KR102336999B1 - Battery pack with easy monitoring of accury of capacty information on battery shell - Google Patents

Abstract

The present invention relates to an outdoor type battery pack for a communication base station that can supply DC power to a base station of a communication company when a power outage occurs, and more particularly, a plurality of battery cells, and first and second fixed to upper and lower ends of the battery cells, respectively. It includes an external case in which a holder and an inner space in which the first and second holders are accommodated, respectively, and a battery management device electrically connected to the battery cell to monitor voltage, current and capacity of the battery is installed on one side In the battery pack, the one side outer surface of the external case is recessed inwardly, a unique ID selection dial for setting a unique number of the battery pack is installed, and by the operation of the unique ID selection dial, the battery in the battery management device is A rotatable cover is rotatably installed on the outer surface of the outer case so that the unique ID of the pack is recognized and the unique ID selection dial is not exposed to the outside, and a lock bolt is integrally coupled to one side of the rotatable cover and the lock bolt is bolted to the outer surface of the outer case.
According to the present invention as described above, the user can conveniently set the unique ID of the battery pack installed outdoors by opening the rotating cover, so that the charge/discharge status of each battery pack can be individually controlled through the manager terminal through communication from the outside. It is effective to ensure that power can be stably supplied in the event of a failure, such as a power outage, at the base station of the telecommunication company.
In addition, the battery cell built in the external case is press-fitted into the chin to be stably maintained without shaking from external impact, so that the battery defect does not occur due to internal device damage caused by vibration during product transportation, installation process, and operation. It has the effect of reducing the failure rate and enabling stable use for a long period of time.

Description

Battery pack with easy monitoring of accury of capacty information on battery shell

The present invention relates to an outdoor type battery pack for communication base station that is installed outdoors and can supply DC power to a communication company's base station when a power outage occurs, and more particularly, each battery pack by setting a unique ID of each battery pack installed outdoors It relates to an easy-to-monitor battery pack capable of individually monitoring the state of charging and discharging.

A stable power supply and a smooth communication environment are essential for communication base stations located from downtown to inaccessible areas such as mountains and remote areas.

The battery cell, which is the basis of such a lithium-ion battery, is a basic unit of a lithium-ion battery that can be used by charging and discharging electric energy. And in order to protect the battery cells from external shock, heat, and vibration, a battery module is formed as a battery assembly that is bundled in a certain number and put in a frame. A battery pack equipped with various control and protection systems is mainly used.

Moreover, with the advent of the recent 5G era, the IoT era is accelerating based on high data rates. In order to freely utilize this fast 5G service and IoT technology anywhere between islands and mountains, it is necessary to build more communication base stations, and stable power supply is essential for these communication base stations. Failure to provide telecommunication services may cause great confusion.

Accordingly, an outdoor battery pack is installed so that stable power is supplied to the communication base station in preparation for a power outage. Such a conventional battery pack for a communication base station allows the user to check the remaining battery level using a communication port, and for this purpose, an operator must go to the communication base station to check the maintenance, which is very disadvantageous, and furthermore, by connecting a plurality of battery packs in parallel This conventional battery remaining amount checking method can check the total capacity of the connected battery pack, but has a disadvantage in that the state of each individual battery pack cannot be separately checked.

In addition, since such a battery pack product is classified as a dangerous material, it should have a more stable structure against shock and fire, such as shock or vibration during product transportation, or earthquake at the installation site.

Therefore, it is possible to overcome the unreasonable points of the conventional battery pack, to check the battery state for each battery pack from a distance, and to further enhance the stability of the battery pack, so that it can be used stably without communication obstacles in line with the 5G era. There is an increasing demand for it.

Korea Patent Publication No. 2015-0107108

The present invention has been devised to solve the above problems, and an object of the present invention is to individually monitor the state of charge and discharge of each battery pack by setting a unique ID of each battery pack installed outdoors. have.

Another object of the present invention is to allow a battery cell built in an external case to be stably maintained without shaking due to an external shock.

According to one aspect of the present invention for achieving the above object, a plurality of battery cells, first and second holders respectively fixed to upper and lower ends of the battery cells, and the first and second holders are accommodated, respectively. In the battery pack comprising an external case in which an inner space is formed, and a battery management device electrically connected to the battery cell to monitor voltage, current and capacity of the battery is installed on one side, the outer surface of one side of the external case A unique ID selection dial that is recessed inside to set the unique number of the battery pack is installed so that the battery management device recognizes the unique ID of the battery pack by the operation of the unique ID selection dial, and selects the unique ID A rotatable cover is rotatably installed on the outer surface of the outer case so that the dial is not exposed to the outside, and a lock bolt is integrally coupled to one side of the rotatable cover so that the lock bolt is bolted to the outer surface of the outer case is concluded

Here, the external case includes an upper case and a lower case, and the battery cell and the battery management device are installed on the inside, and the upper case and the lower case have a first installation space in which the first and second holders are accommodated on one side. are formed, respectively, a second installation space in which the battery management device is installed is formed on the other side, respectively, and a partition wall separating the first installation space and the second installation space is installed in the upper case and the lower case, respectively .

Furthermore, a passage groove through which a wire cable connected from the battery management device to a battery cell passes is formed in the separation partition wall formed in the lower case, and a silicon ring is fastened to surround the passage groove.

In addition, on the inner wall surface of the first installation space, a pinching protrusion formed as an inclined surface protruding outward toward the lower floor surface is protruded, and the outer surfaces of the first and second holders are slidingly press-fitted along the inclined surface of the pinching jaw. .

Furthermore, an insulating plate is installed between the inner surface of the outer case and the battery cell, and movement preventing protrusions are formed to protrude at regular intervals on the outer surfaces of the first and second holders, and the movement preventing protrusions are inserted into the insulating plate. A movement prevention hole is formed at a position corresponding to the possible position.

In addition, a heating pad is installed between the insulating plate and the battery cell, and when the ambient temperature of the battery cell falls below a certain temperature under the control of the battery management device, the heating pad is operated.

Furthermore, an upwardly depressed wedge groove is formed on the inclined surface formed on the inner clamping jaw of the lower case, and the end of the second holder faces upward so as to be inserted into the wedge groove in a shape corresponding to the wedge groove. A wedge protruding so as to be formed.

In addition, an insertion groove is provided at a position corresponding to the movement preventing protrusion on the inner bottom surface of the outer case, and an insertion part to be inserted into the insertion groove is provided at a distal end of the movement preventing protrusion, and the insertion part has a narrow diameter toward the end. At the distal end, elastic incision grooves are cut at regular intervals along the circumference in the longitudinal direction of the movement preventing projection, and coupling projections are formed protruding at intervals corresponding to the elastic incision grooves on the inner edge of the insertion groove. .

Here, the elastic incision groove is formed to be inclined at a predetermined angle along the longitudinal direction of the movement preventing protrusion, and the coupling protrusion is formed to be inclined at an angle corresponding to the formation direction of the elastic incision groove.

According to the present invention as described above, the user can conveniently set the unique ID of the battery pack installed outdoors by opening the rotating cover, so that the charge/discharge status of each battery pack can be individually controlled through the manager terminal through communication from the outside. It is effective to ensure that power can be stably supplied in the event of a failure, such as a power outage, at the base station of the telecommunication company.

In addition, the battery cell built in the external case is press-fitted into the chin to be stably maintained without shaking from external impact, so that the battery defect does not occur due to internal device damage caused by vibration during product transportation, installation process, and operation. It has the effect of reducing the failure rate and enabling stable use for a long period of time.

1 is a view showing a state in which a battery pack according to an embodiment of the present invention is installed.
2 is a diagram showing the structure of a battery pack for easy state monitoring according to an embodiment of the present invention.
3 is a view showing in detail a state in which the pivotable cover according to an embodiment of the present invention is coupled to the exterior case.
4 is an exploded perspective view of a battery pack according to an embodiment of the present invention, and FIG. 5 is a view showing a cross-sectional structure of the battery pack according to an embodiment of the present invention.
6 is a view showing the structure of the lower case in detail according to an embodiment of the present invention.
7 is a cross-sectional view showing the coupling structure of the second holder in the lower case according to the second embodiment of the present invention.
8 is a cross-sectional view showing a structure in which the movement preventing protrusion is coupled to the lower case according to the second embodiment of the present invention.

Hereinafter, a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

1 is a view showing a state in which a battery pack is installed according to an embodiment of the present invention, FIG. 2 is a view showing the structure of a battery pack for easy condition monitoring according to an embodiment of the present invention, and FIG. 3 is this view Fig. 4 is an exploded perspective view of a battery pack according to an embodiment of the present invention, and Fig. 5 is an embodiment of the present invention. It is a view showing the cross-sectional structure of the battery pack according to the invention, Figure 6 is a view showing in detail the structure of the lower case according to an embodiment of the present invention.

Referring to the drawings, a plurality of battery packs for easy condition monitoring according to the present invention are installed in a line through a bracket 20 on a frame structure 10 formed along the longitudinal direction. Such a battery pack includes a plurality of battery cells 100 , first and second holders 210 , 220 , a heating pad 600 , an insulating plate 500 , and a battery cell 100 and a battery management device 300 . It is configured to include an external case (400).

The first and second holders 210 and 220 have a plurality of fixing holes formed on the inner surface to fix the upper and lower ends of the plurality of battery cells 100, respectively, so that the battery cells 100 are inserted into the fixing holes to be modularized. , These first and second holders 210 and 220 are generally injection-molded with a plastic material. And on the outer surfaces of the first and second holders 210 and 220, the movement preventing protrusions 201 for fixing the positions of the heating pad 600 and the insulating plate 500 to minimize the occurrence of play are provided at regular intervals. placed and integrally injection molded.

The heating pad 600 is installed on the outer surfaces of the first and second holders 210 and 220 in a size corresponding to the area in which the battery cell 100 is installed, so that the ambient temperature of the battery cell 100 in winter is a constant temperature. It is operated so that the efficiency does not fall below the lower level to maintain the internal temperature. In addition, a through hole for passing the movement preventing protrusion 201 of the first and second holders 210 and 220 is formed on the surface of the heating pad 600 .

The insulating plate 500 is installed between the inner surface of the outer case 400 and the battery cell 100 for the purpose of insulating the outer case 400 . The insulating plate 500 is preferably made of a flame-retardant ABS material, and sensing holes for sensing the voltage and temperature of the battery cell 100 are formed at regular intervals on the surface, and a plurality of movement preventing protrusions 201 are inserted. The movement prevention holes 501 for each are formed at corresponding positions. Accordingly, the insulating plate 500 does not flow left and right by the movement preventing protrusions 201 on the outer surfaces of the first and second holders 210 and 220, so that shaking is reduced during product transfer or due to ambient vibration.

The outer case 400 is made of a metal material and is injection molded to form a plurality of heat dissipation fins on the outer surface, and terminals for charging and halving are formed on one side and terminals for parallel expansion on the other side. 410) and the lower case 420, an inner space in which the first and second holders 210 and 220 are accommodated, respectively, are formed, and are electrically connected to the battery cell 100 to control the voltage, current and capacity of the battery. The monitoring battery management device 300 is installed on one side.

In more detail, in the upper case 410 and the lower case 420, a first installation space 404a in which the first and second holders 210 and 220 are accommodated are formed on one side, respectively, and the battery management device is formed on the other side. A second installation space 404b in which 300 is installed is formed, respectively, and a partition wall 405 for separating the first installation space 404a and the second installation space 404b is formed in the upper case 410 and Each is installed in the lower case (420).

The partition wall 405 protects the flame from spreading toward the second installation space 404b in case of fire of the battery pack, and the partition wall 405 formed in the lower case 420 has the battery management device 300. A passage groove 405a through which the electric wire cable connected to the battery cell 100 passes is formed, and a silicon ring 405b is installed along the passage groove 405a to surround the passage groove 405a. The silicone ring 405b serves to protect the upper case 410 from being damaged while directly contacting the cable with the separation barrier 405 of the case and to fix the position of the cable.

And on the inner wall surface of the first installation space 404a, a pinching protrusion 406 formed with an inclined surface protruding outward toward the lower floor is injection-molded integrally with the exterior case 400, and in the present invention, the first installation space 404a ) so that the trapping sill 406 is formed on the three inner wall surfaces and the separation partition wall 405 surface, respectively, so that the outer surfaces of the four sides of the first and second holders 210 and 220 follow the inclined surface of the clamping rib 406 . Sliding press fit.

That is, the outer surfaces of the first and second holders 210 and 220 made of a plastic material are deformed by the clamping jaw 406 made of a metal material and press-fit into the first installation space 404a, the first installation space In the 404a, the battery cell 100 is integrated without a gap so as to be firmly fixed.

Furthermore, the insulating plate 500 is fixed by the movement preventing protrusion 201 and the outer surface of the insulating plate 500 is press-fitted while being partially deformed by the pinching protrusion 406, and the first and second holders 210 and 220 and A gap with the exterior case 400 is not generated integrally.

And a unique ID selection dial 401 that is recessed inward to set a unique number of the battery pack is installed on the outer surface of one side of the external case 400, and the operator operates the unique ID selection dial 401 from the outside to operate the battery It enables the management device 300 to recognize the unique ID of the battery pack.

This unique ID selection dial 401 is installed on the outside of the external case 400 so that the operator can conveniently set the unique IDs of a plurality of battery packs in the field, but this unique ID selection dial 401 is There is a risk that the setting information may be easily and arbitrarily changed by others by exposure to the outside.

Accordingly, in the present invention, the slide-type cover 402 is rotatably installed on the outer surface of the outer case 400 so that the unique ID selection dial 401 is not exposed to the outside, and the slide-type cover 402 is one A lock bolt 403 or a magnetic body is integrally coupled to the side surface, and the lock bolt 403 is tightened in a state in which the slide-type cover 402 is closed so that the bolt is fastened to the outer surface of the exterior case 400 or magnetic force. It is attached to the surface of the exterior case 400 made of a metal material by the magnetism of the sieve, so that it is not easily opened. In addition, the locking bolt 403 is made of a captive bolt, so that the rotatable cover 402 can be conveniently opened and closed without fear of losing the bolt even when frequently opened.

In one embodiment of the present invention as described above, the operator can conveniently set the unique ID of the battery pack installed outdoors by opening the slide-type cover 402, so that it can communicate with the battery management device 300 from the outside. By allowing the charge/discharge status of each battery pack to be individually monitored through the manager terminal, the battery can be managed stably. In addition, the battery cell 100 embedded in the external case 400 is press-fitted into the clamping jaw 406 inside so that it can be stably maintained without shaking from external impact, thereby preventing movement due to external vibration and stably without damage. so that it can be used for a long time.

7 is a cross-sectional view illustrating a coupling structure of a second holder in a lower case according to a second embodiment of the present invention, and FIG. 8 is a structure in which a movement preventing protrusion according to a second embodiment of the present invention is coupled to the lower case. It is a cross section.

In the second embodiment of the present invention, a wedge groove 406a is provided inside the side fitting groove of the exterior case 400 so that the battery cell 100 can be more firmly coupled inside the exterior case 400, and the exterior case ( An insertion groove 407 is provided on the bottom surface of the 400) so that the movement preventing protrusion 201 can be inserted into the correct position.

More specifically, in this second embodiment of the present invention, an upwardly depressed wedge groove 406a is formed on the inclined surface formed on the inner clamping jaw 406 of the lower case 420, and the second embodiment of the corresponding position is formed. 2 On the outer surface of the holder 220, a wedge protrusion 202 is formed so that the end thereof protrudes upward to be inserted into the wedge groove 406a in a shape corresponding to the wedge groove 406a, and the second holder 220 is formed. When sliding along the pinching protrusion 406, the wedge protrusion 202 is bent by elasticity and spreads close to the wedge groove 406a so as to be fixed inside the wedge groove 406a. Due to the wedge groove 406a, even if the battery pack is dropped in the process of transporting the battery pack, the second holder 220 press-fitted into the clamping jaw 406 due to an external impact is not easily removed.

In addition, an insertion groove 407 is provided on the inner bottom surface of the exterior case 400 at a position corresponding to the movement preventing protrusion 201 , so that the movement preventing protrusion 201 can be inserted into the insertion groove 407 . The insertion part 203 is formed to extend further in the longitudinal direction at the distal end. Here, the insertion part 203 is formed to have a narrow diameter toward the end, and elastic incision grooves 203a are cut at regular intervals along the circumference along the longitudinal direction of the movement preventing protrusion 201 at the distal end of the insertion part 203 . formed, and on the inner edge of the insertion groove 407, a coupling protrusion 407a is formed to protrude at an interval corresponding to the elastic incision groove 203a, and when the movement preventing protrusion 201 is inserted into the insertion groove 407, the elasticity The coupling protrusion 407a is slidably fastened to the inside of the cut-out groove 203a so that each battery cell 100 is fixed at an accurate position on the inner surface of the exterior case 400 .

Moreover, the elastic incision groove 203a is formed to be inclined at a predetermined angle along the longitudinal direction of the movement preventing protrusion 201, and the engaging projection 407a is also inclined at an angle corresponding to the formation direction of the elastic incision groove 203a. When the movement preventing protrusion 201 is inserted into the insertion groove 407, the coupling protrusion 407a slides along the inclined surface of the elastic incision groove 203a, and the insertion part 203 of the movement preventing protrusion 201 The tip is deformed to strengthen the fixing force.

As described above, in the second embodiment of the present invention, the battery cell 100 is stably fixed to the inside of the external case 400 without shaking. By making it possible to prepare more stably against possible impacts, it is possible to minimize malfunctions in the field.

Although the present invention has been described with reference to the above-mentioned preferred embodiments, various modifications and variations are possible without departing from the spirit and scope of the invention. Accordingly, the appended claims will cover such modifications and variations that fall within the scope of the present invention.

100: battery cell
210: first holder 220: second holder
201: movement prevention projection 202: wedge projection
203: insertion part 203a: elastic incision groove
300: battery management device
400: outer case 401: unique ID selection dial
402: cover 403: lock bolt
404a: first installation space 404b: second installation space
405: separation bulkhead 405a: through groove
405b: silicone ring 406: pinched jaw
406a: wedge groove 407: insertion groove
407a: bonding projection
410: upper case 420: lower case
500: insulation plate 501: movement prevention hole
600: heating pad

Claims (10)

A plurality of battery cells, first and second holders respectively fixed to upper and lower ends of the battery cells, and inner spaces in which the first and second holders are accommodated, respectively, are formed, and are electrically connected to the battery cells to form a battery In the battery pack comprising an external case injection-molded with a metal material so that the battery management device for monitoring the voltage, current and capacity of the battery is installed on one side,
A unique ID selection dial that is recessed inward to set a unique number of the battery pack is installed on the outer surface of one side of the external case, and the battery management device recognizes the unique ID of the battery pack by the operation of the unique ID selection dial to do, but
The external case includes an upper case and a lower case, and the battery cell and the battery management device are installed on the inside,
A first installation space for accommodating the first and second holders is formed on one side of the upper case and the lower case, respectively, and a second installation space for installing the battery management device is formed on the other side, respectively, the first installation A partition wall separating the space and the second installation space is integrally injection-molded to the upper case and the lower case,
A passage groove through which a wire cable connected from the battery management device to a battery cell passes is formed in the separation partition wall formed in the lower case, and a silicone ring is fastened to surround the passage groove,
A battery pack with easy state monitoring, characterized in that the charging/discharging state of each battery pack is individually monitored through a manager terminal through communication with the battery management device from the outside.
The method of claim 1,
A slide-type cover is installed on the outer surface of the outer case so that the unique ID selection dial is not exposed to the outside, and a lock bolt or magnetic body is integrally coupled to one side of the cover to be fixed to the outer surface of the outer case A battery pack that is characterized by easy condition monitoring.
delete delete The method of claim 1,
On the inner wall surface of the first installation space, a pinching protrusion formed as an inclined surface protruding outward toward the lower floor surface is formed to protrude,
The battery pack for easy condition monitoring, characterized in that the outer surfaces of the first and second holders are slidingly press-fitted along the inclined surface of the clamping jaw.
6. The method of claim 5,
An insulating plate is installed between the inner surface of the external case and the battery cell,
Easy condition monitoring, characterized in that movement prevention protrusions are formed on the outer surfaces of the first and second holders to protrude at regular intervals, and movement prevention holes are formed at positions corresponding to the movement prevention projections to be inserted in the insulating plate. one battery pack.
7. The method of claim 6,
A heating pad is installed between the insulating plate and the battery cell, so that when the ambient temperature of the battery cell falls below a certain temperature under the control of the battery management device, the heating pad is operated. battery pack.
7. The method of claim 6,
An upwardly depressed wedge groove is formed on the inclined surface formed on the inner clamping jaw of the lower case, and the end of the second holder protrudes toward the top so as to be inserted into the wedge groove in a shape corresponding to the wedge groove. Easy-to-monitor battery pack, characterized in that the wedge-shaped protrusion is formed.
9. The method of claim 8,
An insertion groove is provided at a position corresponding to the movement preventing protrusion on the inner bottom surface of the outer case, and an insertion part inserted into the insertion groove is provided at the front end of the movement preventing protrusion,
The insertion part is formed to have a narrow diameter toward the end, and elastic incision grooves are cut at regular intervals along the circumference along the longitudinal direction of the movement preventing protrusion at the distal end;
The battery pack for easy condition monitoring, characterized in that coupling protrusions are protruded at intervals corresponding to the elastic incision grooves on the inner edge of the insertion groove.
10. The method of claim 9,
The elastic incision groove is formed to be inclined at a predetermined angle along the longitudinal direction of the movement preventing protrusion, and the coupling protrusion is formed to be inclined at an angle corresponding to the formation direction of the elastic incision groove. one battery pack.

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