JP2005121044A - Valve device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a valve device capable of maintaining the cleanliness to detail since valve elements and the peripheral parts thereof can be easily cleaned in short time by easily separating the valve elements from a valve stem. <P>SOLUTION: This valve device comprises the reciprocatingly moving valve stem 25, a holding tubular body 26 slidably storing the valve stem 25, the valve elements 10 having valve seats 14 oppositely disposed at one end of the valve stem 25, a valve box 23 connected to one end of the holding tubular body 26 and storing the valve elements 10, a diaphragm 24 shielding airtight between the holding tubular body 26 and the valve box 23, a pair of magnets 16 and 18 oppositely disposed at the end part of the valve stem 25 and at the end part of the valve element opposed thereto and magnetically acting on each other through the diaphragm 24, an inflow pipe 41 and an outflow pipe 36 connected to the valve box 23 so as to be separated, and a seal part 46 formed at the opening part of the inflow pipe 41 or the outflow pipe 36 for seating the valve seat 14. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  INDUSTRIAL APPLICABILITY The present invention is suitable for use in a food and beverage product such as milk and juice, or a conduit for flowing a liquid or gas (hereinafter referred to as a food or beverage product) that directly affects the human body, such as a medicine or skin lotion. The present invention relates to a valve device.

Since the valve device that handles food and drinks directly affects the human body, it is particularly necessary to keep the inside of the flow path clean. Therefore, it is desired that the cleaning after the work can be performed in detail.
A conventional valve device has a structure in which a valve body positioned between an inflow conduit and an outflow conduit and a valve shaft that moves the valve body are integrally connected. A reciprocating mechanism such as an air cylinder for reciprocating the valve shaft is connected to the valve shaft (see Patent Document 1).
JP 2003-120856 A

By the way, the conventional technique has the following problems to be solved.
In a conventional valve device for handling food and drink, etc., a valve body that easily collects residue and a valve shaft that does not need to be washed are integrally connected, so that the valve body is separated from the valve shaft and washed. Was not easy. Therefore, it took a considerable amount of time and labor to clean the valve. If the valve body is separated from the valve shaft for cleaning, the best care should be taken to prevent the cleaning liquid from splashing toward the valve shaft when cleaning the area around the valve body in the valve box. There was annoyance to become.

  The present invention has been made paying attention to the above points. The valve body and the valve shaft can be easily separated to clean the valve body and its peripheral portion easily and in a short time. An object of the present invention is to provide a valve device capable of maintaining the thickness.

The present invention solves the above problems by the following configuration.
<Configuration 1>
A valve shaft that reciprocates, a holding cylinder that slidably accommodates the valve shaft, a valve seat that is disposed to face one end surface of the valve shaft, and that accommodates the valve body. A valve box connected to one end of the holding cylinder, a diaphragm disposed between the valve shaft and the valve body, and shielding the inside of the holding cylinder and the inside of the valve box; A pair of magnets arranged opposite to each other on the opposing surfaces of the valve shaft and the valve body and acting to attract each other through the diaphragm, an inflow conduit and an outflow connected to the valve box in a separable manner A valve device comprising: a pipe line; and a seal portion provided at an opening of the inflow pipe line or the outflow pipe line and seating the valve seat.

  In the valve device of Configuration 1, the valve shaft and the valve body are connected via a diaphragm by a pair of magnets when used. During cleaning, a part of the valve box is opened by separating the inflow and outflow lines from the valve box, and the valve body that is adsorbed by the magnetic force to the valve shaft can be easily removed from the valve shaft. it can. Even when the valve body is removed, the inside of the valve box and the inside of the holding cylinder housing the valve shaft are shielded by the diaphragm. Therefore, the outer surface of the valve body, the inner surface of the valve box, the surface of the diaphragm on the valve box side, and the like can be cleaned easily and in a short time.

<Configuration 2>
The valve device according to Configuration 1, wherein the magnet is a magnet that generates a high magnetic field.

  By using a magnet that generates a high magnetic field, impurities such as iron that are harmful to the human body can be adsorbed and removed by the magnet, and the effect of magnetized water can be obtained when moisture is passed. Magnetized water is softened and has a mild taste.

<Configuration 3>
The valve device according to Configuration 1, wherein a surface of the diaphragm on the valve box side is formed of a fluororesin.

  Utilizing characteristics such as non-adhesiveness of the fluororesin, it is difficult for residues to adhere to the diaphragm, and even if it adheres, it can be easily removed during cleaning.

  Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a cross-sectional view showing an embodiment of a valve device.
In FIG. 1, a reciprocating valve shaft 25 is slidably accommodated in a holding cylinder 26 via a plurality of O-rings. One end of the valve shaft 25 and the holding cylinder 26 is an air cylinder mechanism. That is, one end portion 26A of the holding cylinder 26 is formed with a large diameter, and the piston portion 27 is slidably fitted into the inner periphery of the large diameter portion 26A. The piston portion 27 is fitted to one end portion of the valve shaft 25. Ring-shaped packings 34 </ b> A and 34 </ b> B are disposed on the circumference of the piston portion 27, and the space between the piston portion 27 and the holding cylinder body 26 is held airtight. The end surface of the holding cylinder 26 on the large diameter portion 26 </ b> A side is closed by a lid 28. The lid body 28 is fixed to one end portion 26A of the holding cylinder body 26 by a plurality of fastening bolts 33A and 33B.

  Circumferential grooves 28 </ b> A and 27 </ b> A are provided on the opposing surfaces of the lid body 28 and the piston portion 27, respectively. A coil spring 30 is disposed between the circumferential grooves 28A and 27A. The coil spring 30 is urged so as to constantly press the piston portion 27. Air is press-fitted into an air flow passage (not shown) into a space 29 in the large-diameter portion 26 </ b> A that is sealed by the piston portion 27. When air is pressed into the space 29 against the spring force of the coil spring 30, the piston portion 27 moves upward in the figure. That is, a single operation of a normal air cylinder in which the valve shaft 25 is movable is performed. The air cylinder portion may be a double-acting cylinder, a motor drive, or an electromagnet.

A permanent magnet 18 is disposed at the other end of the valve shaft 25. That is, a recess is provided on the other end surface of the valve shaft 25, and the permanent magnet 18 is fitted into the recess and is held by the cap 48. Screw portions 49 that can be screwed to each other are provided on the inner peripheral surface of the recess and the outer peripheral surface of the cap 48, and the cap 48 is attached by rotating.
The valve body 10 is disposed so as to face the inner end surface of the valve shaft 25. A valve box 23 that houses the valve body 10 is connected to one end of the holding cylinder 26.

  The joining end of the holding cylinder 26 and the valve box 23 is connected by a locking tool 39. The locking tool 39 is generally in the form of a ring that is split into two in the axial direction, and is attached to straddle between the flanges provided at the respective ends of the holding cylinder 26 and the valve box 23. By applying a force in the radial direction so that the substantially ring-shaped locking tool 39 is reduced in diameter, the holding cylinder 26 and the inclined surface provided on the side surface of each flange of the valve box 23 are pressed to hold the holding cylinder 26. And the valve box 23 are fixed close to each other. Moreover, the joint end of each flange of the holding | maintenance cylinder 26 and the valve case 23 can be isolate | separated by canceling | releasing the pressing force of the latching tool 39 and disassembling the split structure.

2 and 3 are cross-sectional views showing the valve body 10 in an enlarged manner.
2 and 3, the valve body 10 includes a valve seat 14 sandwiched between an inner presser fitting 13 and an outer presser fitting 11. The valve seat 14 is formed in a cylindrical shape by a fluororesin. The inner presser fitting 13 and the outer presser fitting 11 are screwed together by a screw portion 13A provided so as to be screwed to each other, and sandwich the valve seat 14 with an appropriate tightening force. A screw-in groove 22 is provided on the outer end face of the inner presser fitting 13. The screwing groove 22 has an elongated opening surface, a circular arc shape, and a shape into which an arc portion of a coin-like object can be inserted. By inserting a coin-like object into the screwing groove 22 and rotating the inner presser fitting 13, the outer presser fitting 11 can be screwed or removed.

  The outer presser fitting 11 is reduced in diameter on the side opposite to the side holding the valve seat 14, and a cap 12 is covered on the outer periphery thereof. The outer presser fitting 11 and the cap 12 are screwed together by a screw portion 11B provided so as to be screwed together. A permanent magnet 16 is disposed between the end surface of the outer presser fitting 11 and the cap 12. A concave portion is provided on the same end surface of the outer presser fitting 11, and a coil spring 19 urged so as to always press the permanent magnet 16 is disposed in the concave portion. The cap 12 hermetically covers the permanent magnet 16 with an O-ring 20 disposed on the peripheral surface of the outer presser fitting 11.

  As shown in FIG. 1, a diaphragm 24 that hermetically shields the holding cylinder 26 and the valve box 23 is disposed between the valve shaft 25 and the valve body 10. The permanent magnet 18 on the valve shaft 25 side and the permanent magnet 16 on the valve body 10 side are arranged to face each other with the diaphragm 24 sandwiched therebetween, and act to attract each other. The outer periphery of the diaphragm 24 is attached and attached to the joint between the holding cylinder 26 and the valve box 23. The center portion of the diaphragm 24 covers the top of the outer peripheral surface of the cap of the valve body 10.

  As shown in FIG. 4, the diaphragm 24 has a two-layer structure in which a circular rubber film 24A and a circular fluororesin film 24B are laminated. The fluororesin film 24B is attached so as to be a surface on the valve box 23 side. The rubber film 24A is used because it has rubber elasticity and is considered to be airtight. The reason why the fluororesin film 24B is used on the surface of the valve box 23 is that the excellent characteristics peculiar to fluororesins such as non-adhesiveness, durability, chemical resistance, and heat resistance are taken into consideration. By utilizing the property, it is difficult for the residue to adhere to the diaphragm 24, and even if it adheres, it can be easily removed during cleaning. Examples of the fluororesin used include tetrafluoroethylene resin.

  An inflow conduit 41 and an outflow conduit 36 are connected to the valve box 23 in a separable manner. The inflow conduit 41 is connected via the auxiliary conduit 40. The inflow conduit 41 and the auxiliary conduit 40 are joined via a packing 44, and are connected by attaching a locking tool 43 to a flange provided at each joining end. The locking tool 43 has the same configuration as the locking tool 39 described above, and has the same function. Further, the outflow pipe 36 is connected to a flange 35 provided at one end thereof and a flange provided at the end of the valve box 23 by attaching a locking tool 38 via a packing 37. The locking tool 38 has the same configuration as the locking tool 39 described above, and has the same function. A seal 46 for seating the valve seat 14 is provided at an opening provided in the flange 35 of the outflow pipe. The permanent magnets 16 and 18 may be electromagnets.

In the state of use of the valve device of the first embodiment, the valve body 10 connected via the magnet 18, the diaphragm 24, and the magnet 16 by reciprocating the valve shaft 25 with a cylinder mechanism in the state shown in FIG. Is operated to open and close between the valve seat 14 and the seal portion 46. The fluid flowing in from the inflow pipe 41 flows into the outflow pipe 36.
At the time of cleaning, the valve body 10 adsorbed by the magnetic force to the valve shaft 25 can be removed from the valve shaft 25 by removing the locking member 38 and separating the outflow pipe 36 from the valve box 23. Even when the valve body 10 is removed, the inside of the valve box 23 and the inside of the holding cylinder 26 that houses the valve shaft 25 are hermetically shielded by the diaphragm 24.

It is sectional drawing which shows the valve apparatus of Example 1. FIG. It is sectional drawing which shows the valve body of Example 1. FIG. It is a bottom view showing the valve element of Example 1. 1 is a cross-sectional view showing a diaphragm of Example 1. FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 10 Valve body 11 Outer presser fitting 12 Cap 13 Inner presser fitting 14 Valve seat 16, 18 Magnet 23 Valve box 24 Diaphragm 25 Valve shaft 26 Holding cylinder 28 Cover body 36 Outflow pipe 38, 39, 43 Locking tool 41 Inflow pipe Road 46 Sealing part 48 Cap

Claims (3)

A reciprocating valve shaft;
A holding cylinder that slidably accommodates the valve stem;
A valve body comprising a valve seat and disposed opposite to one end surface of the valve shaft;
A valve box containing the valve body and connected to one end of the holding cylinder;
A diaphragm that is disposed between the valve shaft and the valve body and shields the inside of the holding cylinder and the inside of the valve box;
A pair of magnets arranged opposite to each other on the opposed surfaces of the valve shaft and the valve body, and acting to attract each other through the diaphragm;
An inflow line and an outflow line detachably connected to the valve box;
A valve device comprising: a seal portion that is provided at an opening of the inflow conduit or the outflow conduit and seats the valve seat. The valve device according to claim 1,
The said magnet is a magnet which generate | occur | produces a high magnetic field, The valve apparatus characterized by the above-mentioned. The valve device according to claim 1,
A valve device characterized in that a surface of the diaphragm on the valve box side is formed of a fluororesin.

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