This application claims priority to Japanese patent application serial number 2008-278266, the contents of which are incorporated herein by reference.
1. Field of the Invention
The present invention relates to a device for mounting an accessory component on a canister so that the accessory component can communicate with the canister filled with an adsorption material for adsorbing fuel vapor generated within a fuel tank.
2. Description of the Related Art
A known device for mounting an accessory component on a canister is disclosed, for example, in Japanese Laid-Open Patent Publication 2006-308045. As shown in
However, the known mounting device for mounting an accessory component, such as the electromagnetic valve 107, with bolts on the canister 100 requires troublesome tightening operations of bolts and a number of assembling steps. More specifically, if weight of the accessory component is heavy, it is necessary to increase the number of bolts to stably fix the accessory component to the canister. Accordingly, required assembling steps for mounting the accessory component may be increased.
Therefore, there is a need in the art for a mounting device that can stably fix an accessory component to a canister.
One aspect according to the present disclosure includes a first coupling device and a second coupling device. The first coupling device can mechanically coupling the canister and the accessory component to each other. The second coupling device can couple the canister and the accessory component to allow flow communication with each other. The second coupling device is operable in conjunction with the operation of the first coupling device.
Each of the additional features and teachings disclosed above and below may be utilized separately or in conjunction with other features and teachings to provide improved devices for mounting accessory components to canisters. Representative examples of the present disclosure, which examples utilize many of these additional features and teachings both separately and in conjunction with one another, will now be described in detail with reference to the attached drawings. This detailed description is merely intended to teach a person of skill in the art further details for practicing preferred aspects of the present teachings and is not intended to limit the scope of the invention. Only the claims define the scope of the claimed invention. Therefore, combinations of features and steps disclosed in the following detailed description may not be necessary to practice the invention in the broadest sense, and are instead taught merely to particularly describe representative examples of the invention. Moreover, various features of the representative examples and the dependent claims may be combined in ways that are not specifically enumerated in order to provide additional useful embodiments of the present teachings.
In one embodiment, a mounting device for mounting an accessory component to a canister may enable to communicate between the accessory component and the canister. The canister is filled with an adsorption material for adsorbing fuel vapor generated within a fuel tank. The mounting device includes a communicating pipe receiver and an outer wall provided on the canister. The communicating pipe receiver is connectible to a communicating pipe of the accessory component. The outer wall surrounds the communicating pipe receiver. The communicating pipe is connected to the communicating pipe receiver as a housing of the accessory component is fitted into the outer wall of the canister in an axial direction of the communicating pipe. An engagement mechanism is provided between the outer wall of the canister and the housing of the accessory component. The engaging mechanism can elastically engage the outer wall of the canister and the housing of the accessory component with each other and can fix the accessory component to the canister when the housing of the accessory component is fitted into the outer wall to reach a predetermined position.
According to this arrangement, the engagement mechanism is provided between the outer wall of the canister and the housing of the accessory component. As the housing is fitted into the outer wall of the canister by a predetermined depth, the engaging mechanism elastically engages to fix the accessory component to the canister. In addition, as the housing is fitted into the outer wall of the canister 20 by the predetermined depth, the communicating pipe of the accessory component is connected to the communicating pipe receiver of the canister.
In this way, the housing of the accessory component may be fixed to the canister by fitting the housing into the outer wall of the canister by a predetermined depth. Therefore, the number of steps required for assembling the accessory component to the canister may be reduced compared to that required for fixing the accessory component to the canister with bolts. Further, because the accessory component is fitted into the outer wall of the canister, the accessory component may be stably fixed to the canister even in the case that the weight of the accessory component is heavy.
In another embodiment, the accessory component mounting device may further include a projection formed on an outer peripheral surface of the housing of the accessory component and extending parallel to the axial direction of the communicating pipe and a concave formed on an inner peripheral surface of the outer wall of the canister and extending parallel to the axial direction of the communicating pipe. The concave is positioned to correspond to a position of the projection for engagement with the projection.
Therefore, by fitting the housing of the accessory component into the outer wall of the canister in such a way that the projection of the housing is aligned with the concave of the outer wall of the canister, it is possible to eliminate improper assembling.
The projection of the housing may be constituted by a port of the accessory component.
A plural number of linear protrusions may be formed on the outer peripheral surface of the housing of the accessory component. Outer end surfaces of the linear protrusions may contact with the inner peripheral surface of the outer wall of the canister. Due to these protrusions, shifting movement of the accessory component relative to the outer wall of the canister can be prevented.
A device for mounting an accessory component on a canister according to a first embodiment of the present disclosure will now be described with reference to
A fuel vapor processing apparatus 10 can prevent fuel vapor generated in a fuel tank T from leaking into the atmosphere. As shown in
As shown in
When the engine is not operating, the fuel vapor within the fuel tank T is introduced into the canister 20 via the fuel vapor passage 14 and can be adsorbed by the adsorption material 12. Because the electromagnetic valve 16v of the purge passage 16 is closed when the engine is not operating, the fuel vapor inside the canister 20 does not leak out into the intake air passage of the engine.
The electromagnetic valve 16v opens when the engine is operating and air inside the canister 20 is drawn into the intake air passage via the purge passage 16. Accordingly, air flows into the canister 20 via the atmospheric passage 18, the pump unit 30 and the atmospheric port 23, and then purges the fuel vapor adsorbed by the adsorption material 12. Thereafter, the purged fuel vapor and air are drawn into the intake air passage of the engine.
According to this device, the fuel vapor generated inside the fuel tank T can be prevented from leaking into the atmosphere. The leak check of the fuel vapor processing apparatus 10 is performed at a pre-determined timing when the engine is not operating. During the leak check, the pump unit 30 operates to eject the air inside the canister 20 to outside via the atmospheric passage 18. At that time, the inside pressures of the canister 20, the fuel vapor passage 14 and the purge chancel 16 become negative. The leak check for the fuel vapor processing apparatus 10 is performed by monitoring the negative pressure inside the canister 20 during a predetermined period of time.
As shown in
The pump housing 31 is formed to have a substantially prismatic box-shaped configuration. A short communicating pipe 36 for connecting to the atmospheric port 23 of the canister 20 is formed on a bottom surface 31d of the pump housing 31 at a substantially central position of the bottom surface 31d and projects downwardly therefrom. As shown in
An outer peripheral surface of the pump housing 31 is constituted with a first peripheral surface 311, a second peripheral surface 312, a third peripheral surface 313, a fourth peripheral surface 314 and a concaved surface 315 formed between the second peripheral surface 312 and the third peripheral surface 313. The aforementioned outlet port 33 is positioned at a corner between the first peripheral surface 311 and the fourth peripheral surface 314.
A pair of vertical protrusions 31t extending linearly in the vertical direction respectively are formed on each of the first periphery surface 311, the third periphery surface 313 and the forth periphery surface 314. When the pump housing 31 is fitted into the canister 20 as will be explained later, the vertical protrusions 31 can be positioned within a space formed between the inner peripheral surface of an outer wall 200 (explained below) of the canister 20 and the outer peripheral surface of the pomp housing 31, so that the pump housing 31 can be prevented from shifting moving relative to the canister 20 in the radial direction. As shown in
As shown in
A shelf-shaped engaging step portion 320 is formed on a substantially central portion of each of the second peripheral surface 312 and the fourth peripheral surface 314 of the pump housing 31. The engaging step portions 320 can engage with engaging openings 222 formed in the outer wall 200 of the canister 20. As shown in
The communicating short pipe 36 formed on the pump housing 31 may be inserted into and connected to the atmospheric port 23 (see
As shown in
As shown in
The engaging openings 222 for engaging the engaging step portions 320 of the pump housing 31 are formed at positions proximal to the base ends of the spring plates 213 and each has a substantially square configuration. The engaging openings 222 are positioned to be able to engage the engaging step portions 320 of the pump housing 31 when the pump housing 31 is fitted into the outer wall 200 and the communicating short pipe 36 is inserted into and connected with the atmospheric port 23.
As shown in
During the fitting process of the pump unit 30, the inclined surfaces 31k of the vertical protrusions 31t formed on the outer peripheral surfaces of the pump unit 30 (the pump housing 31) may first contact the inner side of the upper end of the outer wall 200 of the canister 20 and may then slide thereon. Due to this, the pump unit 30 can be positioned relative to the outer wall 200 of the canister 20 with respect to a radial direction of the communicating short pipe 36. As the fitting process of the pump unit 30 further proceeds, end surfaces (outer end surfaces) of the vertical protrusions 31t and the horizontal protrusion 31y formed on the outer peripheral surface of the pump unit 30 are brought to contact with the inner peripheral surface of the outer wall 200. Under this condition, the communicating short pipe 36 of the pump unit 30 and the atmospheric port 23 of the canister 20 are held to extend along the same axis.
Accordingly, it is possible to fit the pump unit 30 into the outer wall 200 of the canister 20 and concurrently to insert the communicating short pipe 36 of the pump unit 30 into the atmospheric port 23 of the canister 20 for connection therewith.
Further, during the fitting process of the pump unit 30, the ribs 325 of the engaging step portions 320 of the pump unit 30 push the spring plates 213 of the outer wall 200 of the canister 20 against the elastic force, so that the spring plates 213 are outwardly opened. When the communicating short pipe 36 of the pump unit 30 is inserted into the atmospheric port 23 of the canister 20 by a predetermined depth, the engaging step portions 320 of the pump unit 30 reach to the positions to be opposed to the engaging openings 222 of the spring plate 213 and then the spring plates 213 are returned back to the original positions due to the elastic force. Becuase of this, as shown in
The engaging step portions 320 of the pump unit 30 (the pump housing 31), the spring plates 213 formed on the outer wall 200 of the canister 20, and the engaging openings 222 constitute an engaging mechanism.
According to the pump unit mounting device of the first embodiment, the engagement mechanism (constituted by the engaging step portions 320, the spring plates 213, and the engaging openings 222) is provided between the outer wall 200 of the canister 20 and the pump housing 31 of the pump unit 30. As the pump unit 30 (the pump housing 31) is fitted into the outer wall 200 of the canister 20 by a predetermined depth, that the engaging mechanism elastically engages the pump unit 30 with the outer wall 200 and fixes the pump unit 30 to the canister 20. In addition, as the pump unit 30 is fitted into the outer wall 200 of the canister 20 by the predetermined depth, the communicating short pipe 36 is connected to the atmospheric port (a communicating pipe receiver) 23 of the canister 20.
In this way, the pump unit 30 may be fixed to the canister 20 by fitting the pump unit 30 into the outer wall 200 of the canister 20 by a predetermined depth, the number of steps required for assembling the pump unit 30 to the canister 20 may be reduced compared to that required for fixing the pump unit 30 to the canister 20 with bolts. Further, because the pump unit 30 is fitted into the outer wall 200 of the canister 20, the pump unit 30 may be stably fixed to the canister 20 even in the case that the weight of the pump unit 30 is heavy.
In addition, the outlet port 33 (a projection) extending in the axial direction of the communicating short pipe 36 is formed on the outer peripheral surface of the pump unit 30, and the concave 203 is formed on the inner periphery surface of the outer wall 200 of the canister 20 at a location corresponding to the outlet port 33 of the pump unit 30. Therefore, by fitting the pump unit 30 into the outer wall 200 of the canister 20 in such a way that the outlet port 33 of the pump unit 30 is aligned with the concave portion 203 of the outer wall 200 of the canister 20, it is possible to eliminate improper assembling.
Further, a plural number of protrusions 31t and 31y are formed on the outer peripheral surface of the pump unit 30 on opposite sides with respect to the center of the pump unit 30 and can contact the inner peripheral surface of the outer wall 200 of the canister 20. Accordingly, the protrusions 31t and 31y can prevent potential shifting movement of the pump unit 30 relative the outer wall 200 of the canister 20.
The present invention may not be limited to the above-described embodiment but may be modified in various ways. For example, the pump unit 30 is described as an example of accessory components of the canister 20 in the present embodiment. However, it is also possible to apply the present disclosure to a mechanism for mounting the electromagnetic valve 16v of the purge passage 16 to the purge port 22 of the canister 20. In such a case, the purge port 22 of the canister 20 corresponds to the communicating pipe receiver and the outer wall 200 is formed to surround the purge port 22. The present disclosure may also be applied to a mechanism for mounting an air filer to a corresponding port of the canister 20.
In the above embodiment, the engaging step portions 320 are formed on the pump unit 30, and the spring plates 213 and the engagement openings 222 are formed on the outer wall 200 of the canister 20. However, it is possible to form the spring plates 213 and the engagement openings 222 on the pump unit 30, and to form the engaging step portions 320 on the outer wall 200 of the canister 20.
Further, the vertical protrusions 31t and horizontal protrusion 31y are formed on the outer peripheral surface of the pump unit 30 in the above embodiment. However, the horizontal protrusion 31y may be replaced with vertical protrusion 31t so that all the protrusions are provided as the vertical protrusions 31t. Alternatively, the vertical protrusions 31t may be replaced with horizontal protrusions 31y so that all the protrusions are provided as the horizontal protrusions 31y.
Number | Date | Country | Kind |
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2008-278266 | Oct 2008 | JP | national |