CH675324A5 - Electric battery set using series galvanic elements - has elements intercoupled via contact plates hold in place by cover of battery housing - Google Patents

Abstract

The electric battery set comprises a number of individual galvanic elements (2,3,4) supported next to one another in a common housing (1). The housing is fitted with a cover (11) providing pressure on the contact plates (8,9) used to connect one terminal of one element to the opposite terminal of the adjacent element. Pref. the cover (11) has depending ribs pressing each contact plate (8,9) against the negative battery terminal of the adjacent element when its first end is attached to the positive terminal of the preceding element. ADVANTAGE - Ensures good contact between series galvanic elements.

Description

       

  
 



  The present invention relates to a battery with a housing and at least two galvanic elements arranged in the housing and a sealing cover.



  Batteries with a housing and three galvanic elements arranged therein as well as a sealing cover are previously known. In these batteries, the negative pole of one element formed by the cup is connected to the positive pole of an adjacent element by a wire, the wire being soldered to the negative pole of one element and to the positive pole of the adjacent element. From the negative pole of one external element and from the positive pole of the other external element, one contact lamella is guided to the outside through a slot in the cover of the battery. These contact blades are also with the negative pole, respectively. soldered the positive pole of the two external elements.

  This type of connection of the individual elements to one another and the external contact blades with the external elements is cumbersome and time-consuming when installing the battery.



  It is therefore an object of the present invention to provide a battery with at least two elements which does not have the disadvantages mentioned above. The battery should be able to be assembled in a simple manner and in a time-saving manner, with good contact between the corresponding poles of two adjacent elements and the contact lamella leading to the outside with the corresponding poles of the external elements being guaranteed.



  This is achieved according to the invention by means of at least one contact lamella adjacent to one pole of an element and the opposite pole of the adjacent element, a negative connecting lamella adjacent to the negative pole of the first element and a positive connecting lamella adjacent to the positive pole of the last element, as well as means provided in the cover ensure electrical contact between the fins and the corresponding poles of the battery.



  Furthermore, the contact lamellae and the connecting lamellae on the cup of the corresponding elements should be in good contact. This is achieved in that the contact lamellae arranged between the elements have a part bent at both edge areas and slotted in the middle part for contact with the cup of an element and the one connecting lamella, which is in contact with the cup of an external element, in the the contact part of the cup is curved.



  In the following an embodiment of the invention will be described with reference to the accompanying drawings.



  Show it:
 
   1 is an exploded perspective view of the battery,
    2 is a partially broken longitudinal section through the battery,
   3 is a plan view of the battery with the cover removed,
   4 shows a longitudinal section along line IV-IV of FIG. 2.
 



  1 shows an exploded perspective view of the battery according to the invention. The battery comprises a housing 1 in which three galvanic elements 2, 3 and 4 are arranged. The elements 2 and 3 and 3 and 4 are insulated from one another by partitions 5 and 6. A connecting lamella 7 is brought into contact with the negative electrode of the element 2 during assembly. A first contact lamella 8 connects the positive electrode, i.e. the cup of element 2, with the negative electrode of element 3. A contact lamella 9 connects the positive electrode of element 3 with the negative electrode of element 4. A connecting lamella 10 is connected to the positive electrode of element 4.

  The battery is closed with a closing cover 11, the negative connecting lamella 7 being guided through a slot 12 in the closing lid 11 and the positive connecting lamella 10 through a slot 13 in the closing lid. Furthermore, two holes 14 and 15 with sleeves are provided in the cover, into which corresponding pins 16 and 17 of a guarantee cover 18 engage when the cover is placed on the cover 11.



  The negative connecting lamella 7 has a connecting part 19 and a bent contact part 20 with a slightly angled end piece 21. The contact lamellae have a slotted part 22 which is bent at the edges and is intended for contact with the cup of an element. A bent contact part 23 has a slightly angled end piece 24 at its end. The positive connecting lamella 10 has a curved part 25 intended for contact with the cup of an element, an intermediate part 26 and a connecting part 27.



  2 shows a longitudinal section through the battery. The closure lid 11 has transverse ribs 28, 29 and 30 which press on the negative electrodes 31, 32 and 33 of the battery elements 2, 3 and 4 and hold the elements in the desired position. The contact part 20 of the negative connecting lamella 7 comes to rest on the negative electrode 31 of the battery element 2 and is pressed onto the negative electrode 31 by two longitudinal ribs 34 and 35 of the closure cover 11. The contact parts 23 of the contact lamellae 8 and 9 are placed on the negative electrodes 32 and 33 of the battery elements 3 and 4 and are also pressed onto the negative electrodes 32 and 33 by the longitudinal ribs 34 and 35 of the cover 11, thereby ensuring good contact.

  The slotted parts 22 of the contact blades 8 and 9, which are angled at the edges, rest against the cups 36 and 37 of the battery elements 2 and 3. The curved contact part 25 of the positive connecting lamella 10 lies against the cup 38 of the battery element 4. The closure cover 11 has recesses 39, 40, 41, 42, in which the upper edge of the partitions 5 and 6 comes to rest. The partitions 5, 6 have a recess 43 in the central region for guiding the contact lamellae.



   The lamellae 7, 8, 9, 10 can for example consist of nickel, nickel-plated phosphor bronze or stainless steel. The lid 11 is welded by ultrasound.



  3 shows a top view of the battery with the cover removed. When inserted contact blades 8 and 9, the flexible insulating walls 5 and 6 between the battery elements 2 and 3, respectively. 3 and 4 slightly curved. As a result, the slotted parts 22 of the contact lamellae 8 and 9 are pressed firmly against the cups 36 and 37 such that good contact is ensured.



  4 shows a section along line IV-IV of FIG. 2 through the battery element 2.


    

Claims (7)

      1. Battery with a housing (1) and at least two galvanic elements (2, 3, 4) arranged in the housing and a closure cover (11), characterized by at least one of the one pole (36, 37) of an element (2, 3) and the opposite pole (32, 33) of the adjacent element (3, 4) contact plate (8, 9), a negative connection plate (7) of the first element (2) negative connection plate (7) and a positive pole ( 38) of the last element (4), positive connection lamella (10) and means (34, 35) provided in the connection cover (11), which provide the electrical contact between the lamellae (7, 8, 9) and the corresponding poles (31, 32 , 33) of the battery. 2nd Battery according to claim 1, characterized in that the means in the closure cover (11) are designed as longitudinal ribs (34, 35) projecting in the direction of the elements (2, 3, 4). 3. Battery according to claim 1 or 2, characterized in that in the cover (11) in the direction of the elements (2, 3, 4) projecting transverse ribs (28, 29, 30) are arranged to hold down the elements. 4. Battery according to one of the preceding claims, characterized in that between the elements (2, 3, 4) arranged contact lamellae (8, 9) a bent at both edge regions and slotted in the central region th part (22) for contact with the Have cups (36, 37) of an element (2, 3) and an angled and bent part to this part (22) for contact with the opposite pole (32, 33) of an adjacent element (3, 4). 5.  Battery according to one of the preceding claims, characterized in that the connecting lamella (7) for the pole (31) of the first element (2) adjacent to the closure cover (11) is bent over in the contact part (20) adjacent to the connecting pole. 6. Battery according to one of the preceding claims, characterized in that the connecting lamella (10), which is in contact with the cup (38) of the last element (4), is curved in the contact part (25) adjacent to the cup. 7. Battery according to one of the preceding claims, characterized in that the insulating partition walls (5, 6) between the adjacent elements (2, 3, 4) of the battery are flexible and in the central region a recess (43) for the contact plate ( 8, 9).