arranged against the part that functions as)
c and a bearing holding member 31d which is arranged with respect to the inner surface of the housing 11A and whose inner peripheral surface (that is, a portion which functions as an “outer race”) holds a bearing ball 31c between the inner peripheral surface and the peripheral surface of the bearing housing 31A. Have a wrap.

The bearing housing 31A (that is, the bearing housing halves 31a and 31b) and the bearing balls 31c are formed of an appropriate heat resistant material in order to reduce or suppress the influence of heat given from the turbocharger 20 . If this heat-resistant material is fluorine resin, bearing 30
Since the frictional resistance can be greatly reduced, the lateral swing of the rod 18 can be suppressed even better.

Further, referring to FIG. 1, the operation of one embodiment of the diaphragm actuator according to the present invention will be described in detail.

A first section 12 from a pressure source (not shown) via a communication pipe 19
When the applied pressure P is less than the predetermined pressure value P ₁ , the spring 16 is in the fully extended state.
As a result, the rod 18 is fully retracted into the housing 11 while being supported by the bearing 30 , and the rod 18 is in the first stable state in which the retracted amount is large. Therefore, in the turbocharger 20 , the waste gate is, for example, in a state where it is widely opened.

A first section 12 from a pressure source (not shown) via a communication pipe 19
When the pressure P applied to the spring 16 exceeds the predetermined pressure value P ₁ , the spring 16 gradually starts to contract, and when the pressure P reaches or exceeds the predetermined pressure value P ₂ , the spring 16 is sufficiently contracted. It becomes a state. Therefore, the rod 18 is supported by the bearing 30 and gradually protrudes in the direction of the arrow A ₁ as compared with FIG. 1, and the rod 18 is in the second stable state in which the retracted amount is small. Therefore, in the turbocharger 20 , the wastegate is in a state of being opened, for example, small.

On the other hand, the pressure P applied to the first section 12 from the pressure source (not shown) via the communication pipe 19 is the predetermined pressure value.
When the pressure P decreases below P ₂ , the diaphragm 14 is pressed and moved upward (that is, in the direction of arrow A ₂ ) by the spring force of the spring 16. When the pressure P becomes less than the predetermined pressure value P ₁ , the spring 16 returns to the fully extended state. As a result, the rod 18 is supported by the bearing 30 and its retracted amount increases, and the rod 18 returns to the first stable state. Therefore, in the turbocharger 20 , the wastegate is in a state where it is opened again again.

In the above, bearing housing 31A (ie bearing housing halves 31a, 31b) and bearing balls 3
Since both 1c are made of a heat-resistant material, the bear ring 30 does not deteriorate in heat resistance property for a long period of time even when exposed to the heat given from the turbocharger 20 , and the bearing 30 is laterally aligned with the rod 18. Can be suppressed. If the heat-resistant material is particularly a fluorine-based resin, the bearing 30 can significantly reduce the frictional resistance, so that the lateral swing of the rod 18 can be further suppressed.

The bearing 30 is housed in the bearing holding member 31d after the bearing housing half 31b is attached to the rod 18 from the other end, and then the bearing holding member 31d.
Insert the bearing balls 31c between the inner peripheral surface of the bearing housing half body 31b and the inner peripheral surface of the bearing housing half body 31b, and finally attach the bearing housing half body 31a to the rod 18 from the other end. 31b is assembled by moving in the extension direction until it is fitted into the convex portion of the end surface of 31b and coupled. As a result, the diaphragm actuator 10 according to the present invention is easily assembled. Further, since the bearing housing 31A in which the rod 18 is slidably inserted is supported by the bearing holding member 31d via the bearing ball 31c, this bearing housing 31A can be used within a range in which the bearing ball 31c rolls. 18
Follow the swing of. Therefore, the bearing housing 31A and the rod 18 are less likely to bite, and the malfunction is less likely to occur due to this biting.

In the above description, the first partition 12 of the first partition 12 and the second partition 13 partitioned by the diaphragm 14 is used.
Although the pressure of the first section 12 and the second section is not limited to this, the present invention is not limited to this.
It is sufficient that the pressure of at least one of the compartments 13 can be appropriately changed by an appropriate means.

Further, the spring 16 is disposed in the second compartment 13, but the present invention is not limited to this, and may be disposed in the first compartment 12 if desired, and if desired. It may be arranged in both the first compartment 12 and the second compartment 13.

(3) Effects of the Invention The present invention has the following effects. That is, since the bearing housing and the bearing balls that form the bearing are made of a heat-resistant material, necessary heat resistance can be secured and thermal deterioration of these can be prevented. Therefore, a product having excellent heat resistance can be provided. Further, since the bearing housing in which the rod is slidably inserted is supported by the holding portion via the bearing ball, this bearing housing follows the swing of the rod within the range in which the bearing ball rolls. . Therefore, it is possible to provide a product in which the rod and the bearing are less likely to bite and malfunctions due to the biting are less likely to occur even if only this shape configuration is taken.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of such a diaphragm actuator of the present invention. 10 …… Diaphragm actuator 11 …… Housing 11A, 11B …… Housing half 11a …… Vent hole 12 …… First compartment 13 …… Second compartment 14 …… Diaphragm 15 …… Spring holder 16 …… Spring 17 …… Rod penetration 18 …… Rod 19 …… Communication pipe 20 …… Turbocharger 30 …… Bearing 31A …… Bearing housing 31a, 31b …… Bearing housing half 31c …… Bearing ball 31d …… Bearing holding member

Claims (1)

[Scope of utility model registration request] 1. A diaphragm (14) and a rod (18) connected to the diaphragm (14) connected to the diaphragm (14) by supplying pressure to internal compartments (12) (13) of a housing (11). A diaphragm actuator which is operated to support the rod (18) by a bearing (30) provided in the housing (11) and holds the bearing (30) from an outer peripheral side thereof by a holding portion (31d) ( In 10), a bearing housing (31A) made of a heat-resistant material in which the bearing (30) is held by the holding portion (31d) and the rod (18) is slidably inserted, and an outer race. Bearing balls (31c) made of a heat-resistant material, inserted in a gap between the inner peripheral surface of the holding portion (31d) and the outer peripheral surface of the bearing housing (31A) functioning as an inner race. Be equipped with Diaphragm actuator which is characterized.