JPS60129031A - Stocker for endoscope - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [Technical field of invention] The present invention relates to improvements in storage for endoscopes.

[Background technology and its problems]

In recent years, an endoscope with a completely waterproof structure has been developed, making it possible to clean the entire endoscope or disinfect and sterilize it with a chemical solution. However, even in this type of endoscope, water vapor gradually penetrates into the endoscope through its outer skin and the like, increasing the humidity inside the endoscope. This increase in immersion also increases the amount of bending in the fibers used in the optical fiber guide and the image guide.

Therefore, when the humidity inside the endoscope increases, it is necessary to remove the humidity.

[Purpose of the invention]

The present invention has been made in view of the above circumstances, and its purpose is to provide an endoscope. To provide a storage for endoscopes capable of removing moisture inside the endoscopes while being stored and regenerating desiccant material.

[Summary of the invention]

The present invention provides a moisture absorption section having a drying material in communication with a storage chamber in which endoscopes are stored, a heating means for roughly increasing the temperature inside the storage chamber, and a moisture absorption section that communicates with a storage chamber for storing endoscopes. and drying by the heating means, and is provided with means for regenerating the desiccant material in the moisture absorbing section by drawing in outside air by utilizing the operation of the heating means. .

[Examples of invention]

Hereinafter, one embodiment of the present invention will be described based on the drawings.

FIG. 1 shows an endoscope storage 1. As shown in FIG. This storage 1 is equipped with double doors 2.2 on the front, and 7% 3e 3 is the handle, and each door 2.2 shows the status of the storage room 5 yen. A transparent glass window 6, 6 is provided. A horizontally arranged hanger 7 is provided at a relatively upper part of the warehouse 5, and this hanger 7
A plurality of endoscopes 9 having a waterproof structure are suspended by hooking the operation parts 8 to the respective endoscopes. In other words, it constitutes a means for aligning and holding a plurality of endoscopes 9....

Additionally, a drying device is installed at the top of the storage compartment 5 as described later.
l is provided. This drying device 11 has two partitioned chambers as shown in FIG.
2, and the other is the moisture absorbing part 13. The warm air generating section 12Vc is provided with a blower J4 as a blowing means and an electric heater J5 as a heating means. The blower J4 consists of a motor J6 and a fan 17.
It is configured to blow wind toward the electric heater 15. This wind is blown out from the opening J8 of the hot air generating section J2 into the chamber 5 which communicates with this. Note that a breathable cover 19 made of wire mesh or the like is attached to the opening 18. Roughly speaking, the hot air generating section 12 is provided with an air intake section 21. This air intake part 21 is provided with a normally closed valve 22 as shown in FIGS. I'm starting to refuse because it's a problem.

The above-mentioned valve 22 has a valve seat 24 and a valve plate 25, which are connected to each other by a valve seat 24 and a valve plate 25. Normally, the valve seat 24 is in a closed state. Generally speaking, the valve plate 25 is made of a magnetic material, and is designed to be closed by an electromagnet 27. The attachment is fixed to the wall of the FEJ, and its suction end faces the valve plate 25.Then, as shown in FIG.
The suction valve 22 is opened by the valve plate 25 against the urging force of the valve plate 25.

On the other hand, a desiccant material 3 such as silica gel is placed inside the moisture absorbing section 13.
)... are placed one on top of the other. The trays 32 are made of wire mesh or the like with many holes smaller than the size of the particles of the desiccant material 3, so as not to obstruct the flow of air. The interior of this suction unit 1° is storage room 5.
Since the interior is opened and communicated with, the air in the storage room 5 can freely enter and exit 9 into the moisture absorbing section 13. Further, this moisture absorbing portion 13 is provided with an air outlet portion 33 . This air outlet portion 33 is constructed as shown in FIGS. 5 and 6, and is provided with a normally closed valve 34. The configuration of this air outlet section 33 is similar to that of the air intake section 2 described above.
The air exhaust hole 34aVc
is a similar valve seat 35. Valve plate 36. coil spring 37,
An electromagnet 382, a ventilation hole 39 and a cover plate 4° are provided. Then, by energizing the electromagnet 38 and opening the valve 34, the air in the warehouse 5 is transferred to the drying material 3...
After passing through the section, it can be discharged to the outside.

By the way, the air intake part 2 and the air outlet part 33
Valve 22. :14 are designed to open and close in conjunction with each other. The pick and electromagnets 27 and 38 are excited at the same time. At the same time, the blower 14 of the hot air generating section J2 is also activated.

Next, the operation of the above-mentioned endoscope storage will be explained.

Endoscope 9 whose interior became highly humid due to immersion in a chemical solution, etc.
... is suspended from the hanger 7 in the storage room 5, and the opening/closing door 2.2
Close.

In a normal case, that is, when the frequency of immersion in a chemical solution is low, drying is performed by the function of the moisture absorbing section 1H without operating the hot air generating section J2.

t, a, air intake portion 21. Both of the air outlet portions 33 are closed, so the interior of the storage room 5 is in a sealed state. Therefore, by storing the endoscope 9 in the low-humidity chamber v5 due to the dry phase 31 of the moisture absorbing section 13, the omega air inside the endoscope 9 can be absorbed without absorbing external air.

Even the endoscope 9 having a waterproof structure can be dehumidified in the form of steam that passes through its resin outer cover.

Next, the frequency of immersion in the chemical solution is high, and the Il
If l is long, for example 10 hours, the hot air generator 12 is also activated. That is, current is supplied to the electric heater 15 to cause the electric heater J5 to generate heat. Furthermore, electric power is also supplied to the motor 16 of the blower 14, and the fan 17 is rotationally driven by the motor J6. At the same time, the electromagnets 27, 38f of the air intake port 2 and the air outlet 33 are energized, and the respective openings 21, 33 are opened as shown in FIGS. 4 and 6.

Through the action of the blower J4, external air flows into the hot air generating section 12 indoors from the air intake section 21.
The hot air is heated by an electric heater 15 and then blown out into the storage room 5. Therefore, the temperature in the warehouse 5 increases and the humidity decreases. Therefore, the endoscopes 9 stored in the storage room 5 can be forcibly dried and dehumidified in a short period of time.

Further, the high temperature air passes through the drying material 3 of the moisture absorbing section 13 and is discharged to the outside from the air outlet section 33. and,
At this time, the moisture already absorbed by the drying material 3 is evaporated by the high temperature air, and the air outlet portion 33
can be discharged from Well, 3 pieces of drying material...
can be played simultaneously.

In the above embodiment, if the drying device J1 is incorporated into the unit assembly 41 as shown in FIG. 2, it can be attached to the storage J as a unit. Therefore, it can be manufactured at low cost.

Further, the present invention is not limited only to the above embodiments. For example, the drying device may be located elsewhere. Further, the hot air generating section and the g&humidity section may be provided separately.

〔Effect of the invention〕

As explained above, according to the endoscope storage of the present invention,
The endoscope can be stored and dehumidified at the same time.

Therefore, there is no need to take the trouble to dehumidify the product beforehand and store it, which is convenient because special work can be omitted. It is also easy to operate. Furthermore, when strong dehumidification is desired, drying can be performed using hot air, so that dehumidification can be carried out efficiently and in a short time, and at the same time, the desiccant material can be regenerated.

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention; FIG. 1 is a perspective view of the entire device, FIG. 2 is a front sectional view of the drying device, and FIGS. 3 and 4 are views of the valve on the air intake side. FIGS. 5 and 6 are cross-sectional views of the valve on the air outlet side. 1...Storage, 2...Opening/closing door, 3...Handle, 5
...Storage room, 6.Glass window, 7.Hanger, 8.
...Operation unit, 9...Endoscope, 11...Drying device, No.2...Warm air generation section, 13...Moisture absorption section, 14...Blower, 15...Electric heater, Noro...Motor, 17
...Fan, J8...Opening, 19...Cover,
2...Air intake part, 22...Valve, 23...
Air intake hole, 24... Valve seat, 25... Valve plate, 26
...Coil spring, 27...Electromagnet, 28...
・Vent hole, 29... Lid plate, 3 inside drying material, 32...
Receiver is a plate, 33... Air outlet part, 34... Valve, 35
...Valve seat, 36...Valve plate, 37...Coil spring, 38...Electromagnet, 39...Vent hole, 40...
・Lid plate.

Claims (1)

[Claims] A storage room for storing endoscopes, a moisture absorbing section communicating with the storage room and having a desiccant material for absorbing moisture in the storage room, a heating means for increasing the temperature inside the storage room, and a drive for the heating means. The air blowing means is normally open, but opens when the air blowing means is activated, and the air blowing means guides outside air into the storage room (through the air intake section and the moisture absorption section). The interior is characterized by being equipped with an air exhaust port which communicates and is normally closed, but opens when the air blowing means is activated and discharges the air to the outside of the indoor air safe through all of the moisture absorption parts by the air blowing means. Storage for endoscopy.