WO2015111806A1

WO2015111806A1 - Waste battery collection device

Info

Publication number: WO2015111806A1
Application number: PCT/KR2014/005894
Authority: WO
Inventors: 김태완
Original assignee: 주식회사 누리리사이클
Priority date: 2014-01-22
Filing date: 2014-07-02
Publication date: 2015-07-30
Also published as: KR101380073B1

Abstract

Disclosed is a waste battery collection device consisting of: a housing body (10) which has a storage space (12) with an open door (11) provided on the lower section thereof; an input tube (20) which has input holes (21) having inner diameters corresponding to the sizes of waste batteries and provided on the front side of the housing body (10), and an input section (22) corresponding to the input holes (21), and which extends from the input section (22) while vertically extending on the inside of the housing body (10); a collection plate (30) which is positioned at the lower section of the input tube (20) to be inclined downward with respect to the input tube (20), is hingedly coupled thereto by a first hinge pin (31), and is provided with a first opening and closing sensor (32); a discharge plate (40) which is hingedly coupled to the lower section of the input tube (20) by a second hinge pin (41) while being positioned in the vertical direction of the input tube (20), has a lower end adhered to the tip end of the collection plate (30), and is provided with a second opening and closing sensor (42); a waste battery collection box (50) which is positioned at the lower section of the collection plate (30) and is provided in the storage space (12) so as to collect waste batteries falling during the opening of the collection plate (30); a foreign material outlet (60) which has a discharge tube (61) connected with the discharge plate (40) so as to discharge foreign material except the waste batteries during the opening of the discharge plate (40), communicates with the discharge tube (61), and is provided on the front side of the housing body (10) so as to discharge the foreign material through the discharge tube (61); a metal sensing sensor (71) provided on the inside of the input tube (20) so as to sense whether the waste batteries inputted from the input holes (21) and falling through the input tube (20) are metallic or not; a load sensing sensor (72) provided on the collection plate (30) so as to sense the load of the waste batteries falling through the input tube (20); a quantity sensing unit (73) which is electrically connected with the load sensing sensor (72) so as to sense the quantity of waste batteries inputted through the input holes (21); a card charging terminal (74) for charging an amount or points corresponding to the quantity of waste batteries sensed by the quantity sensing unit (73); and a control unit (70) which is electrically connected with the first opening and closing sensor (32), the second opening and closing sensor (42), the metal sensing sensor (71), the load sensing sensor (72), the quantity sensing unit (73), and the card charging terminal (74) so as to control the first opening and closing sensor (32), the second opening and closing sensor (42), the metal sensing sensor (71), the load sensing sensor (72), the quantity sensing unit (73), and the card charging terminal (74). The present invention allows points or an amount distinguished by sensors according to each type of the waste batteries to be accumulated in a transportation card or a point card if battery users input used waste batteries into the input tube of the collection device. Thereby, when the waste batteries are collected instead of being thrown away, the present invention distributes profits to the users, thus being capable of enhancing the collection rate of waste batteries, preventing environmental contamination caused by thrown-away waste batteries, and obtaining economic efficiency resulting from recycling. In addition, the present invention can classify the collected waste batteries according to type so that an additional classification work is omitted, and accordingly can greatly improve workability and convenience due to the collection of waste batteries.

Description

Waste Battery Recovery Device

The present invention relates to a waste battery recovery apparatus, and more particularly, when the separated waste batteries are collected separately, users are provided with a predetermined amount of points or transportation card charges according to the number of waste batteries to be recovered. The present invention relates to a waste battery recovery apparatus capable of increasing the recovery rate of waste batteries and storing and collecting the waste batteries for each type of waste batteries to be recycled as well as to facilitate the collection operation.

In general, batteries are classified into relatively large sizes such as general batteries using carbon electrodes, stacked batteries using manganese and zinc-bonded electrodes, and alkaline batteries, and relatively small, such as silver oxide batteries and mercury batteries. They have a lifespan that can be used for a certain period of time, and if they are thrown away with general waste without separate batteries, they will cause heavy pollution to mercury, such as mercury in batteries, and cause great harm to humans.

In addition, all of manganese, zinc or other metals constituting the battery can be recycled, but there is a problem that such recycled materials are disposed of as they are due to the low recovery rate of the waste batteries.

In addition, although the waste battery collection container which collects the waste battery which has reached the end of life separately has been used, this conventional waste battery collection container does not collect according to the size and type of waste battery, but collects all kinds of batteries in one storage room. As the waste batteries are collected, the waste water must be reclassified when the waste batteries are collected.

In addition, in order to completely collect the waste batteries that cause environmental pollution, promote the addictiveness of the waste batteries in a group residential facility such as an apartment, a mercury cell store, or a group education facility such as a school where many people pass. A method for efficiently collecting waste batteries should be provided, but since the number is too short and the situation is in need of improvement, such as lack of convenience and inconspicuous use of waste battery collection boxes, the practical effects cannot be achieved. have.

Therefore, there is an urgent need for a waste battery recovery apparatus capable of utilizing waste batteries and efficiently recovering waste batteries while attracting public attention.

Looking at the prior art, a waste battery collection device has been devised, which is published in Patent Publication No. 10-2012-0007798, in the waste battery collection device for using the residual voltage of the waste battery as a power source of the LED, a plurality of LEDs, Comprising storage spaces that can accommodate each of a plurality of waste batteries, the storage spaces are configured to include a circuit portion configured to electrically connect the plurality of waste batteries to the plurality of LEDs.

This prior art is to increase the resource efficiency by using the residual voltage of the collected waste batteries as a power source for the LED.

However, the reason why most battery users do not put waste batteries in the waste container is because it is inconvenient to separate the waste batteries separately, and even if the waste batteries are put in the waste container, users do not receive any profits from recycling the waste batteries. The return to the battery will gradually drop.

According to the present invention, when a waste battery is put in a recovery device, charging a point or transportation card corresponding to a predetermined amount is performed according to the number of waste batteries, thereby increasing the recovery rate of the waste batteries by causing satisfaction for users who collect the waste batteries. In addition, the purpose of the present invention is to provide a waste battery recovery apparatus capable of inducing convenience according to the recovery of waste batteries by allowing each of the collected waste batteries to be stored by type.

Waste battery recovery apparatus of the present invention as a means for achieving the above object, the housing body having a storage space provided with an open door in the lower portion; Input holes provided on the front surface of the housing body and having an inner diameter corresponding to the size of a waste battery, an input part corresponding to the input holes, and extending from the input part and extending in a vertical direction inside the housing body. Input tube being made; A recovery plate positioned downwardly with respect to the inlet pipe and hinged by a first hinge pin at a lower portion of the inlet pipe, and having a first opening / closing sensor; A discharge plate hinged to a lower portion of the input pipe by a second hinge pin and positioned in a vertical direction of the input pipe and having a lower end in close contact with an end of the recovery plate, and having a second opening / closing sensor; A waste battery collector disposed at the lower portion of the collecting plate and disposed in the storage space to collect the waste batteries falling upon opening of the collecting plate; A discharge pipe which is connected to the discharge plate and discharges foreign matter other than the waste battery when the discharge plate is opened, and a foreign matter discharge port communicating with the discharge pipe and provided on the front of the housing to discharge the foreign matter discharged through the discharge pipe; A metal detection sensor provided inside the input pipe to detect metal of the waste battery which is introduced from the input holes and falls through the input pipe; A load detection sensor provided on the recovery plate to detect a load of the waste battery dropped through the input pipe; A quantity detecting unit electrically connected to the load detecting sensor and detecting a quantity of waste batteries introduced through the input holes; A card charging terminal for charging an amount or a point corresponding to the quantity of the waste batteries detected by the quantity detecting unit; The first opening and closing sensor, the second opening and closing sensor, the metal detecting sensor, the load detecting sensor, the quantity detecting unit, the card charging terminal electrically connected to the first opening and closing sensor, the second opening and closing sensor, the metal detecting sensor, the load detecting sensor, It is provided with a quantity detecting unit, a control unit for controlling the card charging terminal.

Furthermore, the card charging terminal is made of any one of a cradle type terminal for placing and charging a card or an input terminal for charging by inserting a card.

Furthermore, the upper surface of the housing body is further provided with a solar panel for collecting solar heat and converting it into electrical energy, and further comprises a power storage unit electrically connected to the control unit and the solar panel.

Furthermore, an input partition wall corresponding to the input holes is further provided inside the input pipe body, and the waste battery collection box includes: partition walls corresponding to the input partition wall; Compartment spaces are partitioned by the partition walls and further include compartment spaces for storing types of waste batteries introduced from the input holes.

Further, the waste battery collection box is further provided with a locking door body to block the inside of the waste battery collection box from the outside when the waste battery collection box is removed from the storage space.

Further, the open door for opening and closing the storage space is further provided with a door sensor for detecting the opening of the open door, the locking door body, the solenoid electrically connected to the door sensor; A locking protrusion operated by the solenoid; A locking door having a locking groove to which the locking protrusion is engaged and connected to a spring at one side thereof; Wherein the spring is located and the locking door is provided with a door receptacle sliding in and out.

Further, the first drop detection sensor for detecting the dropping time of the waste battery is further provided on the inner side of the input pipe is electrically connected to the control unit, the lower end of the input pipe to detect the drop end point of the waste battery 2, the fall detection sensor is further provided electrically connected to the control unit.

According to the present invention, when a battery used by a user of a battery is put into an input pipe of a recovery device, the sensor is charged by charging a traffic card or accumulating points or points for each type of used battery by the sensors. In addition to improving the recovery rate of used batteries by distributing profits when the batteries are collected without being discarded, they can prevent the environmental pollution caused by the discarded batteries and achieve economic efficiency through recycling. Since the batteries can be classified by type, additional sorting work can be omitted, greatly improving workability and convenience according to the collection of waste batteries.

1 is a perspective view showing a waste battery recovery apparatus of the present invention.

Figure 2 is a block diagram showing a state in which the open door of the waste battery recovery apparatus of the present invention is closed.

3 is a block diagram showing an open door of the present invention, the waste battery recovery apparatus.

Figure 4 is a partially omitted configuration diagram showing the main part of the waste battery recovery apparatus of the present invention.

5 is a partially omitted configuration diagram showing a state in which the waste batteries of the present invention, the waste battery recovery apparatus falls.

6 is a partially omitted configuration diagram showing a state in which foreign matter is discharged in the waste battery collection apparatus of the present invention.

Figure 7 is a perspective view showing the input tube and the waste battery collection box of the present invention waste battery recovery apparatus.

8 is a perspective view showing another embodiment of the input tube and the waste battery collection box of the present invention the waste battery collection apparatus.

9 is a conceptual diagram showing the connection of the components of the present invention, the waste battery recovery apparatus.

10 is a conceptual diagram illustrating a connection relationship between a door detection sensor and a solenoid of a waste battery collection apparatus of the present invention.

Hereinafter, other objects and features of the present invention in addition to the above object will be apparent through a description of the embodiments with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art. Terms such as those defined in the commonly used dictionaries should be construed as having meanings consistent with the meanings in the context of the related art, and shall not be construed in ideal or excessively formal meanings unless expressly defined in this application. Do not.

Hereinafter, with reference to the accompanying drawings, a waste battery recovery apparatus according to an embodiment of the present invention will be described in more detail.

As shown in the present invention, the waste battery recovery apparatus of the present invention includes a housing body 10 and an input pipe 20, a recovery plate 30, a discharge plate 40, a waste battery collection box 50, a foreign substance discharge port 60, and a control unit. It consists of 70 is made.

The housing body 10 is formed of a synthetic resin or a metal material and is formed in a lower portion of the housing space 12 is provided with an open door 11 in the form of a hollow inside.

Since the open door 11 is hinged to the lower portion of the housing body 10, the open door 11 is hinged upward with respect to the lower portion of the housing body 10 to open.

The input pipe body 20 is provided with a waste battery, is provided in the front of the housing body 10 and the input hole 21 and the input hole 21 having an inner diameter corresponding to the size of the waste battery and Corresponding input portion 22 and extending from the input portion 22 is made to extend in the vertical direction inside the housing body 10 is provided.

The input holes 21 may be inserted into each of the input holes 21 according to the type of waste batteries.

That is, most batteries have a cylindrical body made of a metal material and an anode protrusion made of a metal cover on one side of the cylindrical body, a cathode portion made of a zinc container on the other side of the body, and a carbon rod provided inside the body and connected to both protrusions. And an insulator surrounding the carbon rod, carbon powder, and manganese are housed therein.

Since these batteries have different sizes depending on the intended use, the outer diameters of the bodies are different, respectively. Thus, the waste batteries having different sizes are injected into the input holes 21 having different inner diameters, respectively. Recover.

The waste battery introduced from the input hole 21 is vertically dropped along the length direction of the input pipe 20 after passing through the input part 22.

The recovery plate 30 is positioned inclined downward with respect to the inlet tube 20 at a lower portion of the inlet tube 20 and hinged by a first hinge pin 31 to open and close the first opening / closing sensor 32. Is made.

The recovery plate 30 is to drop the waste battery vertically dropped through the input pipe 20, in which case the first opening and closing sensor 32 when the waste battery seated on the recovery plate 30 is not foreign matter Is operated so that the recovery plate 30 is opened with the first hinge pin 31 as an axis, and the waste batteries fall to the waste battery collection box 50 and are collected.

The discharge plate 40 is hinged to the lower portion of the input pipe 20 by a second hinge pin 41, but is located in the vertical direction of the input pipe 20 and the lower end of the recovery plate 30 It is in close contact with the end is made of a second opening and closing sensor 42 is provided.

The discharge plate 40 is vertically dropped through the input pipe 20 so that the second opening / closing sensor 42 is operated when the object seated on the recovery plate 30 is a foreign material rather than a waste battery. The publication 40 is opened with the second hinge pin 41 as the axis so that the foreign matter is discharged to the foreign matter discharge port 60 side.

The waste battery collection box 50 is disposed at the lower portion of the recovery plate 30 and provided in the accommodation space 12 to collect the waste batteries that are dropped upon opening of the recovery plate 30.

At this time, since the inside of the waste battery collecting box 50 is hollow, the waste battery is dropped and collected toward the hollow waste battery collecting box 50 side.

The foreign substance discharge port 60 is connected to the discharge plate 40, the discharge pipe 61 and the discharge pipe 61 for discharging the foreign matter other than the waste battery at the time of opening the discharge plate 40 and the discharge pipe 61 and the housing body It is provided on the front of the 10 is discharged through the discharge pipe 61 is foreign matter is discharged.

That is, when the discharge plate 40 is opened, foreign matter dropped through the input pipe 20 moves away from the open discharge plate 40 and the foreign matter is moved through the discharge pipe 61. Is discharged to the outside and is discharged to the outside of the housing body 10 again.

The metal detection sensor 71 is provided to be provided in the input pipe body 20 so as to detect the metal of the waste battery which is introduced from the input holes 21 and falls through the input pipe body 20.

At this time, the metal sensor 71 is to detect a metal component of the components constituting the waste battery, the metal sensor 71 is preferably used a metal detection sensor generally known.

The load sensor 72 is provided on the recovery plate 30 to detect the load of the waste battery dropped through the input pipe 20, the load sensor 72 is a load cell generally known It is available.

The quantity detecting unit 73 is electrically connected to the load detecting sensor 72 and detects the quantity of waste batteries introduced through the input holes 21, so that the quantity detecting unit 73 is the recovery plate 30. When the waste battery is seated on the) side, the quantity of waste batteries seated on the recovery plate 30 side is counted to detect the quantity.

The card charging terminal 74 is to charge the amount or point corresponding to the quantity of waste batteries detected by the quantity detecting unit 73, the amount of transportation card charge by the quantity or weight of the waste batteries to be recovered Alternatively, the collection rate of waste batteries can be increased by distributing the profits to users when recovering the waste batteries together with the uneconomical problem caused by the waste batteries discarded by the point charging of the point cards.

The control unit 70, the first opening and closing sensor 32, the second opening and closing sensor 42, the metal detection sensor 71, the load detection sensor 72, the quantity detection unit 73, the card charging terminal 74 Are electrically connected to the first opening and closing sensor 32, the second opening and closing sensor 42, the metal detection sensor 71, the load detection sensor 72, the quantity detection unit 73, the card charging terminal 74 To control.

According to the present invention configured as described above, if the user collects and recovers the waste batteries without discarding them, the profits are distributed to the users by charging the transportation card amount or charging points again according to the quantity of the waste batteries to be recovered. It can increase the collection rate of waste batteries.

The front of the housing body 10 of the present invention may be provided with a start button 101 and the end button 102 to recover the waste battery.

Accordingly, when the user wants to recover the waste batteries, the user first presses the start button 101 to transmit whether the waste batteries have been recovered to the controller 70.

Next, when a user inputs a waste battery through the input hole 21, the waste battery is introduced into the feed tube 20 and the metal detecting sensor 71 detects whether the waste battery is metallic. .

At this time, when metal is detected by the metal sensor 71, the detection value is transmitted to the controller 70. For example, when an object input by the metal sensor 71 is not a waste battery. The second opening and closing sensor 42 is immediately operated to open the discharge plate 40, the object is directly discharged to the foreign matter discharge port (60).

In addition, when the metal detection sensor 71 detects that the metal bar load sensor 72 and the quantity detection sensor 73 of the recovery plate 30 is operated, according to the weight and quantity of the spent battery A sensing value of the detected waste battery is transmitted to the controller 70.

In addition, when the detected value of the waste battery is transferred to the control unit 70 side, the first opening / closing sensor 32 is operated to open the recovery plate 30, and the input tube 20 is opened by opening the recovery plate 30. The waste batteries introduced into the drop battery are dropped into the waste battery collection box 50 and collected.

When the detected value for the weight and quantity of the waste batteries introduced into the input pipe 20 by this operation is transmitted to the control unit 70, the amount or point corresponding to the detected value is transferred to the card charging terminal 74 side. The amount or point is charged according to the type of card put or put in the card charging terminal 74.

At this time, if the transportation card is put or put in the card charging terminal 74 to convert it into the amount of transportation card to charge it, and when the point card is put or put is converted into points to charge.

The point of the point card, for example, may correspond to all points that can be used in department stores, movie theaters, franchise restaurants, convenience stores, and the like.

The card charging terminal 74 may be made of either a cradle type terminal for placing and charging a card or an input terminal for charging by inserting a card.

Accordingly, the user may put a card to be charged in the cradle type terminal or insert a card to be charged in the input terminal to charge the transportation card amount or charge a point.

On the upper surface of the housing body 10, a solar panel 80 for collecting solar heat and converting it into electrical energy is further provided, and a power storage unit electrically connected to the solar panel 80 and the controller 70, respectively ( 81 is further provided.

Accordingly, the power required for the controllers as well as the respective sensors can be utilized as electricity stored in the power storage unit 81, thereby minimizing power consumption.

An input partition wall 23 corresponding to the input holes 21 is further provided inside the input pipe body 20, and the waste battery collection box 50 may include a partition wall corresponding to the input partition wall 23. 51 and the partition spaces 52 which are partitioned by the partition walls 51 and accommodated in the type of waste batteries introduced from the input holes 21 are further provided.

In this way, when the input partition wall 23 is provided in the input pipe 20 and the compartment spaces 52 are provided in the waste battery collection box 50, the compartments for each type of waste battery introduced through the input hole 21 are respectively provided. Since the waste battery can be collected in the space 52, the process of separately classifying the waste batteries recovered in the process of recovering the waste batteries is omitted.

The waste battery collection box 50 is further provided with a locking door body 53 to block the inside of the waste battery collection box 50 from the outside when the waste battery collection box 50 is removed from the storage space 12.

At this time, the open door 11 for opening and closing the storage space 12 is further provided with a door detection sensor 75 for detecting the opening of the open door 11, the locking door body 53 is A solenoid 54 electrically connected to the door detection sensor 75, a locking protrusion 55 operated by the solenoid 54, and a locking groove 56 on which the locking protrusion 55 is engaged are provided. A locking door 58 connected to the spring 57 on one side and a door accommodating part 59 in which the spring 57 is positioned and the locking door 58 slides in and out are provided.

Accordingly, when the waste battery recoverer opens the open door 11, the door sensor 75 detects this and the detected value of the solenoid of the locking door body 53 provided in the waste battery collection box 50 is detected. 54, the locking door 58 is pushed out of the door receiving portion 59 by the tension of the spring 57 by the operation of the solenoid 54 to block the open upper portion of the waste battery collection box (50). do.

That is, when the spring 57 is located in the accommodation space 12 of the housing body 10, the spring 57 is contracted as the locking door 58 is pulled into the door accommodating part 59 and the locking door 58 is pulled out. By holding the locking protrusion 55 in the locking groove 56 of the), the contracting state of the spring 57 is maintained, and the locking protrusion 55 is operated by the operation of the solenoid 54. When the spring 50 is contracted, tension is generated to push the locking door 58 from the inner side of the door accommodating part 59 to open the waste battery collection box 50 by the locking door 58. The upper part is closed to prevent the loss of the waste batteries collected in the waste battery collection box 50.

In addition, the present invention is further provided with a first drop detection sensor 76 that is electrically connected to the control unit 70, the first drop detection sensor 76 for detecting the dropping time of the waste battery in the upper side of the injection pipe 20, the injection pipe ( A second drop detection sensor 77 for detecting a drop end point of a waste battery is further connected to the control unit 70 at an inner lower side of the battery 20.

In this case, the first drop detection sensor 76 and the second drop detection sensor 77 may be made of an optical sensor.

Accordingly, it is possible to measure the acceleration according to the drop of the waste battery introduced into the input pipe 20, so that the different drop speeds can be measured according to the weight of the waste battery, which varies by type, so that the collection of waste batteries Traffic card amount or points can be converted.

In the present invention as described above has been described by the specific embodiments, such as specific components and limited embodiments and drawings, but this is provided to help a more general understanding of the present invention, the present invention is not limited to the above embodiments. For those skilled in the art, various modifications and variations are possible from these descriptions.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and all of the equivalents and equivalents of the claims, as well as the following claims, will fall within the scope of the present invention.

Claims

A housing body 10 having a storage space 12 having an open door 11 provided therein;

Input holes 21 provided on the front surface of the housing body 10 and having an inner diameter corresponding to the size of a waste battery, an input part 22 corresponding to the input holes 21, and the input part 22. An injection pipe body 20 extending from the housing body and extending in a vertical direction in the interior of the housing body 10;

Recovery plate 30 which is positioned inclined downward with respect to the input pipe 20 in the lower portion of the input pipe 20 and hinged by the first hinge pin 31, the first opening and closing sensor 32 is provided and;

The hinge is coupled to the lower portion of the input pipe 20 by a second hinge pin 41, the vertical direction of the input pipe 20, the lower end is in close contact with the end of the recovery plate 30 and the second opening and closing sensor A discharge plate 40 provided with 42;

A waste battery collecting box (50) disposed at the lower portion of the collecting plate (30) and disposed in the storage space (12) to collect the waste batteries falling upon opening of the collecting plate (30);

Is connected to the discharge plate 40 and the discharge pipe 61 for discharging the foreign matter, not the waste battery when the discharge plate 40 is opened and the discharge pipe 61 and is provided on the front of the housing body 10 A foreign substance discharge port 60 through which foreign substances discharged through the discharge pipe 61 are discharged;

A metal detection sensor (71) provided inside the input pipe (20) to detect the metal of the waste battery which is introduced from the input holes (21) and falls through the input pipe (20);

A load sensor 72 provided on the recovery plate 30 to detect a load of the waste battery dropped through the input pipe 20;

A quantity detecting unit 73 electrically connected to the load detecting sensor 72 and detecting a quantity of waste batteries introduced through the input holes 21;

A card charging terminal 74 for charging an amount or a point corresponding to the quantity of the waste batteries detected by the quantity detecting unit 73;

The first opening and closing sensor 32, the second opening and closing sensor 42, the metal detection sensor 71, the load detection sensor 72, the quantity detection unit 73, the card charging terminal 74 is electrically connected to these Control unit 70 for controlling the first opening and closing sensor 32, the second opening and closing sensor 42, the metal detection sensor 71, the load detection sensor 72, the quantity detection unit 73, the card charging terminal 74 Waste battery recovery apparatus, characterized in that provided in the.
The method of claim 1,

The card charging terminal 74,

A waste battery recovery apparatus comprising any one of a cradle type terminal for charging a card and charging an input terminal for charging a card.
The method of claim 1,

On the upper surface of the housing body 10,

A solar panel 80 is further provided to collect solar heat and convert it into electrical energy.

Waste battery recovery device characterized in that the solar cell plate 80 and the power storage portion 81 is electrically connected to each of the control unit 70 is further provided.
The method of claim 1,

An injection partition 23 corresponding to the injection holes 21 is further provided inside the injection pipe 20.

The waste battery collection box 50,

Partition walls 51 corresponding to the input partition wall 23;

The battery compartment recovery device, characterized in that the compartments are partitioned by the partition walls (51) are further provided with compartment space (52) for storing the waste batteries introduced from the input hole 21 for each type.
The method of claim 1,

The waste battery collection box 50 is further provided with a locking door body 53 to open the open door 11 and to remove the waste battery collection box 50 from the storage space 12 of the waste battery collection box 50. Waste battery recovery apparatus, characterized in that the interior is made to block from the outside.
The method of claim 5,

The open door 11 for opening and closing the storage space 12 is further provided with a door sensor 75 for detecting the opening of the open door 11,

The locking door body 53,

A solenoid 54 electrically connected to the door sensor 75;

A locking protrusion 55 operated by the solenoid 54;

A locking door (58) having a locking groove (56) on which the locking protrusion (55) is engaged and connected to a spring (57) on one side;

The spring 57 is located, and the door lock portion 59 is provided with a sliding door draw-in and out of the locking door 58, characterized in that the waste battery recovery apparatus.
The method of claim 1,

The first drop detection sensor 76 for detecting a dropping time of the waste battery is further provided on the inner upper side of the input pipe 20 in electrical connection with the controller 70.

A waste battery recovery apparatus, characterized in that the second drop detection sensor (77) for detecting the falling end of the waste battery is further connected to the control unit (70) in the lower side of the input pipe (20).