JP2006077908A - Piston type accumulator - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide the piston type accumulator 1 that can obtain a comparatively big impact absorption effect and control this impact absorption effect. <P>SOLUTION: A gas room 7 is formed by inserting a piston 6 into a cylinder 2 and the throttle mechanism 15 to exhibit the damper action in the gas room 7 are equipped with the piston type accumulator 1 that seals the gas to exhibit the gas spring action in the gas room 7, and furthermore the adjust mechanism 21 to change the orifice characteristic of the throttle mechanism 15. It makes to possible to operate the adjust mechanism 21 from the outside of the cylinder 2. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to an accumulator, and more particularly, to a piston type accumulator formed by combining a piston with a cylinder.

  Conventionally, as shown in FIG. 5, a piston 53 is inserted into a cylinder 52 to form a gas chamber 54, and a gas (not shown) that exerts a gas spring action is enclosed in the gas chamber 54. An accumulator 51 is known (see Patent Documents 1 to 4).

  The accumulator 51 having the above configuration exhibits a gas spring action when the gas sealed in the gas chamber 54 is pressed by the piston 53, thereby obtaining an impact absorbing effect of absorbing an impact load generated on the pressure pipe side. However, since the impact absorbing effect is obtained only by the gas spring action of the gas, there is a disadvantage that the obtained impact absorbing effect is not so large and relatively small.

JP 2003-294001 A JP 2003-120602 A JP-A-8-121403 JP 7-305701 A

  In view of the above points, the present invention has an object to provide a piston type accumulator capable of obtaining a relatively large impact absorbing effect with respect to the above-described prior art and capable of controlling the impact absorbing effect. To do.

  In order to achieve the above object, a piston type accumulator according to claim 1 of the present invention is a piston type accumulator formed by inserting a piston into a cylinder to form a gas chamber and enclosing a gas exhibiting a gas spring action in the gas chamber. The gas chamber is provided with a throttle mechanism that exerts a damper action, and an adjustment mechanism that changes the orifice characteristics of the throttle mechanism is provided.

  A piston type accumulator according to claim 2 of the present invention is characterized in that, in the piston type accumulator according to claim 1, the adjustment mechanism is operable from the outside of the cylinder.

  The piston type accumulator according to claim 1 of the present invention having the above-described configuration exhibits a damper action by the throttle mechanism in addition to the gas spring action by the enclosed gas because the throttle mechanism that exhibits the damper action is also provided in the gas chamber. It becomes possible. In addition to this, since an adjustment mechanism for changing the orifice characteristic of the throttle mechanism is provided, it is possible to change the orifice characteristic of the throttle mechanism by operating this adjustment mechanism. Changing the orifice characteristic of the throttle mechanism means changing the opening area of the orifice.

  As the adjustment mechanism, one that can be operated from the outside of the cylinder is preferable as described in claim 2, and according to such an adjustment mechanism, the orifice characteristic of the throttle mechanism is changed without disassembling the device. It becomes possible.

  The present invention has the following effects.

  That is, in the piston-type accumulator according to claim 1 of the present invention having the above-described configuration, since the throttle mechanism that exhibits a damper action is also provided in the gas chamber, the accumulator has a gas spring action by an enclosed gas, It is possible to exhibit both the damper action by the diaphragm mechanism. Therefore, a relatively large impact absorbing effect can be obtained by simultaneously exhibiting both the gas spring action by the sealed gas and the damper action by the throttle mechanism. In addition, since an adjustment mechanism is provided to change the orifice characteristics of the throttle mechanism, it is possible to change the orifice characteristics of the throttle mechanism by operating this adjustment mechanism, and control the impact absorption effect. can do.

  In addition, in the piston type accumulator according to claim 2 of the present invention having the above-described configuration, since the adjustment mechanism can be operated from the outside of the cylinder, the throttle mechanism from the outside of the apparatus without disassembling the apparatus. Therefore, it is possible to provide an accumulator with good operability.

  Next, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 shows a partially cutaway front view of a piston type accumulator 1 according to an embodiment of the present invention. The piston type accumulator 1 is configured as follows.

  That is, first, end covers 3 and 4 are respectively fixed to both ends of the cylindrical cylinder 2, and a cylinder chamber 5 is provided therein, and a piston (also referred to as a free piston) 6 is slidably inserted into the cylinder chamber 5. Thus, the cylinder chamber 5 is divided into a gas chamber 7 on the right side in the figure and a fluid chamber 8 on the left side in the figure. The cylinder 2 and the piston 6 are sealed with a seal member 9 such as packing.

  The end cover 3 on the right side of the figure is provided with a gas injection port 10 for injecting gas (not shown) into the gas chamber 7, and this injection port 10 is closed by a plug 11 after gas injection. Yes. The cylinder 2 and the end cover 3 are sealed with a seal member 12 such as an O-ring.

  The end cover 4 on the left side of the figure is provided with a fluid inlet 13 for introducing the fluid (not shown) such as pressure oil into the fluid chamber 8 by connecting the accumulator 1 to a pressure pipe (not shown). It has been. The cylinder 2 and the end cover 4 are sealed with a seal member 14 such as an O-ring.

  Further, a throttle mechanism 15 is provided in the gas chamber 7. In this embodiment, the throttle mechanism 15 is a flat surface of a flat partition member (also referred to as a wall) 16 fixed to the inner surface of the cylinder 2. A hole-like orifice 17 is provided at the center.

  The throttling mechanism 15 or the partition member 16 is arranged in the middle of the gas chamber 7 in the longitudinal direction. Therefore, the throttling mechanism 15 or the partition member 16 causes the gas chamber 7 to be connected to the first gas chamber 7a on the piston 6 side and the end cover. It is divided into a second gas chamber 7b on the 3 side. Both gas chambers 7 a and 7 b communicate with each other through an orifice 17.

  Further, in this embodiment, an adjusting mechanism 21 for changing the orifice characteristic of the throttle mechanism 15 is provided, and this adjusting mechanism 21 can be operated from the outside of the cylinder 2, that is, from the outside of the accumulator 1. ing.

  That is, a through hole 22 is provided in the right end cover 3 in the drawing so as to communicate the inside and outside of the accumulator 1, and an adjusting member 23 is installed in the through hole 22.

  The adjustment member 23 includes a rod 24 inserted into the through hole 22 so as to be axially displaceable, and a head (also referred to as a throttle valve body) 25 provided at the tip (left end in the figure) of the rod 24. The head 25 has a peripheral surface (tip surface) 25a formed in a conical surface and is coaxially opposed to the inner peripheral surface 17a of the orifice 17 also formed in the conical surface. , 25a, a conical surface-like gap having an annular shape is formed. The head 25 is formed in a truncated cone shape. Accordingly, when the adjusting member 23 is displaced in the left direction in the figure, the gap between the orifice 17 and the head 25 is narrowed so that the gas does not easily pass through the orifice 17, and conversely, the adjusting member 23 is displaced in the right direction in the figure. Then, the gap between the orifice 17 and the head 25 is widened so that the gas easily passes through the orifice. The opening area of the orifice 17 changes according to the displacement, and the orifice characteristics change.

  A gap between the end cover 3 and the rod 24 of the adjustment member 23 is sealed by a seal member 26 such as an O-ring.

  Further, the rear end (right end in the figure) of the adjustment member 23, that is, the rear end of the rod 24 protrudes from the end cover 3, so that the adjustment member 23 can be operated from the outside with this rear end. Yes. For this operation or fixing of the adjusting member 23 to the end cover 3, a screw type is adopted, that is, the rod 24 is rotated in accordance with the screw so that the rod 24 is advanced and retracted in the axial direction. . In order to enable this operation, a screw (male screw) 27 is cut on the peripheral surface of the rear end portion of the rod 24, while a nut 28 that engages with the screw 27 is provided on the outer surface portion of the end cover 3. It is fixed.

  When the accumulator 1 having the above configuration is connected to a pressure pipe and an impact is transmitted to the accumulator 1 from the pressure pipe side, the piston 6 moves to the gas chamber 7 side and compresses the sealed gas in the gas chamber 7. Therefore, at this time, the gas spring action by the sealed gas is exhibited. At the same time, part of the sealed gas in the first liquid chamber 7a is moved to the second gas chamber 7b through the orifice 17 of the throttle mechanism 15 and exhibits a damping action when passing through the orifice 17, so that the throttle is stopped at this time. The damper action by the mechanism 15 is exhibited. Therefore, since both the gas spring action by the sealed gas and the damper action by the throttle mechanism 15 are exhibited at the same time, a relatively large shock absorbing effect can be obtained.

That is, as shown in FIG. 2 (A), according to the conventional accumulator 51, whereas only gas spring action D ₁ by the sealed gas is exerted, as shown in FIG. 2 (B), the embodiment according to the accumulator 1 by a gas spring acting D ₁ by the sealed gas, since the damper effect D ₂ is exerted both at the same time by the aperture mechanism 15, by the synergistic effect of both actions D _1, D _2, shown in FIG. 3 As described above, a relatively large impact absorbing effect can be obtained.

  The diaphragm mechanism 15 required to obtain the above-described effect is a flat partition member 16 fixed to the inner surface of the cylinder 2 provided with a hole-like orifice 17. Is relatively simple, and its manufacture and attachment to the cylinder 2 are relatively easy. If the cylinder 2 is a cylinder, the partition member 16 may be disk-shaped, and the piston-side end surface 16a of the partition member 16 with which the cylindrical piston 6 may come into contact may be planar. For example, even with the same accumulator partition member, the partition member used for the bladder type accumulator is for preventing excessive deformation of the flexible bladder, so that the bladder side end surface with which the bladder abuts has a complicated curved surface. However, according to the accumulator 1, such a situation does not occur, and the piston side end surface 16a of the partition member 16 may be formed in a simple plane perpendicular to the axis. The disc-shaped partition member 16 is attached to the cylinder 2 relatively easily by welding or a fixing means such as a screw or a stop ring.

Therefore, it is possible to relatively easily manufacture the piston-type accumulator 1 that can obtain a relatively large shock absorbing effect by the synergistic effect of the gas spring action D ₁ by the sealed gas and the damper action D ₂ by the throttle mechanism 15. it can.

  In addition, since the accumulator 1 having the above-described configuration is provided with the adjusting mechanism 21 for changing the orifice characteristics of the throttle mechanism 15, the orifice of the throttle mechanism 15 can be operated by operating the adjusting mechanism 21. The characteristics can be changed, whereby the impact absorbing effect of the accumulator 1 can be controlled.

  In addition, since the adjusting mechanism 21 can be operated from the outside of the cylinder 2, the orifice characteristic of the throttle mechanism 15 can be changed from the outside of the apparatus without disassembling the apparatus, and thereby, good operability can be obtained. Obtainable.

  In the above embodiment, the gap between the end cover 3 and the rod 24 of the adjusting member 23 is sealed by a sealing member 26 such as an O-ring. In the case where there is a concern about securing the sealing property, as shown in FIG. 4, it is conceivable to provide a backup ring 29 on the outside of the sealing member 26 to stabilize the sealing property. A backup ring 29 made of a material such as synthetic resin is provided outside the O-ring.

  Further, as shown in FIG. 4, when the seal mounting groove 30 is provided on the peripheral surface of the rod 24, the seal mounting groove 30 is provided on the inner peripheral surface of the through hole 22 (the embodiment of FIG. 1). , Processability can be improved (the former is easier to process).

  In order to reinforce the screw 24 locking of the rod 24, a so-called double nut system comprising a combination of a nut 28 and a retaining ring 31 may be adopted as shown in FIG.

1 is a partially cutaway front view of a piston type accumulator according to an embodiment of the present invention. (A) is a schematic diagram showing a structure of an accumulator according to a comparative example (conventional example), and (B) is a schematic diagram showing a structure of an accumulator according to an embodiment of the present invention. The graph which shows the shock absorption characteristic of the accumulator which concerns on the Example of this invention A partially cutaway front view of a piston-type accumulator according to another embodiment of the present invention. Cross section of accumulator according to conventional example

Explanation of symbols

1 Accumulator (piston type accumulator)
2 cylinder 3, 4 end cover 5 cylinder chamber 6 piston 7 gas chamber 7a first gas chamber 7b second gas chamber 8 fluid chamber 9, 12, 14, 26 seal member 10 gas inlet 11 plug 13 fluid inlet 15 throttle mechanism 16 Partition member 16a Piston side end surface 17 Orifice 17a Inner peripheral surface 21 Adjustment mechanism 22 Through hole 23 Adjusting member 24 Rod 25 Head 25a Outer peripheral surface 27 Screw 28 Nut 29 Backup ring 30 Seal mounting groove 31 Retaining ring

Claims (2)

In the piston type accumulator (1) formed by inserting the piston (6) into the cylinder (2) to form the gas chamber (7) and enclosing the gas chamber (7) with a gas exhibiting a gas spring action,
The gas chamber (7) is provided with a throttle mechanism (15) that exhibits a damper action,
A piston type accumulator comprising an adjusting mechanism (21) for changing the orifice characteristic of the throttle mechanism (15). The piston-type accumulator according to claim 1,
The piston type accumulator characterized in that the adjustment mechanism (21) is operable from the outside of the cylinder (2).

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