JP2010007509A - Tank integrated pump - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a tank integrated pump easily and certainly coupling a tank to a pump housing. <P>SOLUTION: On the opposed surface side of the pump housing 1 and the tank 2, a hook 8 is provided to either of the pump housing 1 and the tank 2 and an engaging part 11 is provided at the other thereof. The pump housing 1 and the tank 2 have parts 9 to be clamped and a clip 14 forming lock mechanisms on a side opposite to the hook 8 and the engaging part 11 across a port or a cylindrical part 7 forming a flow path. Meanwhile, the coupled state of the pump housing 1 and the tank 2 is maintained by the lock mechanisms 9, 14 while the tank 2 is rotatable with respect to the pump housing 1 with the engaging part 11 engaged with the hook 8 and an engaged state is maintained by the hook 8 and the engaging part 11. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a pump for use in a power steering device of a vehicle and the like, and relates to a tank integrated pump in which a tank for storing a working fluid is attached to a pump housing.

Conventionally, there is a pump in which a fluid tank is integrated. Usually, such a pump is formed by separately forming a tank and a pump housing and connecting them later.
For example, a method described in Patent Document 1 is known as a method for easily connecting a tank and a pump housing.
As shown in FIG. 4, the coupling method is such that the pump housing 1 and the tank 2 are opposed to each other, and a pair of collar portions 3, 4 are protruded on both sides of the pump housing 1. 5 and 6 are provided.
And when the pump housing 1 and the tank 2 are joined, the said collar parts 3 and 4 and the collar parts 5 and 6 can be made to correspond. The tank 2 is coupled to the pump housing 1 by sandwiching the collar parts 3 and 4 and the collar parts 5 and 6 that are matched in this way with clips C1 and C2.
JP 2006-46348 A

  In the conventional tank-integrated pump, when the pump housing 1 and the tank 2 are coupled, it is necessary to sandwich the flange portions with the clips C1 and C2 from both sides of the opposing surface, but the flange portions on both sides are clipped with the clip C1. , C2 is opposite to the direction in which the tank 2 is attached to the pump housing 1, and the attachment directions of the clips C1 and C2 are also opposite. Therefore, it is difficult to hold them at the same time, which takes time and effort. In particular, since a seal member such as an O-ring is provided on the opposing surface of the pump housing 1 and the tank 2, forces in directions away from each other may act on the opposing surface due to the repulsive force of the seal member. Therefore, after applying a force to counter the repulsive force with a hand or a jig so that the collar portions 3 and 5 are closely aligned, the clip C1 is further fitted from a direction 90 ° different from the direction in which the flange portions 3 and 5 are combined. There must be.

  As described above, in the state where the repulsive force of the seal member is acting, when one of the collar portions 3 and 5 is first sandwiched between the clips C1, the collar portions 4 on the opposite side of the collar portions 3 and 5 are disposed. There may be a larger opening between the six. For this reason, the flange portions 4 and 6 on the side to be sandwiched later must be brought into close contact with a larger force and then sandwiched with the other clip C2.

That is, the conventional tank-integrated tape pump has a problem in that it takes time to connect the tank 2 and the pump housing 1 and the assembly workability is poor.
An object of the present invention is to provide a tank-integrated pump capable of easily and reliably coupling a pump housing and a tank.

  1st invention is provided with the pump housing and the tank couple | bonded with this pump housing, a port is provided in either the said pump housing or a tank, and the cylinder part which fits in this port is provided in either one, These ports In the tank-integrated pump in which a fluid path is supplied from the tank to the pump housing in combination with the cylinder portion, on the opposite surface side of the pump housing and the tank and on either the pump housing or the tank A hook part is provided, and a latching part that is detachably latched on the hook part is provided on the other, and the pump housing and the tank are opposite to the hook part and the latching part with the port or the cylinder part interposed therebetween, respectively. A lock mechanism is provided on the side, while the hook is hooked on the hook and the The tank is rotatable with respect to the housing, and when the pump housing and the tank are connected, the hook mechanism and the latching portion maintain the latched state while the pump mechanism and the tank are It is characterized in that it is configured to maintain a combined state.

The second invention is based on the first invention, and the locking mechanism is provided on either the pump housing or the tank, the clip provided rotatably on the pump housing or the tank, and the pump housing or the tank. It is characterized in that it consists of a sandwiched portion that is sandwiched between clips.
3rd invention presupposes the said 1st or 2nd invention, and the said locking mechanism is located inside the side surface of a pump housing and the side surface of a tank in the state which maintained the coupling | bonding state of a pump housing and a tank. It is characterized in that it is configured as follows.

A fourth invention is based on the first invention, and the lock mechanism includes a sandwiched portion provided to project from each of the pump housing and the tank, and a sandwiching means for sandwiching the sandwiched portion. When the latching portion is latched on the portion and the opposing surfaces of the pump housing and the tank are overlapped, the both sandwiched portions overlap each other.
According to a fifth aspect of the present invention, a seal member is provided between the opposed surfaces of the pump housing and the tank, around the port or the cylinder portion, and the latch portion is hooked on the hook portion. It is characterized in that the seal member is elastically deformed when the coupling state between the tank and the tank is maintained.

According to the first to fifth inventions, if the hook portion is hooked on the hook portion, the hooked state is maintained. In this state, the tank is rotated with respect to the pump housing, and the hook portion and the hook portion are held. The locking mechanism on the side opposite to the stopper can be easily locked via the cylinder.
The pump of the conventional example requires the work of pinching the collar part twice from the direction different from the pressing direction for matching the collar parts with the clip while performing the work of closely fitting the corresponding collar parts. However, according to the present invention, only one locking operation by the locking mechanism is required, and the workability of the coupling operation is improved.
Moreover, even if a locking member such as a conventional clip is used for the locking mechanism, only one locking member is required as a separate member from the pump housing and the tank. Can also be reduced.

In the second aspect of the invention, the clip is used as the lock mechanism, and one end of the clip is rotatably provided to the tank or the pump. Therefore, the clip is not a separate part and can be handled easily. Further, by adopting the clip, the structure of the lock mechanism can be simplified.
According to the third invention, since the lock mechanism is located inside the side surfaces of the pump housing and the tank, the outer dimensions of the pump are not increased by the lock mechanism when the tank is coupled to the pump housing. .

In the fourth invention, the sandwiched portion provided in the tank and the sandwiched portion provided in the pump housing can be coupled to each other by sandwiching and sandwiching the sandwiched portion.
According to the fifth aspect, since the seal member is elastically deformed in the coupled state of the pump housing and the tank, high sealing performance can be maintained. Further, in the coupled state, the repulsive force exerted by the elastic deformation of the seal member acts between the opposing surfaces of the pump housing and the tank, and rattling between the hook portion and the latching portion can be prevented.

The first embodiment of the present invention will be described below.
As shown in FIGS. 1 and 2, the tank-integrated pump of the first embodiment is obtained by mounting a tank 2 on a pump housing 1 and connecting the two. A cylinder portion 7 constituting a flow path for supplying a fluid to the pump is provided on the opposite surface of the tank 2, and the pump housing 1 is not shown, but coincides with the cylinder portion 7 on the opposite surface to the tank 2. To form a port. Then, the cylindrical portion 7 and the port are combined with each other in a state in which they are matched. Note that the cylinder 7 and the port may be on the tank 2 side or on the pump housing 1 side.

A hook portion 8 having a bent tip is formed on one side of the pump housing 1 facing the tank 2 with the port as a boundary, and a flat plate-like shape is formed on the opposite side of the hook portion 8. A sandwiched portion 9 is formed.
Further, a ring-shaped seal member 10 made of an elastic material such as rubber is provided on the opposed surface and outside the port.

On the other hand, the tank 2 is formed with a latching portion 11 which is opposite to the pump housing 1 and is detachably hooked to the hook portion 8 on the one side of the cylinder portion 7. A flat plate-like support portion 12 is formed on the opposite side of the latching portion 11.
Further, a metal clip 14 is attached to the vicinity of the tip of the support portion 12 via a pin 13 so as to be rotatable.
Further, a ring-shaped seal member 15 made of an elastic material is attached to the outer periphery of the cylindrical portion 7.
And this seal member 15 and the said seal member 10 are set as the structure which maintains an elastic deformation state between opposing surfaces, when the tank 2 and the pump housing 1 are couple | bonded.

Hereinafter, a procedure for coupling the tank 2 to the pump housing 1 will be described.
First, the latching portion 11 of the tank 2 is latched by being inserted into the hook portion 8 of the pump housing 1 as shown in FIG. 2, and then the tank 2 with the hook portion 8 and the latching portion 11 side as a rotation center. Is rotated so that the opposing surfaces are close to each other. When both opposing surfaces face each other, the port of the pump housing 1 and the cylinder portion 7 of the tank 2 coincide with each other, and the sandwiched portion 9 and the support portion 12 overlap. When both the sandwiched portions 9 and the support portion 12 are overlapped, the clip 14 attached to the support portion 12 is rotated, and the leading end thereof is inserted into the back surface of the sandwiched portion 9 on the pump housing 1 side to sandwich both the sandwiched portions. The part 9 is locked to the support part 12 by the clamping force of the clip 14. Thereby, the tank integrated pump is completed.
In the first embodiment, since one end of the clip 14 is attached to the one support portion 12, the holding portion 9 is held between the support portion 12 and the clip 14, and the tank 2 and the pump housing 1 are held. The combined state is maintained. That is, in the first embodiment, the clip 14 and the sandwiched portion 9 constitute a lock mechanism of the present invention.

In the first embodiment, as long as the hooking portion 11 is hooked on the hook portion 8, the sandwiched portion 9 and the support portion 12 overlap each other only by rotating the tank 2. . Therefore, when the sandwiched portion 9 and the support portion 12 provided with the clip 14 are matched, it is only necessary to move the tank 2 closer to the pump housing 1 side, and there is no need to adjust the position on the facing surface. . That is, the alignment work of both the sandwiched portions 9 and the support portion 12 is easy.
Further, since the clamping work by the clip 14 which is the locking work of the locking mechanism is only required once, the conventional clamping work which requires the clip to be moved twice in a direction different from the pressing direction of the tank 2 and the pump housing 1 is required. Compared with the example, the workability of the combined work is improved. Furthermore, since only one clip 14 is required to form the lock mechanism, the number of parts can be reduced as compared with the conventional case.
Further, in the first embodiment, since one end of the clip 14 is rotatably attached to the tank 2, the number of individual parts can be reduced, and the management and handling of the parts can be facilitated.

In addition, in this 1st Embodiment, although the clip 14 is attached to the tank 2, you may attach to the pump housing 1 and provide the clamping part in the tank 2.
However, the following effects can be expected by attaching the clip 14 to the tank 2 instead of the pump housing 1.

  That is, the pump housing 1 is formed of a casting or the like according to demands for dimensional accuracy and strength, but the tank 2 can be made of resin or a thin metal to reduce the weight. For this reason, the lightweight tank 2 is often placed on the pump housing 1 for coupling work. In such a case, if the clip 14 is attached to the tank 2 on the upper side, the clip 14 hangs down to the lower pump housing 1 side by its own weight. Therefore, when the clip 14 is attached to the pump 2 side as in the first embodiment, the clip 14 attached to the lower pump housing 1 side hangs downward and separates from the tank 2. The operation of gripping and sandwiching the sandwiched portion 9 is easy.

  Furthermore, as described above, the seal member 10 provided on the opposed surface of the pump housing 1 and the seal member 15 provided on the outer periphery of the cylindrical portion 7 are configured to elastically deform between the opposed surfaces. High sealing performance can be maintained. Moreover, since the repulsive force of the sealing members 10 and 15 acts on both opposing surfaces, the rattling between the latching portion 11 and the hook portion 8 can be eliminated.

In the first embodiment, the seal members 15 and 10 are provided on both the cylindrical portion 7 of the tank 2 and the outer periphery of the port of the pump housing 1. However, fluid is supplied from the tank 2 to the pump housing 1. Any one of the sealing members for preventing leakage from the distribution channel may be used.
In the first embodiment, the hook portion 8 is provided in the pump housing 1 and the latching portion 11 is provided in the tank 2. However, the hook portion 8 is provided in the pump housing 1 and the latching portion 11 is provided in the tank 2. It may be provided.

In the first embodiment, the support portion 12 protruding from the side surfaces of the pump housing 1 and the tank 2 and the sandwiched portion 9 are provided, and the sandwiched portion 9 is sandwiched by the clip 14 attached to the support portion 12. However, the clip C1 of the conventional apparatus shown in FIG. 4 is used instead of the clip 14, and a sandwiched portion is provided in place of the support portion 12, and the sandwiched portion of the tank 2 and the sandwiched portion 9 are provided. And may be sandwiched simultaneously with the clip C1. In this case, the pair of sandwiched portions and the clip C1 constitute the lock mechanism of the present invention.
Furthermore, the locking mechanism is not limited to the clips 14 and C1. In a state where the pair of sandwiched portions are overlapped, the lock mechanism may be configured by a bolt and a nut penetrating them.

In the second embodiment shown in FIG. 3, a hook portion 8 is provided on the pump housing 1, a latching portion 11 that is hooked on the hook portion 8 is provided on the tank 2, and the tank 2 and the pump housing 1 are coupled to each other. Thus, the configuration for forming the fluid flow path is the same tank-integrated pump as in the first embodiment.
And about the structure similar to 1st Embodiment, the same code | symbol as 1st Embodiment is used here, and each description is abbreviate | omitted.

In the second embodiment, a sandwiched portion 16 is formed on the opposite side of the hook portion 8 of the pump housing 1. The sandwiched portion 16 is adjacent to a recess 17 provided on the side surface of the pump housing 1. The tip of the pump housing 1 is located inside the side surface of the pump housing 1.
On the other hand, on the opposite side of the latching portion 11 of the tank 2, a bowl-shaped lock member 18 having one end rotatably attached to the tank 2 by a pin 19 is provided.
In addition, in the state where the clamped portion 16 is clamped by the lock member 18, the tip of the clamped portion 16 is sized to the size of the lock member 18 so that the lock member 18 is also inside the side surface of the pump housing 1. Correspondingly, it is located further inside than the side surface of the pump housing 1.

  In the pump of the second embodiment, the tank 2 can be rotated with respect to the pump housing 1 by hooking the tip of the latching portion 11 to the hook portion 8. When the opposed surfaces are matched, the lock member 18 and the sandwiched portion 16 are opposed to each other. When the two opposing surfaces substantially coincide with each other, the lock member 18 is rotated to the pump housing 1 side, and the tip end side is inserted into the recess 17 formed on the side surface of the pump housing 1, and the lock member 18 covers it. If the clamping part 16 is clamped, the coupling state of the tank 2 and the pump housing 1 can be maintained. That is, in the second embodiment, the lock member 18 and the sandwiched portion 16 constitute the lock mechanism of the present invention.

In the tank-integrated pump of the second embodiment, the connecting operation between the pump housing 1 and the tank 2 becomes easier than in the conventional case, and the workability is improved as in the first embodiment. It is.
Further, in the second embodiment, the sandwiched portion 16 is provided adjacent to the recess 17 formed on the side surface of the pump housing 1, and the tip thereof is positioned on the inner side from the side surface so as to be outward from the side surface of the pump housing 1. The locking mechanism does not protrude. Therefore, the tank-integrated pump of this embodiment can be further reduced in size and can be mounted on a vehicle having a small space.
In the second embodiment, either the sandwiched portion 16 or the lock member 18 may be provided in the pump housing 1 or the tank 2.
In addition, for example, it is preferable that a claw is formed at the tip of the lock member 18 and a concave portion on which the claw is caught is provided in the sandwiched portion 16 so that the lock member 18 is difficult to come off after locking.

It is a front view of a 1st embodiment. It is a front view of 1st Embodiment and is a figure for demonstrating the assembly | attachment process of a tank and a pump housing. It is a front view of 2nd Embodiment. It is a fragmentary sectional view of the conventional tank integrated pump.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Pump housing 2 Tank 7 Cylinder part 8 Hook part 9 Clamping part 10 Seal member 11 Latching part 12 Support part 13 Pin 14 Clip 15 Seal member 16 Clamped part 17 Recessed part 18 Locking member 19 Pin

Claims (5)

  A pump housing and a tank coupled to the pump housing, wherein either the pump housing or the tank is provided with a port, and the other is provided with a cylindrical portion that fits into the port, and the port and the cylindrical portion are combined In the tank-integrated pump configured with a flow path for supplying fluid from the tank to the pump housing, on the opposite surface side of the pump housing and the tank, either one of the pump housing or the tank is provided with a hook portion. On the other hand, a latching part that is detachably latched on the hook part is provided, and a lock mechanism is provided on the pump housing and the tank on the opposite side of the hook part and the latching part with the port or the cylinder part interposed therebetween. On the other hand, the pump housing in the state where the hook is hooked on the hook On the other hand, the tank is rotatable, and when the pump housing and the tank are joined, the hook portion and the latching portion maintain the latched state, and the coupled state between the pump housing and the tank is maintained by the lock mechanism. A tank-integrated pump designed to maintain.   2. The lock mechanism includes a clip rotatably provided on either the pump housing or the tank, and a clamped portion provided on the other of the pump housing or the tank and sandwiched between the clips. Tank integrated pump.   3. The tank-integrated pump according to claim 1, wherein the locking mechanism is configured to be positioned on the inner side of the side surface of the pump housing and the side surface of the tank in a state where the coupling state of the pump housing and the tank is maintained.   The lock mechanism includes a sandwiched portion that protrudes from each of the pump housing and the tank, and a sandwiching unit that sandwiches the sandwiched portion. The latch portion is latched on the hook portion, and the pump housing and the tank The tank-integrated pump according to claim 1, wherein when the opposing surfaces are overlapped, the both sandwiched portions overlap each other.   A seal member is provided between the opposing surfaces of the pump housing and the tank and around the port or the cylinder portion, and a hooking portion is hooked on the hook portion, and the lock mechanism is connected to the pump housing and the tank. The tank-integrated pump according to any one of claims 1 to 4, wherein the seal member is elastically deformed when the pressure is maintained.

Images