KR101731855B1 - Wireless charging apparatus and charger charging a secondary cell - Google Patents

Abstract

[0001] The present invention relates to a charging terminal for charging a secondary battery and a charger capable of charging and discharging a secondary battery of various sizes, which effectively distributes electricity for charging and discharging the secondary battery while reducing power distribution wires A base to which a power supply unit is mounted; A plurality of latching plates fixed to the base so as to be positioned above the bottom plate and having a hole for inserting a power terminal of the control type charging terminal; And a crane for moving the jig upward and downward so that the electrode terminal is inserted into and removed from the hole. A pole having a plurality of power terminals to be inserted into the holes protruding from the case; And a controller which is installed in the case and controls the application of electricity to the power terminal from the power source device, a control type charging stage which is mounted on the tray on which the secondary battery is mounted so that the electrode terminal is inserted into the hole, And a cage installed on the crane for lifting and lowering the cage.

Description

TECHNICAL FIELD [0001] The present invention relates to a charger for charging a secondary battery,

The present invention relates to a method for charging and discharging secondary batteries of various sizes and a method of charging and discharging secondary batteries of various sizes by minimizing the number and length of power distribution lines and improving the power efficiency for charging and discharging secondary batteries, Lt; / RTI >

Unlike a primary battery, which can not be regenerated after the chemical change of the active material has been completed, the secondary battery can regenerate the active substance even when the electrical energy is supplied (charged) And emits electrical energy. This charging and discharging of the secondary battery can be repeated, so that secondary electricity is widely used as a battery for supplying electric energy to portable devices.

Such a secondary battery repeats charging and discharging tests several times during the manufacturing process, and tests for effectiveness thereof, and ultimately, the secondary battery is buffered and commercialized.

In order to mass-produce a rechargeable battery for commercialization of a secondary battery, a plurality of rechargeable batteries must be charged or discharged at the same time in consideration of mass production. For this purpose, a conventional charger is disclosed in Patent Publication No. 10- 2007-0072825, a power supply device having a rectifier and an inverter, and a discharge load are separately formed. Of course, a dedicated electric wire is wired to supply electricity between the tray of the charge / discharge machine and the power supply unit and the discharge unit.

Referring to FIG. 1 (a front view schematically showing a conventional charger) of a conventional charger, a charger includes a power supply device 10, a main body 20 and a jig 30 . As described above, the power supply apparatus 10 is equipped with a rectifier and an inverter. The main body 20 reduces the DC power to charge the secondary battery B and increases the DC power from the charged secondary battery B Discharge control unit for detecting the charge and discharge currents of the secondary battery (B) and the charge and discharge voltages to control the operation of the charge and discharge unit. The jig 30 seats the tray T on which the secondary battery B is mounted to connect the secondary battery B to the charge / discharge unit. Here, the power supply apparatus 10 and the main body 20 are connected by a wire CL, and electricity for charging and discharging is supplied through the wire CL.

However, although the electric wire CL is a high-efficiency conductive material, its resistance is not so small, and therefore, the resistance is necessarily increased as the electric wire CL is longer. Therefore, in the conventional charger, the resistance of the electric line CL between the tray T where the secondary battery B is located and the power supply device 10 increases the power consumption of the electric power supplied for charging the secondary battery B It became one cause.

Meanwhile, the secondary battery (B) has various specifications according to current capacity, and the conventional charger is manufactured in various shapes and sizes according to the specification of the secondary battery (B). Therefore, the manufacturer of the secondary battery (B) had to supply a plurality of conventional chargers according to the specification of the secondary battery (B).

However, the number of conventional chargers that can be provided in a limited space is limited. Further, since the conventional charger has to be provided with various types according to the specifications, the number of secondary batteries (B) There was a limit.

Prior Art Document 1. Patent Publication No. 10-2007-0072825 (published on July 7, 2007)

Accordingly, it is an object of the present invention to provide a secondary battery which can minimize the length and the number of electric wires connecting the secondary battery and the power source to reduce the amount of power consumed in charging the secondary battery, The present invention aims at solving the problem of providing a charger equipped with a charging terminal of a non-electric wire control type for charging a secondary battery capable of charging.

According to an aspect of the present invention,

A base for inserting a power supply; A plurality of latching plates fixed to the base so as to be positioned above the bottom plate and having a hole for inserting a power terminal of the control type charging terminal; And a crane for raising and lowering the jig so that the electrode terminal is inserted into and removed from the hole,

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A case that seats on the bottom plate; A pole having a plurality of power terminals to be inserted into the holes protruding from the case; And a controller which is installed in the case and controls the application of electricity to the power terminal from the power source,

A jig provided with a tray mounted with a secondary battery so that the electrode terminal is inserted into the hole and installed in the crane for lifting and lowering,

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It is an object of the present invention to shorten the length of the distribution line between the secondary battery and the power source to reduce the amount of power consumed for charging the secondary battery and to charge the secondary battery of various sizes, There is an effect that the battery can be produced by filling the battery with sufficient capacity.

1 is a front view schematically showing a state of a conventional charger,
2 is a schematic view showing a front view of a charger according to the present invention,
3 is a front view of a control-type charge stage mounted on a charger according to the present invention,
4 is a cross-sectional view showing a cross-sectional view taken along the line AA '
5 to 7 are views schematically showing a plan view of a charger according to the present invention,
8 is a view schematically showing a front view of a secondary battery of a charger according to the present invention connected to a control-type charging terminal,
FIG. 9 is an enlarged view of a side view of 'D', which is a portion where the power source terminal of the control type charge stage contacts the electrode terminal of the secondary battery in FIG. 8,
FIG. 10 is a view schematically showing a plan view of the charger after the operation shown in FIG. 8,
Fig. 11 is an enlarged view of a portion where the power source terminal of the control-type charge terminal contacts the electrode terminal of the secondary battery in Fig. 10,
FIG. 12 is a view schematically showing a side view of the charger after the operation shown in FIG. 10,
FIG. 13 is an enlarged view of a portion where the power source terminal of the control-type charging terminal contacts the electrode terminal of the secondary battery in FIG.

BRIEF DESCRIPTION OF THE DRAWINGS The above and other features and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings, It will be possible. The present invention is capable of various modifications and various forms, and specific embodiments are illustrated in the drawings and described in detail in the text. It should be understood, however, that the invention is not intended to be limited to the particular forms disclosed, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a view schematically showing a front view of a charger according to the present invention, and will be described with reference to FIG.

A charger according to the present invention comprises a power supply device (100); A main body 200 for mounting the power supply device 100, the control charging terminal 300 and the jig 400; And a jig 400 that lifts up and down the main body 200 by receiving the tray T.

The power supply device 100 includes a rectifier (not shown) for rectifying an alternating current applied from the outside and an inverter (not shown) for converting the voltage into a required voltage. The power supply device 100 is mounted on the main body 200, ). Since the internal structure of the power supply apparatus 100 is a known technique, a detailed description thereof will be omitted here.

The main body 200 includes a base 210 that forms a base of the main body 200 and a seat 220 that accommodates the control type charging end 300 and is movably installed on the base 210, And a crane 230 installed on the base 210 to support the jig 400 so as to be able to ascend and descend.

Each component of the main body 200 will be described in more detail.

The base 210 forms the foundation for installing the power supply 100 while supporting the charger. In this embodiment, the base 210 is a flat plate, but the present invention is not limited thereto.

The seat 220 receives the regulated charge stage 300 and is installed to move transversely at the base 210. A rail 211 for supporting the seat 220 is protruded from the base 210 and a slider 221a is formed on the bottom plate 221 of the seat 220 to engage with the rail 211 to slide. Subsequently, the seat 220 receives the base plate 221 of the seat 220, the power supply terminal 343 of the control type charging terminal 300 and the electrode terminal B1 of the secondary battery B together And a switch 223 and 223 'for generating power to move the base plate 221 in the horizontal direction. The latching plate 222 is provided with a latching hole 222a formed in the base plate 210, Here, the switches 223 and 223 'may be various types such as a screw drive motor, a hydraulic cylinder, and a rack-and-pinion drive motor that generate a lateral movement power of the bottom plate 221. If a power source capable of generating a lateral movement power, And may be variously carried out within a range not exceeding the range. The bottom plate 221 and the engaging plate 222 are separated from each other so that the engaging plate 222 adheres to the mounting position of the base 210 irrespective of the sliding of the bottom plate 221. In addition, the control-type charging terminal 300 is seated on the seat 220 in a state where the power supply terminal 343 is inserted into the hole of the latch 222a.

The jig 400 includes a cradle 410 for detachably mounting the tray T, a first setter 420 for adjusting the position of the tray T mounted on the cradle 410, And a second setter 430 for adjusting the position of the stationary tray T.

Each component of the jig 400 will be described in more detail.

The holder 410 detachably mounts the tray T so that the secondary battery B mounted on the tray T contacts the power terminal 343 of the control type charging terminal 300 mounted on the base plate 221, And a hole is formed at the center to make contact. Thus, the holder 410 has a ring shape surrounding the perimeter of the hole or an annular shape surrounded by three chambers, and the tray T has a structure in which the edge is seated on the holder 410 to cover the hole. In this embodiment, the cradle 410 is seated on the first protrusion 411 protruding from the hole with the edge of the tray T being caught. The second protrusion 412 protrudes upward to the left and right sides of the hole and the tray T seated on the first protrusion 411 moves out of the limit range prevent. On the other hand, a stopper 413 is formed at the head of the holder 410 around the hole. The stopper 413 prevents the tray T from moving out of the limit range like the second projection 412. [

The first setter 420 is installed at the rear of the hole and adjusts the position by pushing the tray T seated on the mount 410 to the front. The first setter 420 may be a hydraulic cylinder type for pushing the tray T to the head, but is not limited thereto.

The second setter 430 is installed on the left and right sides of the hole, respectively, to adjust the position of the tray T that is placed on the table 410. 5, the second center 430 includes a holder 431 for adjusting the left and right positions of the tray T and holding the tray T, and a holder 431 for holding the tray T, A first positioning 432 for adjusting the position of the holder 431 and a second positioning 432 for aligning the electrode terminal B1 of the secondary battery B inserted in the latch 222a with the tray T And a second positioning 433 for moving the position of the holder 431 holding the holder 431. In the present embodiment, the second setter 430 includes a holder 431, a first positioning 432 and a second positioning 433 are connected in a line, a first positioning 432 includes a holder 431 and a second positioning The length between the holder 431 and the second positioning 433, which is disposed between the second positioning member 433 and the position of the tray T to adjust the position of the tray T in accordance with the specification of the secondary battery B,

FIG. 3 is a front view of a control-type charge stage mounted on a charger according to the present invention, and FIG. 4 is a cross-sectional view taken along line A-A 'of FIG.

The control type charging stage 300 according to the present invention includes charging control means for controlling the charging of the secondary battery B and energizing means for electrically connecting the secondary battery B to each other, Keep the length as short as possible to help miniaturize the charger. In addition, the charging control means and the energizing means can be integrally replaced by the charger in accordance with the standard of the secondary battery (B) to be placed on the tray (T). In addition, since the plurality of control type charging stages 300 can be provided in the charger, the secondary batteries B of various sizes can be arranged in one line in the manner of arranging the secondary batteries B of the same size in a line on the tray T. It is possible to simultaneously charge the secondary batteries B of various sizes in one charger by putting them together in the tray T.

The control type charging stage 300 for this purpose includes a case 310, fans 320 and 320 'for cooling and ventilating the board type controller 330 installed in the case 310, And a pawl 340 for bringing the electricity applied from the controller 330 into contact with the secondary battery B to supply electricity.

Each component of the controlled charging stage 300 will be described in more detail.

The case 310 receives the controller 330 and supports a pole 340 electrically connected to the controller 330.

The fans 320 and 320 'cool and ventilate the inside of the case 310 in which the controller 330 is installed to cool the controller 330 which is operated by receiving electricity from the power supply 100.

The controller 330 is mounted with a channel board 331 for controlling the ON and OFF of the power terminal 343 while the channel board 331 controls the electric power applied to the power terminal 343. In this embodiment, the controller 330 includes a plurality of channel boards 331 corresponding to the plurality of power terminals 343, and each channel board 331 is electrically coupled to the power terminals 343 . The controller 330 applies a current of a predetermined magnitude to the power terminal 343 designated by the channel board 331 according to the set OS so that a battery B of various sizes is mounted on one tray T It can be charged at the same time.

The controller 300 is connected to a conductor 311 connected to the power supply apparatus 100 and receives power required for charging the secondary battery B from the power supply apparatus 100. [ The controller 330 includes a connection cord 332 that fits into the slot 342 configured in the pawl 340 for electrical connection with the pawl 340. [ In this embodiment, a slot 342 is formed in the pawl 340 and a connection cord 332 is formed in the controller 330, but the opposite can be made. Subsequently, the linker 333 is fixed to the fixed base 341 of the pawl 340 so that the controller 330 and the pawl 340 are integrated with each other.

The pawl 340 includes a fixing base 341 fixed to the case 310 and a slot 342 for inserting the connection cord 332 of the controller 330 into the power terminal 343, And a power supply terminal 343 for applying electricity to the secondary battery B in contact with the electrode terminal B1 of the secondary battery B1 and electrically connected to the slot 342. [ A plurality of power terminals 343 are formed so as to be in contact with the plurality of secondary batteries (B). For reference, the power terminal 343 is divided into a positive electrode and a negative electrode according to an electrode terminal B1 divided into a positive electrode and a negative electrode.

5 to 7 are views schematically showing a plan view of a charger according to the present invention, and will be described with reference to these figures.

1) Tray mounting

The operator places the tray T containing the secondary battery B on the holder 410 as shown in FIG. The holder 410 is formed with a hole at the central portion as described above, and the tray T is mounted to cover the hole. In this embodiment, the first protrusion 411 is formed at the edge of the hole of the cradle 410, and the edge of the tray T is placed on the cradle 410.

For reference, the secondary battery B accommodated in the tray T must be correctly mounted on the cradle 410 in accordance with the position of the control-type charging terminal 300, but it is difficult to mount the battery C in the correct position in the initial seating process.

2) Tray position 1st adjustment

6, when the tray T is mounted on the cradle 410, the first setter 420 positioned at the rear with respect to the hole is moved to one side of the tray T by using the push panel 421 Push to move. The tray T thus moved moves toward the head about the hole, reaches the stopper 413, and stops.

As a result, the tray T adjusts the position of the tray 410 primarily.

3) Tray position 2nd adjustment

As shown in Fig. 7, the tray T is positioned at the head of the cradle 410, and the second setter 430 is positioned at the second position by pushing the left and right sides of the tray T. The holder 431 of the second setter 430 presses the left and right sides of the tray T together to hold the left and right positions of the tray T and holds the tray T To adjust the subsequent position of the tray (T). The holder 431 is provided with a push panel 431b for pushing the tray T and the push panel 431b is inserted into the concave groove T1 formed on the left and right sides of the tray T, ) Can be stably performed.

In order to match the holder 431 to the tray T or the secondary battery B, the first embodiment of the present invention includes a first positioning 432 for adjusting the length of the second setter 430, ) And the second positioning 433. Therefore, the size of the tray T or the secondary battery B is checked before the tray T is mounted on the table 410, and the first positioning 432 is operated in accordance with the standard to set the second setter 430 ).

FIG. 8 is a schematic front view of a secondary battery of a charger according to the present invention connected to a control-type charging terminal. FIG. 9 is a cross- D ", which is an enlarged view of the side view of the present invention.

4) Tray position adjustment

9, the jig 400 is lowered and the electrode terminal B1 of the secondary battery B, which is placed on the tray 410, is lowered to the stopper (not shown) 222a. The electrode terminal B1 inserted into the latching portion 222a faces the power supply terminal 343.

The lowering of the cradle 410 is performed by a crane 230 of the main body 200. In this embodiment, the crane 230 includes a lifting cylinder 231 installed in the base 210, And an elevating piston 232 which is moved up and down according to the hydraulic pressure of the elevating shaft 231 and is fixed to the elevating table 410.

In the present embodiment, the crane 230 is configured to raise and lower the lifting piston 232 by adjusting the hydraulic pressure of the lifting cylinder 231, but other techniques such as a ball screw, a rack pinion, and a crank may be applied.

FIG. 10 is a view schematically showing a plan view of the charger after the operation shown in FIG. 8, and FIG. 11 is an enlarged view of a portion where the power source terminal of the control type charging terminal contacts the electrode terminal of the secondary battery in FIG. The drawing will be described with reference to this figure.

5) Adjustment of electrode terminal position

When the electrode terminal B1 of the secondary battery B is inserted into the hole of the latch 222a, the electrode terminal B1 is slightly spaced from the inner wall of the latch 222a. In order to prevent an accident that the electrode terminal B1 is inserted into the hole of the latch 222a and is caught in the latch 222a after the electrode terminal B1 is inserted into the hole of the latch 222a, .

However, in order for the power source terminal 343 of the control-type charging terminal 300 and the electrode terminal B1 of the secondary battery B to contact each other for power supply, a tight and stable contact state must be maintained between them. However, when the electrode terminal B1 is positioned at the center of the hole, it is impossible to ensure close contact with the power terminal 343 and stable contact.

Therefore, the position of the secondary battery B is adjusted so that the electrode terminal B1 is in close contact with the inner wall of the latching portion 222a. For this, in this embodiment, the second positioning 433 is operated to move the tray T to the rear, and the secondary battery B, which is seated on the tray T, So that the electrode terminal B1 of the latch 222a is brought into close contact with the inner wall of the latch 222a.

FIG. 12 is a view schematically showing a side view of the charger after the operation shown in FIG. 10, and FIG. 13 is an enlarged view showing a portion where the power source terminal of the control type charge terminal contacts the electrode terminal of the secondary battery in FIG. In this section, we will refer to it.

6) Terminal contact

The power supply terminal 343 of the control type charging terminal 30 is moved to the retention base 222a by moving the base plate 221 of the seat 220 on which the control type charging stage 300 is seated, In contact with the electrode terminal B1.

To do this, the switches 223 and 223 'for sliding the base plate 221 are operated to move the base plate 221 in the base 210, thereby moving the controllable charging terminal 300 together therewith. Of course, the power supply terminal 343 integrated with the control-type charging terminal 300 also moves in the hole and contacts the electrode terminal B1 closely contacting the inner wall of the latching base 222a. In this embodiment, the pair of switches 223 and 223 'are arranged and fixed to the base 210 of the main body 200, respectively. The switches 223 and 223' are connected to the base 220 of the main body 200 via the arm 223a, 221 to move the arm 223a back and forth to control the forward and backward movement of the control-type charging terminal 300. [

When the power source terminal 343 and the electrode terminal B1 are in intimate contact with each other, charging or discharging of the secondary battery B proceeds.

Thereafter, when the charging or discharging of the secondary battery B is completed, the charger is operated in the reverse order of the above-described procedure to separate the tray T from the charger.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100; Power supply 200; A body 210; Base
211; Rail 220; Sheet 221; Base plate
222; An engagement plate 222a; The latches 223 and 223 '; switch
230; A crane 231; Lifting cylinder 232; Lift piston
300; Controlled charge stage 310; Case 311; Conductor
320, 320 '; Fan 330; A controller 331; Channel board
332; Access code 333; Linker 340; pole
341; A fixing table 342; Slot 343; Power terminal
400; Jig 410; A cradle 411; The first projection
412; A second projection 413; Stopper 420; First setter
430; A second setter 431; Holder 432; First Positioning
433; Second Positioning

Claims (7)

delete delete A base for inserting a power supply; A plurality of latching plates fixed to the base so as to be positioned above the bottom plate and having a hole for inserting a power terminal of the control type charging terminal; And a crane for raising and lowering the jig so that the electrode terminal is inserted into and removed from the hole,
A case that seats on the bottom plate; A pole having a plurality of power terminals to be inserted into the holes protruding from the case; And a controller which is installed in the case and controls the application of electricity to the power terminal from the power source,
A jig provided with a tray mounted with a secondary battery so that the electrode terminal is inserted into the hole and installed in the crane for lifting and lowering,
≪ / RTI > The method of claim 3,
A seat having a switch for sliding the bottom plate for movement of the control-type charging end so that the hole-inserted electrode terminal and the power terminal come into contact with each other;
≪ / RTI > The method of claim 3,
The jig further comprises a first setter pushing a tray mounted on the cradle;
Wherein the holder further comprises a stopper for stopping the tray pushed by the first setter. 4. The apparatus of claim 3, wherein the jig
A second setter having a second holder for moving the holder so as to move the tray so that the electrode terminals of the secondary battery are in contact with the inner wall of the hole of the holding table;
≪ / RTI > 7. The apparatus of claim 6, wherein the second setter
Further comprising a first positioning to adjust a length of the second setter by adjusting a distance between the holder and the second positioning.

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