JP6881568B2 - Hydraulic device - Google Patents

Description

According to the present invention, a tank for storing a hydraulic fluid inside, a pump as a power source for supplying a hydraulic fluid from the tank to a drive target, and a hydraulic fluid between the tank and the drive target. The present invention relates to a hydraulic device including a hydraulic circuit for taking in and out and a suction strainer to which a base end portion is connected to the pump.

Conventionally, a tank for storing a hydraulic fluid inside, a pump as a power source for supplying a hydraulic fluid from the tank to a drive target, and a hydraulic fluid in and out between the tank and the drive target. A hydraulic device including a hydraulic circuit for performing the above and a suction strainer to which a proximal end portion is connected to the pump has been used (see, for example, Patent Document 1). In such a hydraulic device, the connection between the pump and the suction strainer is conventionally as follows.

That is, in the conventional hydraulic device of this type, a male screw portion is formed at the base end portion of the suction strainer, and a female screw hole that can be screwed with the male screw portion is provided at the suction port of the pump. After applying the sealing material to the machine, the male screw portion is screwed into the female screw hole.

However, in such a configuration, when connecting the suction strainer to the pump, it is necessary to take time and effort such as controlling the tightening torque, adjusting the orientation of the suction strainer, and applying the sealing material, and there is a problem that the connection work takes time. To do.

Furthermore, when replacing the pump, after removing the suction strainer from the pump, once the sealing material for the male threaded part of the suction strainer is removed, a new sealing material is applied to the male threaded part, and the suction described in the previous section is applied. Since it is necessary to attach the strainer to the pump, there is a problem that it takes time to replace the pump.

Japanese Unexamined Patent Publication No. 8-159101

Focusing on the above points, it is an object of the present invention to improve workability during assembly and maintenance in a hydraulic device in which a base end portion of a suction strainer is connected to a pump.

In order to solve the above problems, the hydraulic device according to the invention of claim 1 has the following configuration. That is, the hydraulic device according to the invention of claim 1 includes a tank for storing the hydraulic fluid inside, a pump as a power source for supplying the hydraulic fluid from the tank to the driving target, the tank, and the above. A hydraulic circuit for moving the hydraulic fluid in and out of the drive target, a suction strainer whose base end is inserted into the hydraulic fluid suction port of the pump and is in close contact with the inner wall of the hydraulic fluid suction port, and the above. provided at positions corresponding to the tip portion of the suction strainer in the tank, retaining the base end portion of the illusion Yonsutorena by striking per tip of the suction strainer to prevent the escape from the working fluid inlet port of the pump and a part.

With such a configuration, when the suction strainer is attached to and detached from the pump by fitting the base end portion of the suction strainer into the pump and providing a sealing member between the suction strainer and the pump. Workability can be improved. In addition, the tip of the suction strainer is simply fitted into the pump by providing a retaining portion for preventing the suction strainer from coming off at a portion of the tank corresponding to the tip of the suction strainer. Even if there is, since the suction strainer can be suppressed from being pulled out from the pump by the retaining portion, it is possible to achieve both the above-mentioned improvement in workability and the stability of attachment of the suction strainer to the pump.
The hydraulic device according to the invention of claim 2 is that of claim 1, wherein the proximal end of the Sakusho down strainer elastically close contact with the inner wall of the working fluid inlet port through the O-ring It is a thing.
The hydraulic device according to the invention according to claim 3 is the one according to claim 1 or 2, wherein the retaining portion has a ridge, and the ridge stands up from the bottom wall of the tank. At the same time, it extends in the longitudinal direction of the hydraulic pressure device.

According to the present invention, in a hydraulic device in which a base end portion of a suction strainer is connected to a pump, workability during assembly and maintenance can be improved while maintaining stability of connection.

The schematic diagram which shows the vehicle which mounted the hydraulic pressure apparatus which concerns on one Embodiment of this invention. The circuit diagram which shows the hydraulic pressure circuit including the hydraulic pressure apparatus which concerns on the same embodiment. The front view which shows the hydraulic pressure apparatus which concerns on the same embodiment. The left side view which shows the hydraulic pressure apparatus which concerns on the same embodiment. The right side view which shows the hydraulic pressure apparatus which concerns on the same embodiment. The figure which shows the mounting mode of the suction strainer to the pump which concerns on the same embodiment.

An embodiment of the present invention is shown below with reference to FIGS. 1 to 6.

As shown in FIG. 1, the hydraulic pressure device 1 according to the present embodiment is mounted below the rear part of the loading platform N of the vehicle, and constitutes an actuator for raising and lowering the loading platform (tailgate T) which is a driving object. The hydraulic fluid is supplied to the cylinder C.

As shown in FIGS. 2 and 3, the hydraulic device 1 sucks the adapter plate 2 forming the hydraulic circuit, the tank 3 joined to the adapter plate 2, and the hydraulic fluid in the tank 3. A pump 4 for supplying the adapter plate 2 to the adapter plate 2, a suction strainer 5 into which the base end portion 5a is fitted into the pump 4, and a return pipe 6 into which the base end portion 6a is fitted into the adapter plate 2 are provided.

As shown in FIG. 2, the adapter plate 2 includes a hydraulic fluid inflow port 2a for receiving a hydraulic fluid from the pump 4, a hydraulic fluid supply port 2b for moving in and out between the cylinder C, and the cylinder. It is provided with a hydraulic fluid discharge port 2c for guiding the hydraulic fluid discharged from C to the tank 3 via the return pipe 6. Further, as shown in FIGS. 2 to 5, the adapter plate 2 includes a hydraulic fluid supply passage 2d, a check valve 21, a hydraulic fluid discharge passage 2e, and a relief passage 2f, and the adapter plate 2 has the same. A solenoid valve 22, a flow rate control valve 23, and a relief valve 24 are attached to the adapter plate 2. The hydraulic fluid supply passage 2d is a passage connecting the hydraulic fluid inflow port 2a and the hydraulic fluid supply port 2b. The check valve 21 is provided in the hydraulic fluid supply path 2d and suppresses the backflow of the hydraulic fluid from the cylinder C side, that is, the hydraulic fluid supply port 2b side to the pump 4 side, that is, the hydraulic fluid inflow port 2a side. The hydraulic fluid discharge path 2e branches from the hydraulic fluid supply port 2b side of the check valve 21 in the hydraulic fluid supply path 2d and communicates with the hydraulic fluid discharge port 2c. The solenoid valve 22 is provided in the hydraulic fluid discharge path 2e, and is provided in a first state of blocking the flow of the hydraulic fluid from the hydraulic fluid supply port 2b side to the hydraulic fluid discharge port 2c side and the hydraulic fluid supply port 2b side. Selectively take any of the second states that allow the flow of the hydraulic fluid from the to the hydraulic fluid discharge port 2c side. The flow rate control valve 23 is provided between the solenoid valve 22 and the hydraulic fluid discharge port 2c. The relief passage 2f branches from the hydraulic fluid inflow port 2a side of the check valve 21 in the hydraulic fluid supply passage 2d, and the flow rate control valve 23 in the hydraulic fluid supply passage 2d and the hydraulic fluid discharge passage 2e. Short-circuits the portion on the side of the hydraulic fluid discharge port 2c. The relief valve 24 is provided in the relief passage 2f, and opens when the hydraulic pressure at a portion on the pump 4 side of the check valve 21 in the hydraulic fluid supply path 2d exceeds a predetermined hydraulic pressure. In other cases, the valve is closed. Reference numeral 25 is a filter provided on the upstream side of the solenoid valve 22 in the hydraulic fluid discharge path 2e.

Thus, in the present embodiment, as shown in FIG. 5, the solenoid valve 22, the flow rate control valve 23, and the relief valve 24 are attached to the adapter plate 2 in the longitudinal direction of the hydraulic pressure device, more specifically, a tank. It is configured to be attached / detached along the direction from 3 toward the adapter plate 2.

More specifically, a part of the solenoid valve 22 protrudes from the adapter plate 2 toward the tank 3, and the opposite side is a male screw (not shown), which is provided on the adapter plate 2 side and is not shown. The solenoid valve 22 is attached to the adapter plate 2 by screwing the male screw onto the female screw.

A part of the flow control valve 23 protrudes from the adapter plate 2 toward the tank 3, and the opposite side is a male screw (not shown). The male screw is screwed into a female screw (not shown) provided on the adapter plate 2 side. The flow control valve 23 is attached to the adapter plate 2 by wearing it.

A part of the relief valve 24 protrudes from the adapter plate 2 to the tank 3 side, and the opposite side is a male screw (not shown), and the male screw is screwed to a female screw (not shown) provided on the adapter plate 2 side. By doing so, the relief valve 24 is attached to the adapter plate 2.

As shown in FIGS. 3 and 5, the tank 3 is made of resin mounted on the side of the adapter plate 2 and stores a working liquid inside.

As shown in FIGS. 3 and 5, the pump 4 is mounted on the side of the adapter plate 2, sucks the hydraulic fluid inside the tank 3 through the suction strainer 5, and sucks the hydraulic fluid inside the adapter plate 2. The hydraulic fluid is discharged toward the inflow port 2a. Further, the pump 4 receives power from the motor 7. The motor 7 is mounted on the side of the adapter plate 2, and its output shaft is connected to the pump 4. The motor 7 operates when the relay switch 8 is energized.

As described above, and as shown in FIGS. 3 and 6, the suction strainer 5 has a base end portion 5a fitted into the pump 4, while the tip end portion 5b is close to the bottom wall 3a of the tank 3. Or are in contact with each other. More specifically, as shown in FIG. 6, the proximal end side of the suction strainer 5 extends along the longitudinal direction of the hydraulic pressure device 1, while the distal end side extends toward the bottom wall 3a of the tank 3. The portion excluding the base end portion 5a and the tip end portion 5b is a pipe-shaped member having a substantially L-shape in the front view. Further, as shown in FIG. 6, the base end portion 5a of the suction strainer 5 has an outer diameter larger than that of the adjacent portion, and includes an O-ring insertion groove 5x into which an O-ring 91 which is a sealing member can be inserted. ing. The inner portion of the O-ring 91 is arranged in the O-ring insertion groove 5x, and the outer side is elastically adhered to the inner wall of the hydraulic fluid suction port 4a of the pump 4. On the other hand, the tip portion 5b is provided with protrusions 51 in contact with the bottom wall 3a of the tank 3 at a plurality of positions in preference to other parts, and the hydraulic fluid is applied to the portions between the protrusions 51 from inside the tank 3. It is an opening for introduction.

Further, a ridge 31 as a retaining portion is formed on the bottom wall of the tank 3 on the outer side of the suction strainer 5, that is, on the side opposite to the adapter plate 2 with the suction strainer 5 interposed therebetween. The ridge 31 stands up from the bottom wall 3a of the tank 3 and extends in the longitudinal direction of the hydraulic pressure device 1, and one end of the ridge 31 hits the suction strainer 5 to pull out the suction strainer 5. It is configured to stop.

As described above, according to the configuration of the present embodiment, the base end portion 5a of the suction strainer 5 is fitted into the pump 4, and the outside of the suction strainer 5 on the bottom wall 3a of the tank 3 is provided. That is, since the ridge 31 which is the retaining portion is formed on the side opposite to the adapter plate 2 with the suction strainer 5 interposed therebetween, the following effects can be obtained.

That is, since the attachment work of the suction strainer 5 to the pump 4 can be completed by fitting the base end portion 5a of the suction strainer 5 into the pump 4, the male screw formed on the base end portion after applying the sealing material to the base end portion. Compared with the conventional configuration in which the portion needs to be screwed into the female screw hole on the pump side, the protrusion 31 improves workability when the suction strainer 5 is attached to and detached from the pump 4. Since it is possible to suppress the suction strainer 5 from being pulled out from the pump 4, it is possible to achieve both improvement in workability during assembly and maintenance and stability in mounting the suction strainer 5 to the pump 4.

The present invention is not limited to the embodiments described above.

For example, the number and arrangement of the ridges constituting the retaining portion are arbitrary as long as one end thereof faces the suction strainer. Also, instead of using the ridges that can be erected from the bottom of the tank to form the retaining part, the part on the bottom of the tank that is opposite to the pump is raised more than the other parts by sandwiching the tip of the suction strainer. The shape of the retaining portion is long as it is possible to prevent the suction strainer from coming off by abutting the tip of the suction strainer against one end edge of the raised portion, such as forming a retaining portion by the raised portion formed by the above. And the arrangement may be set arbitrarily.

In addition, in the above-described embodiment, the retaining portion is formed by a ridge formed by raising the bottom of the resin tank, but a retaining member is provided on the bottom surface of the metal tank by welding or sheet metal processing. The present invention may be applied to a tank made of various materials such as.

In addition, various changes may be made as long as the gist of the present invention is not impaired.

1 ... Hydraulic device 3 ... Tank 31 ... Retaining part (protrusion)
4 ... Pump 5 ... Suction strainer

Claims (3)

To move the hydraulic fluid in and out between the tank for storing the hydraulic fluid inside, the pump that is the power source for supplying the hydraulic fluid from the tank to the drive target, and the tank and the drive target. The hydraulic circuit and the base end portion of the suction strainer, which is inserted into the hydraulic fluid suction port of the pump and is in close contact with the inner wall of the hydraulic fluid suction port, and a portion corresponding to the tip end portion of the suction strainer in the tank. provided, hydraulic system and a retaining portion to prevent the base end portion of the suction strainer by striking per tip of the suction strainer escapes from the working fluid inlet port of the pump. The base end of the suction strainer is attached to the inner wall of the hydraulic fluid suction port via an O-ring. The hydraulic device according to claim 1, wherein the hydraulic contact is elastically adhered. The retaining portion has a ridge, which stands up from the bottom wall of the tank. The hydraulic device according to claim 1 or 2, which extends in the longitudinal direction of the hydraulic device.

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