JP2016099229A - Pressure devise - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pressure devise capable of ensuring connection reliability between a terminal on a pressure sensor and a connection part of an electronic substrate.SOLUTION: The pressure devise includes: a housing which has an oil path formed therein; a pressure sensor which is mounted on the one side of the housing for detecting the pressure in the oil path; an electronic substrate which has a connection part for making electrical connection with a terminal of the pressure sensor from one side of the housing; and a guide member for guiding the terminal of the pressure sensor to the connection part.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a pressure device.

  As this type of technique, a technique described in Patent Document 1 below is disclosed. Patent Document 1 discloses a brake fluid pressure control device having a built-in pressure sensor for detecting brake fluid pressure.

JP 2011-213175

Along with the downsizing of the pressure sensor, the terminals of the pressure sensor connected to the connection part of the electronic substrate are also downsized. For this reason, it has been difficult to ensure the connection reliability between the terminals of the pressure sensor and the connection portion of the electronic substrate.
The present invention has been focused on the above problems, and an object of the present invention is to provide a pressure device that can ensure the connection reliability between the terminal of the pressure sensor and the connection portion of the electronic substrate.

  In order to achieve the above object, in the present invention, a guide member for guiding the terminal of the pressure sensor with respect to the connection portion of the electronic board is provided.

  Therefore, in this invention, the connection reliability of the terminal of a pressure sensor and the connection part of an electronic board is securable.

1 is a schematic diagram of a brake fluid pressure control device according to Embodiment 1. FIG. FIG. 3 is a perspective view of the vicinity of a terminal guide according to the first embodiment. 2 is a side view of the vicinity of a terminal guide of Example 1. FIG. FIG. 3 is a schematic diagram showing a terminal guide, a pressure sensor, and an electronic substrate of Example 1. FIG. 3 is a schematic diagram showing a terminal guide, a pressure sensor, and an electronic substrate of Example 1. 6 is a schematic diagram showing a terminal guide, a pressure sensor, and an electronic substrate of Example 2. FIG. It is a schematic diagram which shows the terminal guide, pressure sensor, and electronic substrate of a comparative example. It is a schematic diagram of the brake fluid pressure control device of another embodiment. It is a schematic diagram of the brake fluid pressure control device of another embodiment. It is a schematic diagram which shows the terminal guide, pressure sensor, and electronic substrate of another Example.

Example 1
[Configuration of brake fluid pressure control device]
FIG. 1 is a schematic diagram of the brake fluid pressure control device 1. FIG. The brake fluid pressure control device 1 includes a housing 2 in which an oil passage is formed, a motor 8 that drives a pump that sucks and discharges brake fluid, a solenoid 10 that drives a solenoid valve 9 that opens and closes the oil passage, A pressure sensor 3 for detecting the brake fluid pressure in the oil passage, and an electronic board 5 on which a controller for controlling the motor 8 and the solenoid 10 are installed.
The electronic substrate 5 is held by the cover 7. The cover 7 is attached to one side surface of the housing 2. The motor 8 is attached to the other side surface of the housing 2 (an opposite surface to which the cover 7 is attached).

The housing 2 is provided with a motor shaft hole 2a penetrating from one side surface to the other side surface. A motor shaft 5a extending from the electronic board 5 is inserted into the motor shaft hole 2a. The electronic board 5 and the motor 8 are electrically connected by the motor shaft 5a. An O-ring 5b is attached to the motor shaft 5a. The O-ring 5b seals between the motor shaft 5a and the motor shaft hole 2a, and suppresses the brake fluid from flowing into the electronic substrate 5 side.
The pressure sensor 3 is provided with a terminal 3a extending to the electronic substrate 5 side. The terminal 3a is provided so as to be extendable and contractable in the axial direction. The terminal 3a is formed of a material that can be elastically deformed to some extent.
The electronic substrate 5 is provided with pads 4 that are electrically connected to the terminals 3a. A terminal guide 6 is formed on the cover 7. The terminal guide 6 guides the terminal 3a so as to contact the pad 4.

[Configuration of terminal guide]
FIG. 2 is a perspective view of the vicinity of the terminal guide 6. FIG. 3 is a side view of the vicinity of the terminal guide 6.
The terminal guide 6 is integrally formed with the cover 7. The terminal guide 6 is formed in a convex shape from the surface of the cover 7 toward the electronic substrate 5 side. The cover 7 is reduced in weight by partially removing the meat on the side surface of the terminal guide 6.
On the surface of the terminal guide 6 on the electronic substrate 5 side, four through holes 6a penetrating the surface are formed. The four terminals 3a of the pressure sensor 3 are inserted into the through holes 6a, respectively. Further, in a state where the cover 7 is assembled to the housing 2, the surface of the terminal guide 6 on the electronic substrate 5 side and the electronic substrate 5 are provided apart from each other.

[Positional relationship between terminal guides, terminals and pads]
FIG. 4 is a schematic diagram showing the terminal guide 6, the pressure sensor 3, and the electronic substrate 5. FIG. 5 is a schematic view of FIG. 4 viewed from the AA direction.
The distance a between the terminal guide 6 and the pad 4 is set to be smaller than the size of the foreign matter managed in the manufacturing process of the brake fluid pressure control device 1. The distance a is set to be smaller than the distance b between the adjacent pads 4. When the terminal 3a of the pressure sensor 3 is allowed to protrude and connect from the pad 4, the distance a is set to be smaller than the distance c of the through hole 6a of the adjacent terminal guide 6.

[Action]
With the downsizing of the brake fluid pressure control device 1, the pressure sensor 3 disposed in the brake fluid pressure control device 1 is also downsized. In order to reduce the size of the pressure sensor 3, the terminal 3a is also reduced in size. Therefore, it is difficult to ensure the connection between the terminal 3a and the pad 4.
Furthermore, when the brake fluid pressure control device 1 is completed, the pressure sensor 3 is disposed at a location surrounded by the housing 2 and the cover 7, so that the connection position between the terminal 3a and the pad 4 cannot be visually observed. Although it can be confirmed that an electrical connection is made by conducting an energization test, it cannot be confirmed whether or not the terminal 3a is connected within the specified range of the pad 4.
Further, if the terminal 3a is largely displaced, there is a possibility that a short circuit may occur due to the connection with the pad 4 different from the pad 4 to be originally connected. Further, there is a possibility that a foreign matter mixed in the brake fluid pressure control device 1 adheres between the plurality of pads 4 or between the plurality of terminals 3a, thereby causing a short circuit. These do not occur only when the brake fluid pressure control device 1 is assembled, but may occur due to vibration or the like after the brake fluid pressure control device 1 is mounted on the vehicle.
Therefore, in the first embodiment, the terminal guide 6 that guides the terminal 3a of the pressure sensor 3 with respect to the pad 4 is provided. Since the terminal guide 6 guides the terminal 3a to connect with the pad 4, the connection reliability between the terminal 3a and the pad 4 can be improved.

In the first embodiment, the terminal guide 6 is provided with a through hole 6a through which the terminal 3a of the pressure sensor 3 passes. Since the terminal guide 6 covers the periphery of the terminal 3a, it is possible to suppress the adhesion of foreign matters straddling the terminals 3a. Therefore, occurrence of a short circuit between the terminals 3a can be suppressed.
In the first embodiment, the surface of the terminal guide 6 on the electronic substrate 5 side and the electronic substrate 5 are provided apart from each other in a state where the cover 7 is assembled to the housing 2. Since the terminal guide 6 is separated from the electronic substrate 5, the terminal guide 6 can be prevented from pressing the electronic substrate 5. In addition, electronic components can be mounted on the electronic board 5 at a position overlapping the terminal guide 6, and a mounting area can be secured.

[effect]
(1) A housing 2 with an oil passage formed therein, a pressure sensor 3 that is attached to one side of the housing 2 and detects the pressure in the oil passage, and a terminal 3a of the pressure sensor 3 from one side of the housing 2 An electronic board 5 having a pad 4 (connection portion) for electrical connection, a terminal guide 6 (guide member) for guiding the terminal 3a of the pressure sensor 3 with respect to the pad 4,
Equipped with.
Therefore, the connection reliability between the terminal 3a and the pad 4 can be improved.
(2) The terminal guide 6 is provided with a through hole 6a through which the terminal 3a of the pressure sensor 3 passes.
Therefore, occurrence of a short circuit between the terminals 3a can be suppressed.

(3) It has a cover 7 that holds the electronic board 5 inside and can be attached to one side of the housing 2, and the terminal guide 6 is formed on the cover 7, and when the cover 7 is attached to the housing 2, the terminal guide 6 is It faces the electronic substrate 5 at a predetermined distance.
Therefore, it is possible to prevent the terminal guide 6 from pressing the electronic substrate 5. In addition, the mounting area of the electronic component on the electronic substrate 5 can be secured.
(4) A plurality of terminals 3a of the pressure sensor 3 are provided, a plurality of pads 4 are provided independently corresponding to the terminals 3a, and the distance between the terminal guide 6 and the electronic substrate 5 is determined by the pads 4 adjacent to each other of the pads 4. It was made shorter than the distance.
Therefore, it is possible to prevent the terminal guide 6 from pressing the electronic substrate 5. In addition, the mounting area of the electronic component on the electronic substrate 5 can be secured.

(Example 2)
A brake fluid pressure control device 1 according to the second embodiment will be described. The second embodiment is different from the first embodiment in the shape of the terminal guide 6. The same configurations as those of the first embodiment are denoted by the same reference numerals and description thereof is omitted.
[Configuration of terminal guide]
FIG. 6 is a schematic diagram showing the terminal guide 6, the pressure sensor 3, and the electronic substrate 5. The through hole 6a of the terminal guide 6 is formed with a tapered surface 6b in which the opening area on the pressure sensor 3 side (the base side of the terminal 3a) is larger than the opening area on the pad 4 side (the tip side of the terminal 3a). ing.

[Action]
FIG. 7 is a schematic diagram showing a terminal guide 6, a pressure sensor 3, and an electronic substrate 5 as comparative examples. In FIG. 7, the through hole 6a of the terminal guide 6 is formed so that the opening area on the pressure sensor 3 side and the opening area on the pad 4 side are the same.
In the comparative example, when the terminal 3a is inserted into the through hole 6a, if the position of the terminal 3a is greatly displaced, the terminal 3a may come into contact with the surface where the through hole 6a is open. Since the terminal 3a is provided so as to be expandable and contractable in the axial direction, the terminal 3a contracts when the terminal 3a contacts the surface. Therefore, the terminal 3a does not penetrate through the through hole 6a, and the terminal 3a and the pad 4 do not contact each other.
If the diameter of the through-hole 6a is increased, the possibility that the terminal 3a abuts on the surface where the through-hole 6a is open even if the position of the terminal 3a is shifted is reduced. However, there is a high possibility that the terminal 3a is displaced from the pad 4.

Therefore, in Example 1, the through hole 6a of the terminal guide 6 is formed so that the opening area on the pressure sensor 3 side is larger than the opening area on the pad 4 side. Therefore, as shown in FIG. 6, when the terminal 3a is inserted into the through hole 6a, even if the position of the terminal 3a is greatly displaced, the terminal 3a bends along the tapered surface 6b, and the terminal 3a becomes the pad 4. Can be directed towards.
Further, since the opening area of the through hole 6a on the pad 4 side is small, the moving range of the terminal 3a is narrow, and the pad 4 can be formed small. Therefore, the mounting area of the electronic component on the electronic substrate 5 can be ensured. Further, since the distance to the adjacent pad 4 or the distance to the other terminal 3a can be increased, the occurrence of a short circuit can be suppressed.

[effect]
(5) The through hole 6a of the terminal guide 6 is provided with a tapered surface 5b (guide surface) for guiding the terminal 3a of the pressure sensor 3 by elastic deformation.
Therefore, when the terminal 3a is inserted into the through hole 6a, even if the position of the terminal 3a is greatly displaced, the terminal 3a can be bent along the tapered surface 6b, and the terminal 3a can be guided toward the pad 4. .
(6) The through hole 6a has a larger opening area on the base side of the terminal 3a than the opening area on the tip side, and is provided with a tapered surface 6b between both openings of the through hole 6a.
Therefore, when the terminal 3a is inserted into the through hole 6a, even if the position of the terminal 3a is greatly displaced, the terminal 3a can be bent along the tapered surface 6b, and the terminal 3a can be guided toward the pad 4. .

[Other Examples]
As described above, the present invention has been described based on the first embodiment and the second embodiment. However, the specific configuration of each invention is not limited to the first and second embodiments and does not depart from the gist of the present invention. Such design changes are included in the present invention.

(Other Example 1)
Another brake fluid pressure control apparatus according to the first embodiment will be described. About the same structure as Example 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.
[Configuration of brake fluid pressure control device]
FIG. 8 is a schematic diagram of the brake fluid pressure control device 1. In the first embodiment, the pad 4 is provided on the electronic substrate 5. In contrast to the configuration of Example 1, the pad 4 is provided on the cover 7. The pad 4 and the electronic substrate 5 are wired and electrically connected.
Since the pad 4 is connected to the terminal 3a of the pressure sensor 3, a certain area is required. Since the pads 4 are not on the electronic substrate 5, an area for mounting electronic components on the electronic substrate 5 can be secured.

(Other Example 2)
Another brake fluid pressure control apparatus according to the second embodiment will be described. About the same structure as Example 1, the same code | symbol is attached | subjected and description is abbreviate | omitted.
[Configuration of brake fluid pressure control device]
FIG. 9 is a schematic diagram of the brake fluid pressure control device 1. In the first embodiment, the terminal guide 6 is provided apart from the electronic substrate 5. In contrast to the configuration of Example 1, the terminal guide 6 covers the pad 4 on the electronic substrate 5.
As a result, it is possible to suppress adhesion of foreign matter straddling between adjacent pads 4. Therefore, occurrence of a short circuit between the terminals 3a can be suppressed.

(Other Example 3)
Another brake fluid pressure control apparatus of Example 3 will be described. About the same structure as Example 1 and Example 2, the same code | symbol is attached | subjected and description is abbreviate | omitted.
[Configuration of terminal guide]
FIG. 10 is a schematic diagram showing the terminal guide 6, the pressure sensor 3, and the electronic substrate 5. FIG. In the second embodiment, the terminal 3a of the pressure sensor 3 is bent along the tapered surface 6b, and the terminal 3a is guided toward the pad 4. In contrast to the configuration of the second embodiment, the terminal 3a is configured to move to some extent from the base, and the terminal 3a is moved along the tapered surface 6b.

2 Housing
3 Pressure sensor
3a terminal
4 Pad (connection part)
5 Electronic board
5b Tapered surface (guide surface)
6 Terminal guide (guide member)
6a Through hole
7 Cover

Claims (6)

A housing having an oil passage formed therein;
A pressure sensor attached to one side of the housing for detecting the pressure in the oil passage;
An electronic board provided with a connection portion for performing electrical connection with a terminal of the pressure sensor from one side of the housing;
A guide member for guiding the terminal of the pressure sensor with respect to the connecting portion;
A pressure device comprising: The pressure device according to claim 1.
The pressure device, wherein the guide member has a through hole through which the terminal passes. The pressure device according to claim 2.
The pressure device according to claim 1, wherein the through hole of the guide member is provided with a guide surface for elastically deforming and guiding a terminal of the pressure sensor. The pressure device according to claim 3,
The pressure device characterized in that the through hole has an opening area on the base side of the terminal larger than an opening area on the tip side, and the guide surface has a tapered surface between both openings of the through hole. The pressure device according to claim 1.
A cover that holds the electronic board inside and is attached to one side of the housing;
Forming the guide member on the cover;
The pressure device according to claim 1, wherein when the cover is attached to the housing, the guide member faces a position having a predetermined distance from the electronic substrate. The pressure device according to claim 5,
A plurality of the terminals are provided, and a plurality of the connection portions are provided independently corresponding to the terminals,
The pressure device, wherein the predetermined distance is shorter than a distance between adjacent connection portions of the connection portion.

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