JPS63190901A - Accumulator device - Google Patents

Abstract

PURPOSE:To ensure accurate and speedy judgement of temperature-rise in the pressure vessel of an accumulator by sticking a temperature detecting material onto the outer surface of the pressure vessel. CONSTITUTION:A temperature detecting material 6 for detecting and indicating temperature is stuck onto the outer surface 2a of a shell 2A in each accumulator 2. Thermopaint, being in inky, is printed on a thin tape material 6A to make the temperature detecting material 6. The thermopaint is changed in its color with temperature-rise. With this constitution, temperature-rise/drop of a pressure vessel can be accurately judged, independent of an operator's temperature sense.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to an accumulator device, and more specifically, it is used in the field of a supply and discharge device for working fluid in a fluid pressure circuit, and is used to control the pressure generated when fluid is introduced and taken out. The present invention relates to an accumulator device that can detect a rise in temperature of a container.

[Prior art]

An accumulator device is employed to supply and discharge working fluid in a hydraulic circuit. The fluid discharged from the hydraulic pump provided in the fluid pressure circuit pulsates to a greater or lesser extent, and the pressure of the working fluid repeatedly rises and falls, even if only slightly.

In addition, in switching valves that control the supply and discharge of fluid to actuators such as hydraulic cylinders and hydraulic motors in fluid pressure circuits, when the valve is opened, the working fluid starts flowing rapidly and the pressure drops. Furthermore, the working fluid that was flowing during the valve closing operation is rapidly stopped, and a surge pressure is generated. In this way, the accumulator temporarily stores the working fluid when the pressure increases, and when the pressure decreases, the stored fluid is immediately released without waiting for the arrival of the working fluid from the hydraulic pump. It functions to quickly supply working fluid to the actuator.

In such an accumulator device, a bag-like rubber bladder is built into the shell, which is a cylindrical pressure vessel, and a gas such as nitrogen gas of about 200 kg f/cd is sealed inside the bladder. has been done. On the other hand, the working fluid is introduced into the space between the shell and the bladder due to a pressure increase due to pulsations generated in the working fluid discharged from the hydraulic pump or a pressure increase accompanying the opening/closing operation of the valve. As the working fluid is stored, the bladder contracts, the pressure of the gas body increases, and the gas pressure is balanced with the pressure of the working fluid. Conversely, when the fluid pressure decreases or the valve opens, the stored working fluid is discharged. When the gas is fully released, the gas pressure will be 200
The bladder is restored as the weight returns to around kgf/aa.

The high-pressure gas sealed in the bladder of an accumulator with such a function may gradually leak and the pressure may decrease over time.

As a result, the potential energy held in the accumulator decreases, and the bladder that separates gas and liquid may be damaged.To prevent this,
Periodic inspections are carried out every one to three months, for example to measure whether the initial filling pressure of the gas body is maintained.

When the accumulator device is operating normally, the gas body sealed in the bladder is frequently compressed and expanded due to repeated supply and discharge of working fluid.

Usually, compression is done rapidly, so the gas body undergoes a polytropic change and its temperature increases. Since the gas body expands relatively slowly when the working fluid is discharged, the gas body changes isothermally and maintains a state of heat storage due to compression. Furthermore, the heat generated by the continuously operating hydraulic pump raises the temperature of the fluid, and the supply and discharge of the heated fluid also raises the temperature of the accumulator. As a result, the shell temperature remains between 40 and 60°C as long as the accumulator continues to operate normally. By the way, if the gas body of the bladder leaks and the internal pressure decreases, it becomes difficult for the working fluid to be taken in and out, and the compression and expansion of the gas body also decreases, so the working fluid inside the accumulator and the shell are The temperature drops to near Therefore, in order to confirm the normal operation of the accumulator until the next inspection, workers touch the outer surface of the shell with their bare hands to check whether the temperature is normal.

[Problem that the invention seeks to solve]

Although the above-mentioned inspection that relies on the sensation of coolness and heat with bare hands is simple, it is subjective and often lacks objectivity due to individual differences, leading to management problems such as making incorrect judgments. To solve this and accurately detect the temperature of all accumulators,
A temperature needle is required for each accumulator. Moreover, the installation/removal work and reading are laborious and time consuming, and in addition, there is a problem in that management costs such as purchasing and storing the measuring instruments increase.

The present invention was made in order to solve the above-mentioned problems, and its purpose is to be able to accurately and quickly measure the temperature of an accumulator without relying on temperature sensation, which tends to vary between individuals, and to be inexpensive and easy to operate. It is an object of the present invention to provide an accumulator device that can objectively determine whether the condition is good or bad.

[Means for solving problems]

The features of the accumulator device of the present invention will be explained with reference to FIG. 1. When the temperature rises above the installation environment temperature and reaches a predetermined temperature range, the color changes from the original color, and when the temperature falls outside the predetermined temperature range, the color changes from the original color. A reversible temperature detection material 6 that changes color is attached to the outer surface 2a of the pressure vessel 2A.

[Function] - On the outer surface 2a of the shell constituting the pressure vessel 2A of each accumulator 2, a temperature detection material 6 that displays the temperature by changing color is stuck. The accumulator 2 connected to the fluid pressure circuit has an internal bladder 5 for supplying and discharging working fluid.
[See Figure 2] is compressed and expanded, and the temperature of the enclosed gas increases accordingly. As a result, shell 2
When the temperature of the outer surface 2a of A rises above the installation environment temperature and reaches a predetermined temperature range, the temperature detection material 6 changes color.

By visually observing it, it can be determined that the accumulator 2 is operating smoothly. On the other hand, temperature detection material 6
If the shell 2A has not changed color, it can be recognized that the temperature of the shell 2A has decreased and that the accumulator is not functioning sufficiently.

〔Effect of the invention〕

In the accumulator device of the present invention, the color changes when the temperature rises from the installation environment temperature and is maintained within a predetermined range, and returns to the original color when the temperature falls outside the predetermined range. Since the temperature detection material is affixed to the outer surface of the pressure vessel, the temperature rise in the pressure vessel of the accumulator can be quickly and easily determined based on the discoloration of the temperature detection material, without relying on the operator's sense of temperature. can. Furthermore, the temperature detection material has a low profile and is durable, and is easy to install and remove. The color change effect is reversible and has high temperature measurement accuracy, which significantly improves the maintainability of fluid pressure circuits using accumulator devices that use temperature sensing materials, and reduces management costs. can.

〔Example〕

EMBODIMENT OF THE INVENTION Hereinafter, the present invention will be described in detail based on drawings showing embodiments thereof.

The accumulator device 1 shown in FIG.
b is connected to a hydraulic pipe 4 of a fluid pressure circuit (not shown).

A bag-shaped rubber bladder 5 is built into a cylindrical shell 2A constituting a pressure vessel as shown in FIG. For example, 200 kg is stored inside the bladder 5.
An inert gas such as nitrogen gas or argon gas of approximately f/cIA is sealed.

A temperature detection material 6 for detecting and displaying the temperature is attached to the outer surface 2a of the shell 2A of each accumulator 2. To describe an example of this temperature detection material 6 in detail, the third
An inked thermopaint l-1cm4 (see figure) is printed on the rectangular thin tape body 6A shown in the figure. The thermopaint T has a color change temperature of, for example, 40°C or 50°C.
It is a chemical substance that has a temperature of 60°C and 170°C.Thermo tape with a discoloration temperature of 40°C has a reddish-yellow color at temperatures below 40°C, and then increases to 40°C ±
The color changes to reddish orange, which is a high temperature color, at 2°C.

Therefore, it is possible to determine whether the accumulator 2 is operating normally just by checking the reddish-orange color.

In the thermo tape 6 shown in FIG. 4, a polyester film Sl is disposed on the uppermost layer, and thermopaint T in the form of ink is printed on the lower layer.

A polyester film S2 is inserted into the lower layer of the thermopaint T, ``glue'' ■ is adhered to the lower surface of the polyester film S2, and a removable release paper W is pasted to the lower surface of the ``glue'' ■. Therefore, when attaching the thermo tape 6 to the outer surface 2a of the accumulator 2, if the release paper W is removed, the "glue" ■ is exposed,
The thermo tape 6 can be easily pasted at a position where it is easy to see, for example, close to eye level. By the way, the above 50.
The light colors of the thermo tape 6, which has a color change temperature of 60.70°C, are yellow, bright yellowish red, and red, and the color changes to yellowish orange, dark brownish purple, and dark brownish purple. There is.

Accumulator 2 to which such temperature detection material 6 is attached
is connected to a hydraulic pipe 4 of a fluid pressure circuit equipped with an actuator such as a hydraulic cylinder, a hydraulic pump, and a switching valve near the actuator. As described above, the temperature of the working fluid discharged from the continuously operating hydraulic pump is increased by the frictional heat generated by the mechanical friction of the hydraulic pump. On the other hand, due to the surge phenomenon accompanied by the pulsation of the working fluid discharged from the hydraulic pump and the rise and fall of pressure due to the opening and closing of the switching valve, the gas body in the accumulator 2 is frequently compressed and expanded, and the gas body suddenly A polytropic change occurs due to compression and the temperature rises, and the accumulator 2 absorbs heat and enters an N-thermal state. Furthermore, the temperature of the working fluid due to the above-mentioned frictional heat is also increased, and the temperature of the outer surface 2a of the shell 2A rises to 40 to 60°C.

A pressure increase occurs in the fluid pressure circuit based on the above-mentioned pulsation and surge phenomenon, and the working fluid flows to the shell 2A [see Figure 2].
and the bladder 5. At this time, the working fluid is supplied and discharged, and the bladder 5 contracts as shown by the broken line, and the internal pressure increases to reach an equilibrium state. Conversely, when a pressure drop occurs in the fluid pressure circuit, the working fluid stored in the accumulator 2 is immediately drawn out and supplied to the actuator. When the accumulator 2 is completely discharged, its internal pressure returns to a predetermined pressure, and the bladder 5 is expanded and restored as shown by the two-dot chain line.

When the temperature of the outer surface 2a of each accumulator 2 in the accumulator device 1 rises to 38 to 42°C, the sumo tape 15 changes color. It can be determined from the color change that each accumulator 2 is operating normally. If thermo tape 6 with a high discoloration temperature is used, the desired temperature of 48 to 52°C can be achieved.
, 58-62°C or 68-72°C, so the operation can be confirmed by these color changes.

Instead of the thermo tape 6 described above, the outer surface 2 of the shell 2A
An example of the digital thermo tape shown in FIG. 5 and FIG. 6 attached to a will be explained. Temperature detection material 7.8 is a digital thermo tape, and the former 7 is 16-36℃
The latter 8 is displayed every 2 degrees Celsius in the range of 38 to 58 degrees Celsius.

If these digital thermo tapes 7 and 8 are attached continuously, the temperature of the outer surface 2a of the accumulator 2 can be checked by reading the discolored numbers as in the above embodiment, and the operation of each accumulator 2 can be confirmed. It is possible to determine whether the prone position is good or bad.

By the way, this Digital Thermo Tape 7.8 is made of a polyester film that encapsulates Cholesterink liquid crystal and turns it into ink, with numbers specially printed on it, and in addition to its thin planar structure, it has flexibility and curved parts. temperature measurement. As the temperature rises, the liquid crystal changes color in the order of black, brown, green, blue, and violet, and when the temperature falls, it returns to light color in the reverse order.

Note that, for example, the numbers that turn green are adjusted to indicate the temperature at that time.

[Brief explanation of the drawing]

Fig. 1 is a front view of the accumulator device of the present invention, Fig. 2 is a schematic operational view of the bladder, Fig. 3 is a front view of the thermo tape, Fig. 4 is an enlarged cross-sectional view taken along the line IV-IV in Fig. 3, 5 and 6 are front views of the digital thermo tape. 2A--Pressure vessel (shell), 2a-outer surface, 6°7.
8-・Temperature detection material (thermo tape, digital thermo tape). Patent applicant Nakamura Koki Co., Ltd. Agent Patent attorney Katsutoshi Yoshimura (and one other person) Figure 2 Figure 3 Reciprocal Figure 4

Claims (1)

[Claims] (1) A reversible temperature sensing material is installed on the outer surface of the pressure vessel that changes color from its original color when the temperature rises above the installation environment temperature and reaches a predetermined temperature range, and returns to the original color when the temperature falls outside the predetermined temperature range. An accumulator device characterized by being pasted.