JPH0628302U - accumulator - Google Patents

Abstract

(57) [Summary] [Purpose] Prevents the poppet from repeatedly moving toward the liquid guide hole, and thus prevents the bladder from being caught between the poppet and the liquid guide hole and damaged. Prevent the poppet from breaking. [Structure] A permanent magnet (54b) is provided for the poppet arranged in the liquid guide hole of the oil port to prevent the bladder from entering the liquid guide hole of the oil port, and the poppet is moved. A detection circuit (59) for detecting is provided in the oil port, and when the detection circuit (59) detects movement of the poppet, at least the liquid pressure of the liquid source and the gas pressure of the gas chamber are determined according to the detection result. Adjust one. [Effect] It is possible to prevent the poppet from repeatedly moving toward the liquid guide hole, and consequently to prevent the bladder from being caught between the poppet and the liquid guide hole and being damaged, and the poppet to be broken. Can be prevented.

Description

[Detailed description of the device]

[0001]

[The purpose of the device]

[0002]

[Industrial applications]

 The present invention encloses a gas in a gas chamber formed by dividing the inner space of the shell with a bladder, and an oil port having a liquid guide hole for communicating the liquid chamber with a liquid source is attached to the shell mounting opening. The present invention relates to an accumulator in which a poppet is provided to a liquid guide hole of an oil port so as to prevent the bladder from being intruded into the liquid hole of the oil port. A magnet is installed and a detection circuit for detecting the movement of the poppet is arranged in the oil port. When the detection circuit detects the movement of the poppet, the liquid pressure of the liquid source and the gas in the gas chamber are detected according to the detection result. The present invention relates to an accumulator that prevents a bladder from moving a poppet by adjusting at least one of the pressures.

[0003]

[Prior art]

 Conventionally, as this type of accumulator, an oil port in which a gas is enclosed in a gas chamber formed by partitioning the inner space of the shell with a bladder and a liquid guide hole for communicating the liquid chamber with the liquid source is formed into the shell. It has been proposed to hold the poppet in the liquid guide hole of the oil port and to prevent the bladder from being caught in the liquid guide hole of the oil port. .

[0004]

[Problems to be solved]

 However, in the conventional accumulator, the gas is enclosed in a gas chamber formed by partitioning the inner space of the shell with a bladder, and an oil port having a liquid guide hole for communicating the liquid chamber with the liquid source is formed. The poppet was only placed against the liquid guide hole of the oil port so that it could be held against the mounting opening of the shell and that the bladder could not be caught in the liquid guide hole of the oil port. Therefore, when used at a liquid pressure above the initial gas pressure in the gas chamber (especially at a liquid pressure 1.1 times above the initial gas pressure), the bladder will not come into contact with the poppet, but (i) the liquid source When the liquid pressure fluctuates and becomes lower than the initial gas pressure in the gas chamber, the bladder contacts the poppet and presses it toward the liquid guide hole, and the bladder is sandwiched between the poppet and the liquid guide hole and damaged. hand And (ii) when the liquid pressure of the liquid source increases rapidly with the liquid guide hole closed, the poppet is moved rapidly toward the liquid chamber, so that the poppet shaft or its surroundings There was a drawback that the springs, etc. arranged at the end would be broken.

Therefore, in order to eliminate these drawbacks, the present invention provides a permanent magnet for the poppet and a detection circuit for detecting the movement of the poppet in the oil port. When the circuit detects movement of the poppet, an accumulator that prevents the bladder from moving the poppet by adjusting at least one of the liquid pressure of the liquid source and the gas pressure of the gas chamber according to the detection result. It will be provided.

[0006]

[Constitution of device]

[0007]

[Means for solving problems]

 A solution to the problem provided by the present invention is to "form a liquid guide hole for confining gas in a gas chamber formed by partitioning an inner space of a shell by a bladder and communicating the liquid chamber with a liquid source. The oil port is held against the shell mounting opening, and a poppet is provided in the oil port liquid guide hole to prevent the bladder from being caught in the oil port liquid guide hole. In the accumulator, a permanent magnet (54b) is arranged for the poppet and a detection circuit (59) for detecting movement of the poppet is arranged in the oil port, and the detection circuit (59) detects movement of the poppet. At this time, the bladder is prevented from moving the poppet by adjusting at least one of the liquid pressure of the liquid source and the gas pressure of the gas chamber according to the detection result. It is an accumulator. "

[0008]

[Action]

 The accumulator according to the present invention encloses the gas in a gas chamber formed by partitioning the inner space of the shell with a bladder, and attaches the shell to an oil port having a liquid guide hole for communicating the liquid chamber with the liquid source. An accumulator that holds the bladder against the liquid guide hole of the oil port and holds a poppet in the liquid guide hole of the oil port so as to prevent the bladder from being caught in the liquid guide hole of the oil port. [Solution to Problem]], in particular, a permanent magnet is arranged for the poppet and a detection circuit for detecting movement of the poppet is arranged in the oil port. When the poppet moves, the bladder adjusts at least one of the liquid pressure in the liquid source and the gas pressure in the gas chamber according to the detection result. Since it prevents the poppet from moving, it has the function of (i) preventing the poppet from repeatedly moving toward the liquid guide hole, and (ii) the bladder is sandwiched between the poppet and the liquid guide hole. And (iii) prevent the poppet from repeatedly moving in the direction of opening the liquid guide hole and prevent the poppet from being broken. (Iv) It has the function of extending the useful life.

[0009]

【Example】

 Next, the accumulator according to the present invention will be specifically described with reference to the accompanying drawings with reference to preferred embodiments thereof.

However, the embodiments described below are provided for facilitating or facilitating the understanding of the present invention, and not for limiting the present invention.

In other words, each element disclosed in the embodiments described below includes all design changes and equivalent replacements within the spirit and scope of the present invention.

(Description of the accompanying drawings)

FIG. 1 is a cross-sectional view showing one half of an embodiment of the accumulator according to the present invention, and in particular, shows one half including a gas sealing member 40 .

FIG. 2 is a cross-sectional view showing the other half of the accumulator according to the present invention, and particularly shows the other half including the oil port member 50 .

(Structure of Example)

First, referring to FIGS. 1 and 2, the configuration of an embodiment of the accumulator according to the present invention will be described in detail.

Reference numeral 10 denotes an accumulator according to the present invention, which includes a shell 20 having a gas chamber 10A and a liquid chamber 10B therein, and a gas chamber 10A and a liquid chamber 10B disposed inside the shell 20. Nitrogen gas supplied from an appropriate gas supply source (not shown) that is attached to the bladder 30 for partitioning the shells from each other and the one end opening 21a of the shell 20 (referred to as "gas seal inlet gold member mounting opening") attaching a suitable gas and the gas sealing member 40 for sealing after supplied to the gas chamber 10A (i.e. inside of the bladder 30), the other end apertures (called "oil port mounting opening") 21b of the shell 20, such as A liquid guide member (hereinafter referred to as "oil port") for guiding a liquid (for example, oil, brake fluid or water) between a liquid guide tube (not shown) connected to an appropriate liquid source and the liquid chamber 10B. 50 ) Is prepared.

The shell 20 is made of metal or other suitable material that is not damaged by the liquid supplied to the liquid chamber 10 B and is not damaged by the pressure of that liquid and the pressure of the gas held in the gas chamber 10 A or bladder 30 . It is formed and has a desired shape such as a hollow rotating object.

The bladder 30 is made of an appropriate elastic material that is not damaged by the liquid supplied to the liquid chamber 10B, and gas permeation from the gas chamber 10A to the liquid chamber 10B is sufficiently suppressed.

The gas sealing member 40 has a gas sealing base member 41 having one end baked on the opening of the bladder 30 and the other end drawn from the gas sealing base member mounting opening 21a, and an outer peripheral surface of the one end. The formed screw part 42a is screwed into the screw part 41a formed on the inner peripheral surface of the other end of the gas filling mouthpiece member 41.The bladder 30 is filled with gas and then sealed, and the temperature of the operating environment reaches a predetermined value. to avoid damage accident of explosion accident or bladder 30 of the shell 20 by releasing the gas in the bladder 30 to the outside softened or dissolved before the breakage of the breakage or bra da 30 of the shell 20 when rises above And the melting plug member 42 of FIG. The melting plug member 42 is attached to the other end portion of the gas sealing mouthpiece member 41, and the built-in spring 42b presses the stopper body 42c to urge the other end portion of the gas filling mouthpiece member 41. Is closed, and when the temperature of the operating environment rises above a predetermined value, it softens or melts to release the spring 42b, thereby removing the pressing force of the plug 42c and removing the other end of the gas charging cap member 41. To release the gas in the bladder 30 to the outside.

The gas sealing member 40 has a screw portion 43a formed on the inner peripheral surface thereof screwed into a screw portion 41b formed on the outer peripheral surface of the other end portion of the gas sealing mouthpiece member 41. The cover member 43 for protecting the melting stopper member 42 attached to the other end of 41, and the inner surface 44a of the end surface at one end is locked to the taper portion 41c formed on the outer peripheral surface of the gas sealing cap member 41 and the other. an intermediate ring 44 which is inserted from the inside of the shell 20 between the outer peripheral surface of the inner peripheral surface and the gas filled cap member 41 of the end of the shell 20 gas filling nozzle member mounting opening 21a, the gas sealed cap member 41 An O-ring 45, which is disposed in the disposition groove 41d and seals between the outer peripheral surface of the gas sealing cap member 41 and the inner peripheral surface of the intermediate ring 44, is included.

Gas sealing member40Further, the inner end surface 46a of one end is locked to a locking projection 44b formed on the outer peripheral surface of the intermediate ring 44, and the other end is a shell.20Between the inner peripheral surface of the gas sealing mouthpiece member mounting opening 21a and the outer peripheral surface of the intermediate ring 44.20A bladder 46B made of a suitable material such as silicon rubber is baked on the outer surface 46b of one end portion of the fixing member 46A inserted from the inside of the outer peripheral surface or the outer peripheral surface of one end portion of the fixing member 46A.30The outer surface of the intermediate ring 44 and the shell for the purpose of preventing damage to the shell and eliminating dead spaces.20The filling ring 46 and the shell for placement in the dead space between the20The O-ring 47 for sealing between the inner peripheral surface of the gas charging cap member mounting opening 21a and the outer peripheral surface of the intermediate ring 44, and the projection 48a formed at one end are shells.20Between the inner peripheral surface of the gas charging cap member mounting opening 21a and the outer peripheral surface of the intermediate ring 44.20The O-ring 47 is inserted from the outer side of the cylinder, and the O-ring 47 is pressed and fixed by the protrusion 48a to prevent the O-ring 47 from falling out of the gas charging cap member mounting opening 21a, and the screw portion formed on the inner peripheral surface. 49a is screwed into a threaded portion 41b formed on the outer peripheral surface of the gas sealing cap member 41, and one end surface of the gas contacting cap member 41 is brought into contact with the spacer ring 48 to shell the shell.20The gas sealing base member 41, the intermediate ring 44, and the fixing member 46A of the filling ring 46 are pressed together with the spacer ring 48 into the shell. 20 The gas sealing member is fixed to the gas sealing cap member mounting opening 21a of 40 The shell20And a lock nut 49 for fixing to. Incidentally, the spacer ring 48 and the lock nut 49 may be integrated with each other for the purpose of reducing the number of parts to improve the manufacturing efficiency, and also to secure the strength and prevent the breakage.

The oil port member 50 has a threaded portion 51a formed on the inner peripheral surface thereof screwed into a threaded portion (not shown) of the liquid guide tube, and is directed from the liquid guide tube toward the liquid chamber 10B or the liquid body. The oil port 51 is made of a non-magnetic material and has a liquid guide hole 51A for guiding the liquid from the chamber 10B to the liquid guide tube, and a through hole 51C formed in the intermediate partition wall 51B of the oil port 51. It is attached to one end of a shaft 52a made of non-magnetic material and is brought into contact with or separated from the oil port 51 for the purpose of protecting the bladder 30, and is opened inside the liquid guide hole 51A (that is, on the side of the liquid chamber 10B). (Opening) for opening and closing the poppet 52 made of a non-magnetic material, a spring 53 arranged around the shaft 52a for pressing and biasing the poppet 52 toward the liquid chamber 10B, and the other parts of the shaft 52a. Made of non-magnetic material for the ends A non-magnetic material that is attached by the nut member 54a and can be accommodated in the expansion opening 51C ^* of the through hole 51C to absorb the shock given to the intermediate partition wall 51B when the poppet 52 is moved toward the liquid chamber 10B. And a tubular body 54 made of plastic. A permanent magnet 54b is provided on a part (preferably the tip) of the cylindrical body 54. The permanent magnet 54b preferably functions as a part of the tubular body 54, but is not limited to this.

In the oil port member 50 , one end end inner surface 55a is locked to the locking projection 51D formed on the outer peripheral surface of the oil port 51, and the other end of the oil port mounting opening 21b of the shell 20 is provided. At least one liquid guide is inserted between the inner peripheral surface and the outer peripheral surface of the oil port 51 from the inside of the shell 20 (that is, the liquid chamber 10B side) and for guiding the liquid between the inner peripheral surface and the outer peripheral surface. A holder 55A formed of a suitable material such as silicon rubber is attached to one end outer surface 55c of one end of the holder 55A in which the pores 55b are formed or the outer peripheral surface of one end to prevent the bladder 30 from being damaged. It includes a filling ring 55 to be placed in the dead space between the outer peripheral surface of the oil port 51 and the inner peripheral surface of the shell 20 for the purpose of eliminating the dead space. The filling body 55B of the filling ring 55 guides the liquid remaining in the liquid chamber 10B after the poppet 52 closes the liquid guide hole 51A of the oil port 51 to prevent unnecessary stress from being generated in the bladder 30. In addition, when the poppet 52 closes the liquid guide hole 51A of the oil port 51 and the liquid pressure of the liquid source increases, the liquid chamber is opened before the poppet 52 opens the liquid guide hole 51A of the oil port 51. For the purpose of guiding the liquid to 10B and allowing the poppet 52 to easily open the liquid guide hole 51A of the oil port 51, the liquid guide groove 55d is formed on the outer peripheral surface (that is, the peripheral surface contacting the inner peripheral surface of the shell 20 ). At least one liquid is formed in the liquid chamber 10B through the liquid guide pore 55b of the filling ring 55, the connecting groove 51d formed on the outer peripheral surface of the oil port 51, and the liquid guide pore 51c of the oil port 51. To the liquid guide hole 51A Is designed so that it can be guided to the liquid chamber 10B from the liquid body guide hole 51A.

The oil port member 50 is further formed at one end with an O-ring 56 for sealing between the inner peripheral surface of the oil port mounting opening 21b of the shell 20 and the outer peripheral surface of the oil port 51. projection 57a is fixed by pressing the O-ring 56 in projection 57a is inserted from the outside of the shell 20 between the outer peripheral surface of the oil the inner peripheral surface of the port mounting opening 21b and Oirupo DOO 51 of the shell 20 oil The spacer ring 57 for preventing it from falling off from the port mounting opening 21b and the screw portion 58a formed on the inner peripheral surface are screwed into the screw portion 51b formed on the outer peripheral surface of the oil port 51, and one end surface is the the oil port 51 is pressed toward the interior of the contact with the spacer ring 57 shell 20 and filling ring 55 with spacer rings 57 to the oil port 51 by securing the oil port mounting opening 21b of the shell 20 shell 20 And a lock nut 58 for fixing, and inclusions. By the way, the spacer ring 57 and the lock nut 58 may be integrated with each other for the purpose of reducing the number of parts to improve the manufacturing efficiency, and also to secure the strength and prevent the damage.

The oil port member 50 is also accommodated in an arrangement hole 51E formed on the outer side of the intermediate partition wall 51B of the oil port 51, that is, from the liquid guide tube (not shown) side, and is also a permanent magnet. Further, it includes a detection circuit 59 for detecting the movement of the poppet 52 and outputting the detection result to the external processing circuit 60 via the connection line 61. The detection circuit 59 is housed in the installation hole 51E of the oil port 51, and then the threaded portion formed on the outer peripheral surface of the lid 59A is screwed onto the threaded portion formed on the inner peripheral surface of the opening of the installation hole 51E. It is arranged by combining. An O-ring 59B is provided between the outer peripheral surface of the lid 59A and the inner peripheral surface of the opening of the installation hole 51E for the purpose of preventing the liquid in the liquid guide hole 51A from entering. Are preferred. Incidentally, the arrangement hole 51E may be formed from the outer peripheral surface of the oil port 51.

(Operation of Embodiment)

Further, referring to FIGS. 1 and 2, the operation of one embodiment of the accumulator according to the present invention will be described in detail.

Liquid discharging operation

[0030] Liquid pressure of the liquid source decreases as compared to the operating state shown in FIG. 1 and FIG. 2, the bladder 30 is inflated toward the arrow X direction by gas pressure in the gas chamber 10A, and the expansion of the bra da 30 Accordingly, the liquid in the liquid chamber 10B is discharged from the inner opening of the liquid guide hole 51A of the oil port 51. In the liquid guide hole 51A of the oil port 51, the liquid is guided to the outer opening and then discharged toward the external liquid source.

When the liquid pressure of the liquid source further decreases, the gas pressure in the gas chamber 10A causes the bladder to move.30Is further expanded in the direction of the arrow X and brought into contact with the poppet 52, and the bladder is 30 The liquid in the liquid chamber 10B is discharged from the inner opening of the liquid guide hole 51A of the oil port 51 as the liquid expands. In the liquid guide hole 51A of the oil port 51, the liquid is guided to the outer opening and then discharged toward the external liquid source.

When the liquid pressure of the liquid source further decreases, the bladder 30 is further expanded in the arrow X direction and the poppet 52 is expanded in the arrow X direction while resisting the spring force of the spring 53 by the gas pressure of the gas chamber 10A. The liquid in the liquid chamber 10 B is discharged from the inner opening of the liquid guide hole 51 A of the oil port 51 as the bladder 30 expands. In the liquid guide hole 51A of the oil port 51, the liquid is guided to the outer opening thereof and then discharged toward the liquid source outside.

When the poppet 52 is moved in the arrow X direction, the permanent magnet 54b attached to the other end of the shaft 52a is also moved in the arrow X direction. The detection circuit 59 detects the movement of the permanent magnet 54b and outputs the detection result via a connection line 61 to an external processing circuit.60Give to. Processing circuit60When the detection result is given from the detection circuit 59, the control means directly controls an appropriate means or notifies the operator to that effect and at least one of the liquid pressure of the liquid source and the gas pressure of the gas chamber 10A is notified to the operator. The poppet 52 in the liquid guide hole 51A by moving the poppet 52 in the direction of the arrow Y.30Separate them. That is, the processing circuit60When a detection result is given from the detection circuit 59, the control means controls an appropriate means to increase the liquid pressure of the liquid source, or30Decrease the gas pressure inside or increase the liquid pressure of the liquid source and 30 By reducing the gas pressure inside, the poppet 52 is moved in the liquid guide hole 51A in the direction of the arrow Y, and the poppet 52 is moved from the bladder to the bladder.30Separate. At this time, the liquid pressure of the liquid source and the gas pressure of the gas chamber 10A are preferably adjusted so that the liquid pressure of the liquid source is equal to or higher than the gas pressure of the gas chamber 10A, and particularly adjusted to be 1.1 times or more. Is more preferable.

When the liquid pressure of the liquid source further decreases due to the delay of the processing of the processing circuit 60 or the delay of the work of the operator, the gas pressure of the gas chamber 10A resists the spring force of the spring 53 and the bladder 30. Is further expanded in the direction of arrow X and the poppet 52 is further moved in the direction of arrow X, and the poppet 52 is brought into contact with the oil port 51 to close the inner opening of the liquid guide hole 51A. When the inner opening of the liquid guide hole 51A is closed, the liquid remaining in the liquid chamber 10B is transferred to the oil port 51 via the liquid guide groove 55a and the liquid guide hole 55b of the filling ring 55 as the bladder 30 expands. The outer peripheral surface of the liquid is guided to the liquid guide hole 51A through the liquid guide pore 51c. In the liquid guide hole 51 A, the liquid is guided to the outer opening and then discharged toward the external liquid source.

[0035] As evidenced by the above, according to the present invention, by detecting the movement of the poppet 52 by the detection circuit 59 supplied to the processing circuit 60 directly controls the appropriate means by the processing circuit 60 Shea Rui that effect The operator is informed that at least one of the liquid pressure of the liquid source and the gas pressure of the gas chamber 10A should be adjusted so that the liquid pressure of the liquid source is at least equal to or higher than the gas pressure of the gas chamber 10A. Therefore, (i) it is possible to prevent the poppet from repeatedly moving toward the liquid guide hole, and (ii) it is possible to prevent the bladder from being caught between the poppet and the liquid guide hole and damaged. Also, (iii) it is possible to prevent the poppet from repeatedly moving in the direction of opening the liquid proposal hole and prevent the poppet from being damaged, and as a result, (iv) the service life can be extended. .

Liquid suction operation

When the liquid pressure of the liquid source increases with the poppet 52 closing the liquid guide hole 51A, the liquid is supplied from the external liquid source to the outer opening of the liquid guide hole 51A of the oil port 51. In the liquid guide hole 51A, the liquid is guided to the vicinity of the inner opening thereof and then pushes the poppet 52 toward the liquid chamber 10B as indicated by an arrow Y.

When the liquid pressure of the liquid source further increases, the liquid moves the bladder 30 and the poppet 52 in the arrow Y direction while resisting the gas pressure of the gas chamber 10A, and the poppet 52 is separated from the oil port 51. Excuse me. Along with this, the inner opening of the liquid guide hole 51A of the oil port 51 is opened toward the liquid chamber 10B, and the liquid starts to be supplied toward the liquid chamber 10B. In the liquid chamber 10B, the liquid pushes the bladder 30 in the direction of the arrow Y while resisting the gas pressure in the gas chamber 10A, so that the bladder 30 contracts.

When the liquid pressure of the liquid source is further increased, the liquid resists the gas pressure in the gas chamber 10A and moves toward the blade.30Then, the poppet 52 is moved in the direction of the arrow Y so that the poppet 52 is completely separated from the oil port 51. Along with this, the inner opening of the liquid guide hole 51A of the oil port 51 is completely opened toward the liquid chamber 10B, and the liquid is further supplied toward the liquid chamber 10B. In the liquid chamber 10B, the liquid is bladder.30Is pushed further in the direction of arrow Y while resisting the gas pressure in the gas chamber 10A.30The shell shrinks further 20 It is separated from the inner peripheral surface of the device and enters the operating state shown in FIGS. When the poppet 52 is completely separated from the oil port 51, the detection circuit 59 detects that fact and processes the detection result.60Give to. As a result, it can be confirmed that the adjustment of the liquid pressure of the liquid source or the adjustment of the gas pressure of the gas chamber 10A has been completed properly.

As the liquid pressure of the liquid source further increases, the liquid causes the bladder 30 to contract in the direction of arrow Y while resisting the gas pressure of the gas chamber 10A.

As is clear from the above, according to the present invention, the liquid is supplied from the liquid source to the liquid chamber 10B until the liquid pressure antagonizes the gas pressure of the gas chamber 10A.

(Modification)

In the above description, the liquid guide hole 55d is formed in the filling body 55B of the filling ring 55, the liquid guide hole 55b is formed in the filling ring 55, and the communication groove 51d is formed in the outer peripheral surface of the oil port 51. Moreover, the liquid guide hole 51c is formed in the oil port 51, and the poppet 52 is pressed by the bladder 30 to close the liquid guide hole 51A of the oil port 51, and then the liquid remaining in the liquid chamber 10B is removed from the liquid chamber 10B. The case where the oil is guided to the liquid guide hole 51A of the oil port 51 and discharged is also described, but the present invention is not limited to this, and the liquid guide hole is not formed in the filling body of the filling ring and the filling is performed. This is also included when the liquid guide pores are not formed in the ring, the connecting groove is not formed in the outer peripheral surface of the oil port, and the liquid guide pore is not formed in the oil port.

[0044]

[Effect of device]

 As is clear from the above, the accumulator according to the present invention fills the gas in the gas chamber formed by partitioning the inner space of the shell with the bladder, and has the liquid guide hole for communicating the liquid chamber with the liquid source. The formed oil port is held against the mounting opening of the shell, and a poppet is arranged for the liquid guide hole of the oil port so as to prevent the bladder from falling into the liquid guide hole of the oil port. The accumulator is configured as specified in the [Means for solving problems] section. In particular, a permanent magnet is arranged on the poppet and a detection circuit for detecting movement of the poppet is arranged on the oil port. By setting at least one of the liquid pressure of the liquid source and the gas pressure of the gas chamber according to the detection result when the detection circuit detects the movement of the poppet. Since the bladder prevents the poppet from moving, (i) it has the effect of preventing the poppet from repeatedly moving toward the liquid guide hole, and (ii) the bladder has the effect of preventing the poppet and the liquid guide hole from moving. It has the effect of preventing the poppet from being damaged by being sandwiched between it and (iii) It can prevent the poppet from repeatedly moving in the direction of opening the liquid guide hole, and the poppet can be broken. This has the effect of preventing this, and consequently (iv) has the effect of extending the useful life.

[Brief description of drawings]

FIG. 1 is a sectional view showing a half part of an embodiment of an accumulator according to the present invention.

FIG. 2 is a sectional view showing the other half of one embodiment of the accumulator according to the present invention.

[Explanation of Codes] 10 : Accumulator 10A Gas chamber 10B Liquid chamber 20・ ・ ・ ・ Shell 21a ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Gas filling mouthpiece member mounting opening 21b ・ ・ ・ ・Oil port mounting opening 30 ... Bladder 40 ...・ ・ ・ ・ Gas filling member 41 ・ ・ ・ ・ ・ ・ ・ ・Gas inlet cap members 41a, 41b ・ ・ ・ Screw part 41c ・ ・ ・Tapered part 41d ・ ・ ・ ・ Installation groove 42 ・ ・ ・ ・ ・ ・ ・ ・ ・・ Melt plug member 42a ・ ・ ・ ・ ・ ・ ・ Screw part 42b ・ ・ ・ ・ ・ ・ ・ ・ ・ Spring 42c・ ・ ・ ・ ・ ・ Plug 43 ・ ・ ・ ・ ・ ・ ・ ・ Cover member 43a・ ・ ・ ・ Screw part 44 ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Intermediate ring 44a・ ・ ・ ・ ・ ・ ・ Inside the end face 44b ・ ・ ・ ・ ・ ・ ・ Locking protrusion 45・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ O-ring 46 ・ ・ ・ ・ ・ ・ ・ ・ ・・ Filling ring 46A・ ・ ・ ・ ・ ・ ・ Fixing member 46B ・ ・ ・ ・ ・ ・ ・ Filler 46a ・ ・ ・ ・・ ・ ・ ・ ・ One end face inside 46b ・ ・ ・ ・ One end face outside 47 ・ ・ ・・ ・ ・ ・ ・ ・ ・ O-ring 48 ・ ・ ・ ・ ・ ・ Spacer ring 48a・ ・ ・ ・ Projection 49 ・ ・ ・ ・ ・ ・ ・ ・ Lock nut 49a・ ・ ・ ・ ・ ・ ・ Screw 50・ ・ ・ ・ ・ ・ ・ ・ ・ Oil Port member 51 ・ ・ ・ ・ ・ ・ ・ ・ ・ Oil port 51A ・ ・ ・ ・・ Liquid guide hole 51B ・ ・ ・ ・ Intermediate partition wall 51C ・ ・ ・ ・ ・ ・ ・ Through hole 51C ^*・ ・ ・ ・ Expansion opening 51D ・ ・ ・ ・ ・ ・ ・ Locking protrusion 51E・ ・ ・ ・ Installation holes 51a, 51b ・ ・ ・ ・ ・ ・ Screw 51c ・ ・・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Liquid guide pore 51d ・ ・ ・ ・ ・ ・ ・ ・ ・ Communication groove 52 ・ ・ ・ ・ ・ ・・ ・ ・ ・ Poppet 52a ・ ・ ・ ・ ・ ・ ・ ・ ・ Shaft 53 ・ ・ ・ ・・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Spring 54 ・ ・ ・ ・ ・ ・ ・ ・ ・ ・ Cylinder 54a ・ ・ ・ ・ ・ ・・ ・ ・ ・ ・ ・ ・..... Nut member 54b ..... Permanent magnet 55 ..・ ・ ・ ・ ・ ・ ・ ・ ・ Filling ring 55A ・ ・ ・ ・ Holder 55B ・ ・ ・ ・ ・ ・・ ・ ・ Filler 55a ・ ・ ・ ・ ・ ・ ・ ・ ・ Inside end face 55b ・ ・ ・ ・・ Liquid guide pore 55c ・ ・ ・ ・ ・ ・ ・ 55d outside the end face・ Liquid guide groove 56 ・ ・ ・ ・ ・ ・ ・ ・ O-ring 57 ・ ・ ・ ・Spacer ring 57a Projection 58 ...・Lock nut 58a ... Screw 59 ...・ ・ ・ ・ Detection circuit 59A ・ ・ ・ ・ ・ ・ ・ Lid 59B ・ ・ ・ ・..O-ring 60 ... Processing circuit 61 ...・ ・ ・ ・ ・ ・ ・ ・ Connection line

Claims (1)

[Scope of utility model registration request] 1. An oil port, in which a gas is enclosed in a gas chamber formed by partitioning an inner space of the shell with a bladder, and a liquid guide hole for communicating the liquid chamber with a liquid source, is formed in a mounting opening of the shell. In the accumulator in which the poppet is arranged for the liquid guide hole of the oil port so as to hold it against the liquid guide hole of the oil port, the permanent magnet (54b ) Is installed and a detection circuit (59) for detecting movement of the poppet is arranged in the oil port, and when the detection circuit (59) detects movement of the poppet, the liquid pressure of the liquid source is detected according to the detection result. An accumulator characterized in that the bladder is prevented from moving the poppet by adjusting at least one of the gas pressure in the gas chamber and the gas pressure in the gas chamber.