SE445405B - VENTILATING PROTECTOR FOR ELECTROCHEMICAL POWER CELLS - Google Patents

Description

Ventilation protection devices are used. . At present, a refinement of existing power sources without a refinement of their ventilating protection devices is impossible.

The ventilating protection devices.include the following main components:. u 7 1 7 7 - a hollow cylinder with one end made for connecting the cylinder to the vessel of the electrochemical power source, - a lid closing the opening of the cylinder, - a spring for fixing the lid in open and closed position.

The ventilating protection device may be made of metal, polymeric material or a combination of metal and polymeric material. 7 I -Known is a ventilating metal protection device for -Ken non-hermetically sealed electrochemical cell containing a relatively short cylinder made by drawing the material of the lid to the cell vessel, a bracket with two shafts attached to the cell vessel lid, a lid which is pivotally attached to one of the bracket shafts, and a hairpin-like torsion spring attached to the other bracket shaft (cf. MA Dasojan et al. "Production of electric storage batteries", Moscow 1970, page 359, fig. 185).

In this ventilating protection device, the hollow ey-D relief is made by pulling the material for the lid of the cell vessel.

This makes it technically impossible to produce a hollow cylinder of suitable height which eliminates the possibility of splashing electrolyte from the accumulator, especially when charging the latter when the gas discharge is strong. With such a relatively short hollow cylinder, an increased release of electrolyte and its vapor can be observed. This leads, especially in the case of non-hermetically sealed alkaline cells, to an intense formation of current-conducting salts on the torsion spring, which loses its properties and does not provide reliable closing of the opening in the hollow cylinder by means of the lid during charging.

In addition, the probability of the formation of current-conducting salts on the outside of the cell increases, which, as noted above, gives rise to leakage currents and short circuits between adjacent cells in the battery.

Consequently, the batteries comprising the ventilating protection device described above are not completely reliable.

To reduce the splashing of electrolyte from non-hermetically sealed electrochemical power sources, ventilating protective devices with long hollow cylinders are used.

A ventilating protective device of metal is known which comprises a long hollow cylinder with one end made for connection to the cell vessel, a lid with a movable valve unsealed with a ring, a U-shaped bracket with two pivot pins attached to the vessel, and a hairpin-like torsion spring for fixing the cover.

The cover is attached to one of the bracket pins, while the spring is attached to the other pivot pin (compare Russian inventor certificate 393 785).

During the operation of the non-hermetically sealed electrochemical power source provided with the above-described ventilating protection device, the conductive salts formed on the moving components of the valve prevent a tight closure of the hollow cylinder opening by means of the lid and reduce the reliability of the valve itself. valve work.

A leaky sealed lid does not exclude the likelihood of electrolyte splashing from the non-hermetically sealed electrochemical power source, which reduces its reliability as noted above.

This ventilating protection device consists of a large number of metal components. This entails a high work consumption and assembly difficulties as well as a large metal consumption in this construction.

These disadvantages are partially eliminated by another known ventilating protection device for non-hermetically sealed electrochemical power sources which is very close to the present invention and is used as a prototype.

This device comprises a hollow cylinder with one end made for connection to the vessel for the electrochemical power source, a strip made along the entire circumference of the cylinder on its outside, a bracket arranged on the outside of the cylinder with clearance to the strip, two half-axes on the bracket, one on each side thereof in the cross-sectional plane of the cylinder, a stop means formed as a knee located below the bracket and fixedly connected to the bracket by means of its vertical arm, the support member of the stop means (horizontal arm). is arranged between the strip and the console and has a clearance to the strip.

The device also comprises a lid with ears designed as half rings. The lid is pivotally attached to the side of the end surface of the cylinder which is located opposite the end connected to the accumulator vessel. Mounted on the lid side facing the end surface of the cylinder is a floating valve with a weight inside. The valve with the weight ensures a hermetic sealing of the ventilating protection device, a certain overpressure therein and gas escape from the electrochemical power source when the pressure rises.

In addition, the ventilating protection device comprises an L-shaped spring of metal for fixing the position of the lid and with one end projecting into the clearance between the support surface of the stop means and the strip below the other end of the spring is arranged parallel to the hollow cylinder adjacent thereto and not protrudes above the surface of the closed lid.

All the components of the ventilating protection device except the spring are made of polymeric material by casting, thus reducing the amount of metal required for the electrochemical power source as a whole (catalog of SAFT & "Nickel-oadmium storage batteries type KFM and KPMK", No. 1135 -12-70, 1970, France6) .1 The mounting of this ventilating protection device comprises: g "- installation of the weight in the valve, - mounting of the valve in the cover, - mounting of the cover in horizontal position on the axles of the bracket by means of the ears , and - installation of the spring.

The assembled ventilating protection device is installed in the vessel.

The construction of the ventilating protection device discussed above is characterized by complexity and a large number of components. As a result, the installation of the device becomes labor consuming.

The main object of the present invention is to provide a ventilating protection device for non-hermutinically sealed electrochemical power sources, in which the stop means and the spring for fixing the lid in position should be manufactured so and the spring should contact the stop means in such a way that the valve 82006522 The design of the tilting protection device and its installation are simplified as a whole.

This object is achieved with the ventilating protection device according to the present invention, which is characterized in that the stop means projects above the upper limiting surface of the hollow cylinder and is located at a distance from the axis of the cylinder which is greater than the distance from the pivot pins to the axis of the cylinder, and that the cover is provided with a means used to lock the spring and is arranged between the upper limiting surface of the cylinder and the support surface of the stop means.

The use of the stop means and the means for fastening the spring makes it possible to use a plane-parallel plate as a spring. Such a plate is extremely easy to manufacture and reliable in operation, ensures reliable fixing of the cover in the open and closed position and consequently ensures a reliable operation of the non-hermetically sealed electrochemical power source as a whole.

In addition, the use of the plane-parallel plate as a spring makes it possible to simplify the construction of the ventilating protection device as a whole and consequently its installation.

According to one of the embodiments of the ventilating protection device according to the invention, it is suitable that the means for fastening the spring is formed with a seat with a slot formed in the cover. In the spring fastening means manufactured as a seat with the slot in the lid, it is the simplest from the point of view of manufacture and installation and is the most reliable in operation, since the seat with the slot prevents any displacement of the spring on either side.

The invention is described in more detail below with reference to the accompanying drawing, in which Fig. 1 shows a side view, partly in longitudinal section, of a ventilating protection device for non-hermetically sealed electrochemical power sources according to the present invention, Fig. 2 shows a perspective view of a lid of the device in Fig. 1. Fig. 3 shows a side view, partly in longitudinal section, of another embodiment of the device according to the invention, and Fig. 4 shows a perspective view of a lid of the device in Fig. 3.

As shown in Fig. 1, the ventilating protection device for non-hermetically sealed electrochemical power sources according to the invention comprises a hollow cylinder with an end 2 made in the shape of a plug for providing a simple and quick connection of the cylinder to the electrochemical power source (not shown) vessel. Another embodiment of the end 2 of the hollow cylinder 1 is also possible. For example, the end 2 may be made with a shape suitable for (not shown) bayonet coupling.

The outer surface 3 of the hollow cylinder 1 is provided with a bracket Ä with two pivot pins 5, which are located one on each side of the bracket in the cross-sectional plane of the cylinder 1.

The outer limiting surface 6 of the bracket H is parallel to the axis of the cylinder 1 and the pivots 5. Fixedly connected to the bracket H is a stop member 7, which is made in the form of a projection on the bracket Ä and has a rectangular shape in the cross-sectional plane of the cylinder 1 and a curved support surface 8. Other embodiments of the stop member 7 are also possible.

For example, the stop means 7 can be manufactured as a cylinder (not shown) with a spherical support surface 8.

The stop member 7 projects above the upper limiting surface 9 of the cylinder 1 and is located at a distance L1 from the axis of the cylinder 1 which is greater than the distance_Lg from the pivot pins 5 to the axis of the cylinder 1. The eCylinder 1 with the bracket B, the pivot pins 5 and the stop member 7 are made of a polymeric material by casting. This. totally reduces the amount of metal used in the electrochemical power source.

Cylinder 1 with the means H; 5, 7 can of course also be made of metal.

The ventilating protection device according to the present invention further comprises a lid 10 (Figs. 1, 2) with two ears 11 perpendicular to the plane of the lid 10 (Fig. 1). A hole 12 and a radial slot 13 are provided in each ear 11, which are used for pivotally mounting the cover 10 on the pins 5 on the bracket H next to its outer limiting surface 9. The radial slots 13 facilitate the arrangement of the cover 10 on the pivot pins. 5.

The lid 10 shown in Fig. 2 is made of the same material as the cylinder 1 and has an oval shape; The lid 10 is made with a projecting edge 1Ä (Fig. 1) in order to be able to comfortably open and close the opening of the cylinder 1 by means of the lid 10 when the ventilating protection device is used.

A cone-shaped wart 16, the tip of which extends into the cylinder 1, is arranged on the underside 15 of the lid 10, which faces the upper limiting surface 9 of the cylinder, to ensure that the electrolyte which emits as a gas when charging the non-hermetic the sealed electrochemical power source in the form of droplets is returned to the electrolyte. As shown in Figs. 1 and 2, the cover 10 is provided with a member 17 which is used to fasten a spring 18, which fixes the cover 10 in open and closed position and is in contact with the support surface 8 of the stop member 7 with its one end 19. (Fig. 1) and with the lid 10 with its other end 20.

The member 17, which is used to fasten the spring 18, is arranged between the upper limiting surface 9 of the cylinder 1 and the support surface 8 of the stop member 7. By such a construction an extra pressure is provided on the lid 10 of the spring 18 in its closed position.

As can be seen from Figures 1 and 2, the member 17 consists of a seat 21 accommodated in the lid 10 and a T-shaped projection 22, the base of which is located in the plane of the seat 21.

The seat 21 prevents any displacement of the spring 18 to the right or left with respect to the plane of the cover 10, while on the other hand the projection 22 prevents any displacement of the spring 18 forwards or backwards. This makes it possible to reliably fix the positions of the cover 10 by means of the spring 18.

The plane of the seat 21 (Fig. 1) lies at a distance a from the geometric axis of the ear holes 12 which is equal to the distance b between the geometric axes of the pivot pins 5 and the outer limiting surface of the bracket U. 6.

Such a construction provides a reliable fixing of the lid 10 in open position by means of the spring 18. Other embodiments of the projections 22 of the member 17 are also possible. For example, the protrusion 22 may be formed as a truncated cone or pyramid (not shown) - however, the base of the protrusion 22, which is located in the seat 21, should always have a cross section smaller than the part of the protrusion 22 located below the seat 21. .

The spring 18 is produced as a plane-parallel metal plate by countersinking. The plane-parallel meball plate is the most reliable during operation and the easiest to manufacture.

The spring 18 can also be made of a polymeric material.

At the end 20 of the spring 18 is formed a rectangular slot 23 dazaoesz-9¿ 8 (Fig. 2), which is used for attaching the spring 18 to the cover 10 by means of the projection 22.

The slit_23 can have any shape depending on the shape of the projection 22.

By using the spring 18 (Fig. 1) as the plate which presses and fixes the lid 10 in the closed position, a constant clearance (not shown) is obtained in the area of the ears 11, between the upper limiting surface 9 of the cylinder 1 and the underside 15 of the lid 10 depending on the tolerances for the pivotal connection of the cover 10 to the pins 5 on the cylinder bracket Å. The gases formed in the electrolyte when the Gle - Chemical power source is charged leave the power source without obstruction through this clearance. This makes it possible to charge the power source with the ventilating protection device closed to prevent electrolyte splashing. According to the present invention, other embodiments of the member 17 used for attaching the spring 18 to the venting protection device 1ock 10 are also possible.

Figs. 3, 4 show the ventilating protection device provided with one of the possible embodiments of the member 17, which is used for attaching the spring 18 to the cover 10. In these Figs. 3, H, the same reference numerals denote the same parts as in Fig. 1.

The member 17, which is used to attach the spring 18, consists of the seat 21 and a slot 24 formed in the cover 10. Such an embodiment of the member 17 is the simplest from both a production and installation point of view and is the most reliable. during operation.

According to this embodiment of the member 17, the end 20 of the spring 18 is inserted into the slot 2U of the seat 21, while on the other hand the end 19 of the spring 18 is supported by the support surface 8 of the stop member 7. I 7 I The mounting of the ventilating protection device for non-hermetically sealed electrochemical power sources If the member 17 (Figs. 1, 2) consists of the seat 21 and the projection 22, the end 20 of the spring 18 is inserted through the slot 23 below the projection 22.

If the member 17 (Fig. 3, Ä) is constituted by the seat 21 with the slot QU, the end 20 of the spring 18 is inserted in the slot 2U of the seat P1.

The cover 10 (Figs. 1, 5) of the spring 18 with attached thereto in a vertical position is clamped on the pivot pin 5 of the cylinder 1 through the radial slices 13 in the ears 11.

The assembled ventilating protection device is mounted in 8200652-9 9 fi et ißke Vißä fi e) the vessel for the non-hermetically sealed electrochemical power source by means of the end 2 of the cylinder 1.

The above description of the working method and construction of the proposed ventilating protection device confirms the reduction in labor consumption and the complexity of its assembly.

At the mounted ventilating protection device, the means deprives 1? (Figs. 1, 3), which is used for attaching the spring 18 to the cover 10, in combination with the stop means 7, which is fixedly connected to the bracket H of the cylinder 1, the spring 18 and provides the above-mentioned pressure and fixing of the cover 10 in the closed position .

When the lid 10 is in its closed position, the spring 18 arranged under the projection Bå (Fig. 1) or in the slot 24 tries to straighten at the end 19 raised to the support surface 8 of the stop means 7, the lid 10 being reliably pressed against the upper part of the cylinder 1. limiting surface 9 of the end 20 of the spring 18.

When the cover 10 is in its open position (not shown), it is not opened more than 900, since the plane of the spring 18 facing the cover 10 is in line with the outer limiting surface 6 of the bracket N, which prevents further rotation of the cover 10.

The cover 10 does not close unintentionally due to the fact that the above-mentioned planes coincide with the flat position which the spring 18 wishes to assume, so that a certain force must be applied to close the cover 10.

The proposed ventilating protection device for the non-hermetically sealed electrochemical power source is characterized by a simple construction comprising only three components and simple assembly which comprises only two steps while ensuring a reliable fixing of the lid in open and closed position, which in its This allows the electrolyte to be conveniently charged, which is particularly common in alkaline accumulators, and prevents the electrolyte from being splashed from the non-hermetically sealed electrochemical power source, even during its charging, when intense gas evolution occurs in the cell. in non-hermetically sealed alkaline accumulators.

Claims (1)

1. 820-0652-9 10. Patent claim Ventilating protection device for non-hermetically sealed electrochemical power sources, comprising a hollow cylinder (1), one end (2) of which is adapted to connect the cylinder (1) to current. the vessel of the source, a bracket (4) on the circumferential surface (3) of the cylinder (1), two pivots (5) on the bracket (4) one on each side of the bracket in the cross-sectional plane of the cylinder (1), a stop means (7) which is fixedly connected to the bracket (4), a cover (10) with ears (11) which is pivotally mounted on the pivot pins (5) of the bracket (4) and arranged next to the upper limiting surface (9) of the cylinder (1) opposite the end (2) of the cylinder which can be connected to the vessel of the power source, and a compression spring (18) for fixing the lid (10) in open and closed position, one end (19) of the spring being in contact with the stop means (7) and its other end (20) with the lid (10), characterized in that the stop means (7) projects above the upper limiting surface (9) of the hollow cylinder (1). ) and is located at a distance (L1) from the axis of the cylinder which is greater than the distance (Lz) between the pivot pins (5) and the axis of the cylinder (1), and that the compression spring (18) has the shape of a plate, the contact surface between the spring G8) and the cover (10) are located on the axis of the cylinder (1) between the upper limiting surface (9) of the cylinder and the support surface (8) of the stop member (7).