JPH01130476A - Fuel cell - Google Patents

Abstract

PURPOSE:To facilitate accommodation, taking-out, and fixation of the contents of a battery in/from/to a tank by coupling the contents of a plurality of cells through an upper and a lower plate solidly into a single piece, and by furnishing a slide means at the lower coupling plate. CONSTITUTION:Contents of a plurality of cells consolidated by an upper 13 and a lower 14 coupling plate are run on rails 18 in a horizontal type cylindrical tank 3 with the aid of wheels 15 mounted to the lower coupling plate 14. This facilitates simultaneous accommodating and taking-out of the contents of cells. Mounting of the cell contents to the upper coupling plate 13 and a fixing seat 19 of tank and also mounting to the lower coupling plate 14 and rails 18 are made in the condition that the cell contents are accommodated in the horizontal type cylindrical tank 3, by fitting bolts 21 in bolt holes provided at the opening of the tank 3. Thus the contents of a plurality of coupled cells can be fixed to the tank 3. This allows fixation the cell contents in a lump with each works from outside the tank 3 to lead to enhancement of working easiness.

Description

[Detailed Description of the Invention] [Object of the Invention] (Industrial Application Field) The present invention relates to a fuel cell, and particularly relates to an improvement in technology for storing and removing the contents of a fuel cell when the fuel cell tank is placed horizontally. It is something.

(Prior Art) Conventionally, as a fuel cell in which a tank is placed horizontally, there is, for example, a technique disclosed in Japanese Patent Application Laid-Open No. 58-201088.

The configuration of such a conventional fuel cell is shown in Figure 4 (A>(B
).

In FIG. 4 (A>(B)), manifolds 2 for supplying and discharging reaction gas are in close contact with the four sides of a cell stack 1, which is made up of a plurality of unit cells stacked in a rectangular column shape. A plurality of battery contents are arranged and stored in the horizontal cylindrical tank 3.

Here, the cell stack 1 is fixed to the horizontal cylindrical tank 3 by using an upper fixing seat 4 and a lower fixing seat 5 provided at the upper and lower inner sides of the horizontal cylindrical tank 3, and by attaching them to the upper and lower parts of the cell stack 1. This is done by fixing the upper clamping plate 6 and lower clamping plate 7, respectively.

Furthermore, connecting pipes 8 such as a reaction gas supply and discharge pipe and a cooling water supply and discharge pipe are connected to the manifold 2.

On the other hand, the horizontal cylindrical tank 3 is fixed to the floor by a support fitting 9, its opening is closed by a cover 11 having a body 7 flange 10, and its outer surface is covered with a heat insulating material 1.
Covered by 2.

(Problems to be solved by the invention) However, in the conventional fuel cell as described above,
Since no device is installed to store the contents of multiple connected batteries in the horizontal cylindrical tank 3, it is difficult to store the contents of the batteries in the horizontal cylindrical tank 3 or take them out of the tank 3, so a crane or the like must be used. The problem was that it had to be done.

In addition, among the battery contents stored in the horizontal cylindrical tank 3,
In particular, the cell stack 1 placed at the back of the horizontal cylindrical tank 3
It was difficult to fix the cell stack 1 to the horizontal cylindrical tank 3, that is, to fix the upper and lower clamping plates 6.7 of the cell stack 1 to the horizontal cylindrical tank 3 because the working space was extremely narrow.

The present invention was proposed to solve the above-mentioned conventional problems, and its purpose is to easily store and take out the contents of a plurality of batteries in a horizontal cylindrical tank, and to To provide a fuel cell with improved handling efficiency, such that even if the contents of the battery are placed at the back of the tank, it can be easily attached to the tank.

[Structure of the Invention] (Means for Solving the Problems) The fuel cell of the present invention is characterized in that the upper and lower clamping plates of each of the battery contents are respectively connected to a common upper and lower connecting plate. A sliding means that can slide inside the tank is attached to the lower connecting plate, while a fixing seat is provided at the upper part of the horizontal tank that stores the battery contents to support and fix the upper connecting plate. is a feature of the structure.

(Function) In the present invention having the above-described configuration, the contents of a plurality of connected batteries are moved through the tank by means of a slide means attached to the lower part of the battery, thereby storing and storing the contents of a plurality of batteries. Easily and simultaneously taken out. Additionally, with the battery contents stored in the tank, the upper connecting plate of the battery contents can be attached to the fixing seat of the tank, and the lower connecting plate and the rail can be attached from the opening side of the tank. Therefore, the contents of a plurality of connected batteries can be easily fixed to the tank all at once.

(Example) An example of the fuel cell according to the present invention as explained above is shown in FIG. 1 (A>(B), FIG. 2 (A) (B), and FIG.
This will be explained in terms of illustration using diagrams (A>(B).
Components that are the same as those in the prior art shown in FIG. 4 (A>(B)) are designated by the same reference numerals, and their description will be omitted.

Configuration of this embodiment* First, as shown in FIGS. 1(A) and 1(B), a manifold 2, a connecting pipe 8, etc. are attached to a cell stack 1 in which R'&1 cells are arranged. .

In this embodiment, the upper clamping plate 6 and lower clamping plate 7 attached to each cell stack 1 are connected to the common upper connecting plate 13 and lower connecting plate 14, respectively, so that a plurality of The cell stacks 1 are connected together. Further, the wheels 15 are attached to the studs 16 on the lower connecting plate 14.
It is installed by Here, the wheels 15 are a pair of left and right wheels, and a large number of pairs are provided in the axial direction of the horizontal cylindrical tank 3. Roughly speaking, bolt holes 17 are provided in the upper connecting plate 13 and the lower connecting plate 14 near the opening of the horizontal cylindrical tank 3, respectively.

On the other hand, as shown in FIG. 2 (A>(B)), a pair of rails 18 for running wheels 15 inside the battery are attached to the lower part of the inner wall of the horizontal cylindrical tank 3.
A fixing seat 19 for positioning, supporting and fixing the upper connecting plate 13 in the left-right direction is attached to the upper part of the inner wall. Here, near the openings of the rail 18 and the fixed seat 19, there are bolt holes 1 of the upper and lower connecting plates 13 and 14 inside the battery.
Bolt holes 17 are provided corresponding to the holes 7 and 7, respectively.

In addition, as shown in FIG. 3 (A>(B)), the upper connecting plate 1
3 and the fixed seat 19, and between the lower connecting plate 14 and the rail 1
A minute gap 20 is provided between the battery and the battery 8, respectively, so that the contents of the battery can easily slide relative to the horizontal cylindrical tank 3. Also, Fig. 3 (A>(
'B) The middle 21 is mounted with bolts for fixing the upper and lower connecting plates 13 and 14 of the battery contents to one fixing seat of the horizontal cylindrical tank 3 and the rail 18, respectively.

Effects of this embodiment* The effects of this embodiment having the above-described configuration are as follows.

That is, the contents of a plurality of batteries integrated by the upper and lower connecting plates 13.1'4 can be run on the rails 18 inside the horizontal cylindrical tank 3 using wheels 15 attached to the lower connecting plate 14. Therefore, compared to the prior art in which the contents of batteries had to be stored and taken out using a crane or the like, the contents of a plurality of batteries can be easily stored and taken out at the same time.

In addition, with the battery contents stored in the horizontal cylindrical tank 3, the attachment of the upper connecting plate 13 of the battery contents to the fixing seat 19 of the tank, and the attachment of the lower connecting plate 14 and the rail 18 to the horizontal cylindrical tank 3 are performed. The contents of a plurality of connected batteries can be fixed to the horizontal cylindrical tank 3 by attaching bolts 21 to bolt holes 17 provided on the opening side of the tank. Therefore, compared to the conventional technology, where it was difficult to attach the battery contents to the back of the tank because the contents of the batteries were fixed individually,
Since the contents of a plurality of batteries can be easily fixed all at once from the outside of the tank 3, work efficiency is greatly improved.

*Other Examples* Note that the present invention is not limited to the above-mentioned Examples,
For example, as the sliding means provided on the lower connecting plate 14, it is also possible to use a sliding plate made of Teflon resin or the like with low frictional resistance instead of the wheels 15.

[Effect of the Invention 1] As explained above, in the present invention, the contents of a plurality of batteries are connected together by upper and lower connecting plates, and a sliding means is provided on each lower connecting plate. The battery contents can be easily stored and removed from the tank by sliding the battery contents, and the stored battery contents can be easily secured to the tank from the outside of the tank. It is possible to provide an excellent fuel cell with significantly improved performance.

[Brief explanation of the drawing]

Figure 1 (A>(B) is a front view and side view of the contents of a fuel cell used in an embodiment of the fuel cell according to the present invention, and Figure 2 (A>(B) is
B) is a front view and side view showing the state in which the battery contents of Fig. 1 (A>(B) are stored in a horizontal cylindrical tank, and Fig. 3 (A>
(B) is an enlarged sectional view showing details of the upper and lower support fixing parts between the cell contents and the tank of the fuel cell of the same example, and FIG.
>(B) is a front view and a side view showing a conventional fuel cell. 1... Cell stack, 2... Manifold, 3...
・Horizontal cylindrical tank, 4... Upper fixed seat, 5... Lower fixed seat, 6... Upper tightening plate, 7... Lower tightening plate, 8
... Connection pipe, ... Supporting metal fittings, 10 ... Trunk 7 lunge, Goto ... Cover, 12 ... Heat insulating material, 13 ... Upper connection plate, 14 ... Lower connection plate, 15.・・Wheel, 16
... Stud, 17... Bolt hole, 18... Rail, 19... Fixed seat, 20... Gap, 21...
·bolt.

Claims (3)

[Claims] (1) A manifold for supplying and discharging a reaction gas is closely attached to the side of a cell stack consisting of stacked unit cells to form the battery contents, and the battery contents are placed in multiple horizontal tanks. In a fuel cell in which the contents of the cells are housed side by side and fixed in a tank by means of clamping plates attached to the top and bottom of the cell stack, the contents of the plurality of cells are arranged so that the upper and lower clamping plates of each cell stack are fixed to each other in a common manner. The upper and lower connecting plates are connected to each other to be integrally connected, and the lower connecting plate is provided with a sliding means that can slide within the tank, and the upper inner wall of the tank supports the upper connecting plate containing the battery contents. A fuel cell characterized by being provided with a fixed seat for fixing. (2) The fuel cell according to claim 1, wherein wheels are used as sliding means provided on the lower connecting plate of the cell contents, and rails for running the wheels are provided at the lower part of the inner wall of the tank. (3) The fuel cell according to claim 1, wherein a slide plate made of Teflon resin is used as the slide means provided on the lower connecting plate of the cell contents.