Arrangement for securing an energy storage module on a module support

Abstract

The invention relates to an arrangement comprising an energy storage module, a module carrier, particularly a vehicle body, and a ball lock bolt for fastening the energy storage module on the module carrier.

Claims

1. An arrangement for securing an energy storage module on a module carrier, the arrangement comprising: an energy storage module, including one or more energy storage cells braced together in series between opposing end plates, a module carrier, and a ball lock bolt inserted into a chamber formed within at least one end plate so as to fasten the energy storage module on the module carrier.

2. The arrangement according to claim 1, wherein a first end of a ball lock bolt is fixedly connected with one of (i) the module carrier, wherein the energy storage module is fitted on a second end of the ball lock bolt and can be latched and unlatched by means of balls at a circumference of the ball lock bolt, and (ii) the energy storage module, wherein the module carrier is fitted on the second end of the ball lock bolt and can be latched and unlatched by means of balls on the circumference of the ball lock bolt.

3. The arrangement according to claim 2, wherein a clamping sleeve is arranged on the ball lock bolt between the first end and the balls, for the transmission of force between the balls and the one of the energy storage module and the module carrier fixedly connected to the first end.

4. The arrangement according to claim 3, wherein on a side facing the balls, the clamping sleeve has a funnel-shaped clamping cone configured as a supporting surface for the balls.

5. The arrangement according to claim 3, wherein the clamping sleeve comprises at least one disk spring and at least one elastic element compensating play in an axial direction.

6. The arrangement according to claim 4, the clamping sleeve comprises at least one disk spring and at least one elastic element compensating play in an axial direction.

7. An arrangement for fastening an energy storage module on a module carrier, the arrangement comprising: an energy storage module, including one or more energy storage cells braced together in series between opposing end plates, a module carrier, and a clamping device inserted into a chamber formed within at least one end plate so as to fasten the energy storage module on the module carrier, the clamping device comprising: a clamping bolt and a clamping sleeve expanded by the clamping bolt.

8. The arrangement according to claim 7, wherein a first end of the clamping bolt is screwed into one of (i) the module carrier, wherein the energy storage module can be fitted on a second end of the clamping bolt and can be clamped by means of an expanding of the clamping sleeve, and (ii) the energy storage module, wherein the module carrier can be fitted on the second end of the clamping bolt and can be clamped by means of an expanding of the clamping sleeve.

9. The arrangement according to claim 8, wherein the clamping sleeve is arranged on the clamping bolt between the first end and a clamping bolt head and is configured to transmit force between the clamping bolt head and the one of the energy storage module and the module carrier fixedly connected to the first end.

10. The arrangement according to claim 8, wherein the clamping sleeve has a slot in an axial direction.

11. The arrangement according to claim 9, wherein a side of the clamping sleeve facing the clamping bolt has a funnel-shaped clamping cone, and wherein an outer cone of the clamping bolt head rests flatly on the clamping cone so as to expand the clamping sleeve when the clamping bolt is screwed in.

12. The arrangement according to claim 9, wherein the clamping sleeve has a slot in an axial direction.

13. The arrangement according to claim 11, wherein the clamping sleeve has a slot in an axial direction.

14. The arrangement according to claim 7, wherein the clamping sleeve has a slot in an axial direction.

15. An arrangement for fastening an energy storage module on a module carrier, the arrangement comprising: an energy storage module, including one or more energy storage cells braced together in series between opposing end plates, a module carrier, and a detent device inserted into a chamber formed within at least one end plate so as to fasten the energy storage module on the module carrier, wherein the detent device comprises a mounting device having at least one detent lug and a detent tongue engaging behind the detent lug.

16. The arrangement according to claim 15, wherein a first end of the mounting device is fixedly connected with one of (i) the module carrier, wherein the energy storage module can be fitted onto a second end of the mounting device and can be latched and unlatched by means of the detent lug and the detent tongue, and (ii) the energy storage module, wherein the module carrier can be fitted onto the second end of the mounting device and can be latched and unlatched by means of the detent lug and the detent tongue.

17. The arrangement according to claim 15, wherein the detent tongue is designed to be one of elastic and spring-loaded for an independent engaging behind the detent lug.

18. The arrangement according to claim 16, wherein the detent tongue is designed to be one of elastic and spring-loaded for an independent engaging behind the detent lug.

19. The arrangement according to claim 15, wherein the mounting device comprises a plurality of parallel detent lugs.

20. The arrangement according to claim 15, wherein the energy storage module comprises a device for the power supply of a motor vehicle.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a view of storage cells of the energy storage module according to all embodiments;

(2) FIG. 2 is a view of a conventional fastening of an energy storage module on a module carrier according to the state of the art;

(3) FIG. 3 is a view of a first embodiment of the arrangement according to the invention;

(4) FIG. 4 is a view of a second embodiment of the arrangement according to the invention;

(5) FIG. 5 is a view of a third embodiment of the arrangement according to the invention;

(6) FIG. 6 is a view of a fastening according to the invention of stacked energy storage modules according to all embodiments; and

(7) FIG. 7 is a view of a further fastening according to the invention of stacked energy storage modules according to all embodiments.

DETAILED DESCRIPTION OF THE DRAWINGS

(8) In the following description, the invention will be explained in detail by means of FIGS. 1 and 3 to 7. FIG. 2 illustrates a conventional screwed connection of an energy storage module 1 on a module carrier 19, which was not carried out according to the invention.

(9) FIG. 1 is a perspective view of an individual prismatic storage cell 10 of an energy storage module used according to the invention. The storage cell 10 typically consists of one or more individual electrochemical cells which, in the representation selected here, are situated hidden in the interior of the storage cell 10. The storage cell 10 has a connection terminal 11 of a first polarity and a connection terminal 12 of a second polarity on the front 13. No connection elements are provided on the back 14 of the storage cell 10 not shown in FIG. 1. One of the connection terminals 11, 12, typically the positive pole of the storage cell 10, can be electrically connected with a housing of the storage cell 10. Since, in the energy storage module 1 used according to the invention, several storage cells 10, stacked in at least one row, are arranged behind one another, at least opposite main surfaces 15, 16 are equipped with an electrically insulating material. In the example illustrated in FIG. 1, an adhesive foil 20 is applied to the main surfaces 15, 16. For producing the energy storage module, several of the storage cells 10 are stacked behind one another. In this case, the individual storage cells 10 come in contact with one another on the main surfaces 15, 16. One end plate 17 (also called pressure plate) respectively will then be situated on the main surface 15 of the first storage cell 10 and the main surface 16 of the last storage cell 10 in the stacked row. The two end plates 17 are braced with respect to one another by way of tension members 18.

(10) The connection possibilities of the energy storage module with the module carrier illustrated in the following preferably apply to the end plates 17 of the energy storage modules 1.

(11) FIG. 3 illustrates a first embodiment of an arrangement 21 for fastening the energy storage module 1 on the module carrier 19. For this purpose, a first end 23 of a ball lock bolt 22 is fixedly connected with the module carrier 19. The end plate 17 of the energy storage module 1 is fitted onto this ball lock bolt 22 and is latched with it.

(12) The ball lock bolt 22 comprises a lock bolt housing 25. At the circumference of this lock bolt housing 25, recesses are provided in which balls 28 are disposed. A cavity is situated in the interior of the lock bolt housing 25. An unlatching pin 26 is arranged in this cavity. This unlatching pin 26 has a tapering 27. In the latched condition a pressure spring 24, which is arranged in the cavity of the lock bolt housing 25, loads the unlatching pin such that the tapering 27 will not be situated at the level of the balls 28. As a result, the unlatching pin 26 presses the balls 28 so far toward the outside that the balls 28 protrude slightly beyond the circumference of the lock bolt housing 25. By the pressure of the unlatching pin 26 against the force of the pressure spring 24, the tapering 27 is shifted to the level of the balls 28. As a result, the balls 28 can yield slightly toward the interior, whereby the balls 38 will no longer protrude beyond the circumference of the lock bolt housing 25.

(13) A clamping sleeve 29 is fitted on the ball lock bolt 22 below the balls 28. The face side of the clamping sleeve 29 facing the balls 28 has a funnel-shaped clamping cone 31 as a support surface for the balls 28. The opposite face side of the clamping sleeve 29 sits on a shoulder 33 in a passage bore in the end plate 17. The clamping sleeve 30 further comprises at least one disk spring 30. This disk spring 30 presses the two face sides of the clamping sleeve 29 slightly apart in the axial direction 32. As a result, a clamping between the balls 28 and the shoulder 33 becomes possible that is free of play.

(14) The fastening variant of the energy storage module 1 illustrated here is mounted very rapidly because the energy storage module 1 only has to be fitted onto the ball lock bolt 22 (or several ball lock bolts 22). A demounting takes place by pressing the unlatching pin 26.

(15) FIG. 4 illustrates a second embodiment of the arrangement 21 according to the invention. Here, the fastening between the energy storage module 1 or the end plate 17 of the energy storage module 1 and the module carrier 19 takes place by means of a clamping device 34. The clamping device 34 comprises a clamping bolt 35, a clamping sleeve 29 changed with respect to the first embodiment as well as a screw-in sleeve 37.

(16) The screw-in sleeve 37 is situated in the module carrier 19 and provides an internal thread for the clamping bolt 35. At its first (fixed) end 36, the clamping bolt 35 has an external thread. With this end 36, the clamping bolt 35 is screwed into the screw-in sleeve 37. At the opposite end, the clamping bolt 35 has a clamping bolt head 38. The clamping sleeve 29 is situated between the clamping bolt head 38 and the fixed end 36. Here, the clamping sleeve 29 is designed as a slotted sleeve. The contact surface between the clamping bolt head 38 and the clamping sleeve 29 is designed as an external cone 39 at the clamping bolt head 38 and as a funnel-shaped clamping cone 31 at the clamping sleeve 29. As a result, on the one hand, a flat contact of the clamping bolt head 38 on the clamping sleeve 39 is ensured and, on the other hand, by means of the screwing-in of the clamping bolt 35, the clamping sleeve 39 can be expanded.

(17) The pressure plate 17 has a passage hole 40. This passage hole 40 has a continuous uniform diameter. The diameter of the passage hole 40 corresponds approximately to the outside diameter of the clamping sleeve 29. As a result, even before the energy storage module 1 is set onto module carrier 19, the clamping bolt 35, including the clamping sleeve 29, can be screwed into the module carrier 19. During the mounting, the energy storage module 1 will then be placed, and the clamping bolt 35 will be screwed farther into the module carrier 19 or into the screw-in sleeve 37. The clamping sleeve 29 will thereby expand and clamp the energy storage module 1 with respect to the clamping bolt head 38.

(18) FIG. 5 illustrates a third embodiment of the arrangement 21 according to the invention. Here, the fastening between the energy storage module 1 or the end plate 17 and the module carrier 19 takes place by means of a detent device 41.

(19) The detent device 41 comprises a mounting device 42 and a detent tongue 44. The mounting device 42 is fastened with a first (fixed) end 45 to the module carrier 19. The mounting device 42 projects into the end plate 17 and comprises several detent lugs 43. Here, the detent lugs 43 are designed as detent webs which are arranged parallel above one another.

(20) In the interior of the end plate 17, the detent tongue is connected with the energy storage module 1 by way of a hinge bolt 47. On one side of the hinge bolt 47, the detent tongue 44 engages behind a corresponding detent lug 43. A release lever 48 of the detent tongue 44 is situated on the other side of the hinge bolt 47. The connection between the detent tongue 44 and the mounting device 42 can be released again by pressing this release lever 48. Furthermore, the detent tongue 44 is spring-loaded here in the direction of the module carrier 19 by means of the contact pressure spring 46. An automatic engaging of the detent tongue 44 thereby takes place when the energy storage module 1 is fitted onto the mounting device 42.

(21) FIGS. 6 and 7 illustrate two possibilities for fastening stacked energy storage modules 1 on a module carrier 19. The arrangements 21 according to the first, the second or the third embodiment respectively can be used for this purpose.

(22) FIG. 6 illustrates two energy storage modules 1 stacked above one another. For the fastening, the ball lock bolt 22, the clamping bolt 35 or the mounting device 42 is fixedly connected here to the module carrier 19 and extends in the upward direction. The bottom energy storage module 1 is first fitted onto the ball lock bolt 22, the clamping bolt 35 or the mounting device 42. Then a spacer sleeve 50 and an intermediate plate 49 are fitted on. After the intermediate plate 49, the second energy storage module 1 is fitted on. Only this second energy storage module 1 will then be latched, clamped or engaged by means of the ball bolt lock, the clamping bolt 35 or the mounting device 42.

(23) FIG. 7 then illustrates a second variant for fastening several stacked energy storage modules 1. Here, the bottom energy storage module 1, as in the described arrangements 21, is fastened according to one of the three embodiments directly to the module carrier 19. For the second energy storage module 1 situated above, the energy storage module 1 situated below represents the “module carrier”. This means that the energy storage module 1 situated on top is fastened by means of one of the arrangements 21 according to one of the three embodiments directly to the energy storage module 1 situated at the bottom.

LIST OF REFERENCE NUMBER

(24) 1 Energy storage module 10 Storage cells 11, 12 Connection terminal 13 Front 14 Back 15, 16 Main surfaces 17 End plates 18 Tension member 19 Module carrier 20 Adhesive foil 21 Arrangement 22 Ball lock bolt 23 First (fixed) end of ball lock bolt 24 Pressure spring 25 Lock bolt housing 26 Unlatching pin 27 Tapering 28 Balls 29 Clamping sleeve 30 Disk springs 31 Clamping cone 32 Axial direction 33 Shoulder 34 Clamping device 35 Clamping bolt 36 First clamp-fixed clamp end of the clamping bolt 37 Screw-in sleeve 38 Clamping bolt head 39 Clamping bolt head external cone 40 Passage hole 41 Detent device 42 Mounting device 43 Detent lug 44 Detent tongue 45 First clamp-fixed clamp end of the mounting device 46 Contact pressure spring 47 Hinge bolt 48 Release lever 49 Intermediate plate 50 Spacer sleeve 101 Screw/bolt 102 Nut 103 Extension

(25) The foregoing disclosure has been set forth merely to illustrate the invention and is not intended to be limiting. Since modifications of the disclosed embodiments incorporating the spirit and substance of the invention may occur to persons skilled in the art, the invention should be construed to include everything within the scope of the appended claims and equivalents thereof.