KR102488104B1 - Stack type battery - Google Patents

Abstract

The present invention relates to a battery and, more specifically, to a stack type battery in which a battery cell is formed by stacking a first electrode, a separator, and a second electrode in sequence and pressing the first electrode, the separator, and the second electrode, thereby reducing leakage current and improving the charging and discharging speed. The stack type battery according to the present invention comprises: a cell stack in which a plurality of battery cells are stacked; and a housing in which the cell stack is housed, and which has a connection terminal provided on the outer surface of the housing to be electrically connected to an electrode lead of the cell stack, wherein the battery cell is formed by stacking a first electrode, a separator, and a second electrode in sequence and pressing the first electrode, the separator, and the second electrode.

Description

Stack type battery {STACK TYPE BATTERY}

The present invention relates to a battery, and more particularly, to a stack-type battery in which leakage current is reduced and charging and discharging speed is improved by forming a battery cell by repeatedly stacking a first electrode, a slip sheet, and a second electrode in order and then compressing the battery cell. It is about.

Recently, as the demand for portable electronic devices such as laptop computers, smart phones, and tablet computers increases, research on high-performance batteries capable of repeatedly charging and discharging has been actively conducted.

In addition, batteries for storing electric power generated from self-powered facilities such as solar power generation, wind power generation, tidal power generation, and the like, and discharging the stored electric power are being actively developed.

A battery having a large charge capacity or a high discharge output generally uses a cell stack structure in which a plurality of battery cells are stacked.

Among various types of batteries, a battery cell of a capacitor type battery is composed of a first electrode plate, a second electrode plate, and a paper sheet interposed therebetween, and power is stored between the first electrode plate and the second electrode plate.

A battery cell of a capacitor-type battery according to the prior art has a significant leakage current and low efficiency due to a slow charge/discharge rate.

For reference, as prior art related to batteries, Patent Publication 10-2019-0115940 “Battery Module”, Publication Patent Publication 10-2020-0076860 “Battery Pack”, and Patent Registration 10-1118188 “High Power Super Capacitor” have been disclosed.

The present invention is an invention made to solve the problems of the battery according to the prior art, and reduces the leakage current by repeatedly stacking and compression molding the battery cell in the order of the first electrode plate, the slip sheet, and the second electrode plate, It is an object of the present invention to provide a stack type battery with improved charging and discharging speed.

In addition, it is easy to handle by using synthetic resin vinyl as an interlayer, completely blocks the penetration of dielectric materials interposed between the first electrode plate and the second electrode plate, so that leakage current does not occur, and furthermore, the stack has excellent heat resistance and low manufacturing cost. Another object is to provide a type battery.

In addition, another object is to provide a stack type battery in which the casing and cover of the housing are stably coupled with anti-loosening bolts.

A stack type battery according to the present invention for achieving the above object is

a cell laminate composed of a plurality of battery cells stacked;

A housing in which the cell stack is embedded and having a connection terminal electrically connected to an electrode lead of the cell stack on an outer surface thereof,

The battery cell is characterized in that it is formed by pressing after repeatedly stacking the first electrode plate, the slip sheet, and the second electrode plate in that order.

And the interlacing is characterized in that the polyvinyl chloride,

Characterized in that silicone is coated on the surface of the slip sheet,

The housing includes a casing containing the cell stack;

Covering the opening of the casing and including a cover provided with the connection terminal,

A screw hole is formed in the casing, a through hole and a polygonal groove having a polygonal structure having an inner diameter larger than the through hole are formed in the cover,

An anti-loosening bolt assembly is fastened to the screw hole of the casing, the through hole and the polygonal groove of the cover,

The anti-loosening bolt assembly

A pin portion passing through the through hole and screwed into the screw hole, a head portion provided behind the pin portion and having an outer diameter smaller than the inner diameter of the polygonal groove, and a tool groove formed on a rear surface of the head portion; A fixing bolt including a guide groove formed on a side surface of the head portion and a first sawtooth portion formed on an outer circumferential surface of the head portion behind the guide groove;

A body having a polygonal structure that can be fitted into the polygonal groove, an insertion hole formed inside the body and into which the head part is inserted, and formed on the inner circumferential surface of the body behind the insertion hole and engaged with the first sawtooth portion. It is composed of a second toothed portion and a fixing nut including a guide protrusion protruding inward from the front of the body and moving forward and backward along the guide groove,

After screwing the pin part of the fixing bolt into the threaded hole of the casing, if the body of the fixing nut is pushed into the polygonal groove of the cover, rotation of the body is prevented, and the first and second teeth are engaged to It is characterized in that the loosening of the fixing bolt is prevented.

The stack-type battery cell according to the present invention configured as described above is divided into several layers, power is stored in each layer, and the stored power is discharged. Leakage current is reduced and the charge and discharge rate is about 30%. There is no risk of fire or explosion due to heat generation during charging and discharging, and since synthetic resin vinyl is used for the slip sheet, it has excellent durability and is easy to handle. This product is very useful for industrial development as it prevents the risk of separation, reduces the manufacturing cost, and the casing and cover of the housing are stably coupled through anti-loosening bolts.

1 is a perspective view of a stack type battery according to the present invention;
Figure 2 is an exploded perspective view of Figure 1;
3 is an exploded perspective view of a battery cell;
4 is a view showing the structure of an anti-loosening bolt assembly;

Hereinafter, a stack type battery according to the present invention will be described in more detail with reference to the drawings.

Prior to a more detailed description of the stack-type battery according to the present invention,

Since the present invention can have various changes and various forms, the implementation examples (or embodiments) will be described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, and should be understood to include all modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

In each drawing, the same reference numeral, in particular, the same number of tens and ones digits, or the same reference numerals having the same tens digit, ones digit, and alphabet indicate members having the same or similar functions, and unless otherwise specified, each of the drawings Members indicated by reference numerals may be understood as members conforming to these standards.

In addition, the components in each drawing are expressed in exaggeratedly large (or thick) small (or thin) or simplified expressions in size or thickness in consideration of convenience of understanding, etc., but the scope of protection of the present invention is thereby limited. It shouldn't be.

Terms used in this specification are only used to describe a specific embodiment (aspect, aspect, aspect) (or embodiment), and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, terms such as ~comprising~ or ~consisting of are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

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 to which the present invention belongs. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

1 to 3, the stack-type battery according to the present invention is roughly divided into components of a cell stack 10 and a housing 20.

The cell stack 10 is formed by stacking a plurality of battery cells 11 .

The battery cell 11 is repeatedly laminated in the order of the first electrode plate 12, the slip sheet 14, and the second electrode plate 13, and is formed by pressing after the lamination.

Before stacking the first electrode plate 12 and the second electrode plate 13, a dielectric material including graphite is sprayed and applied to the surface.

The repeated stacking of the first electrode plate 12, the slip sheet 14, and the second electrode plate 13 is compressed with a pressure of about 5 atmospheric pressure, and tightly coupled to each other.

The first electrode plate 12 and the second electrode plate 13 serve as a cathode and an anode, respectively. Electrode leads 12a and 13a protrude from the first electrode plate 12 and the second electrode plate 13, and the electrode leads of the first electrode plate 12 and the second electrode plate 13 ( 12a and 13a are electrically connected to the connection terminals 30 provided on the outer surface of the housing 20, respectively.

The first electrode plate 12 and the second electrode plate 13 may be made of activated carbon, carbon, lead, aluminum, copper, gold, silver, titanium, or an alloy made of combinations thereof. In the present invention, a copper plate is used as the first electrode plate 12 and an aluminum plate is used as the second electrode plate 13.

The slip sheet 14 is disposed between the first electrode plate 12 and the second electrode plate 13 to separate and insulate them.

In the present invention, synthetic resin vinyl is used as the interleaving paper 14. Synthetic resin vinyl has no deformation or damage such as tearing or wrinkles, so it is durable and easy to handle. can save

Synthetic resin vinyl such as PE vinyl, PP vinyl, and PVC vinyl may be used as the interleaving sheet 14 . In particular, PCV (polychloride) vinyl is preferable because it is excellent in durability and insulation, and is excellent in deterioration.

As the interleaving paper 14, the surface of the synthetic resin vinyl may be coated with silicon. Silicon increases the durability and airtightness of the slip sheet 14, thereby increasing leakage current blocking efficiency.

The battery cell 11 in which the first electrode plate 12 , the slip sheet 14 , and the second electrode plate 13 are repeatedly stacked and compressed is packaged in a pouch 15 . At this time, the electrode leads 12a and 13a of the first electrode plate 12 and the second electrode plate 13 are exposed to the outside of the pouch 15 .

Battery cells 11 packaged in pouches are stacked to form a cell stack 10, and the cell stack 10 is embedded in a housing 20, and electrode leads 12a and 13a are connected to the connection terminal 30. electrically connected to

The battery cell 11 includes 35 first electrode plates 12, slip sheets 14, and 35 second electrode plates 13, respectively.

Assuming that the capacity of the battery cell is 77W, the battery cell according to the prior art is provided with a first electrode plate, a slip sheet, and a second electrode plate, so that the first electrode plate and the second electrode plate bear the entire capacity of 77W. In the present invention, since 35 first electrode plates 12, slip sheets 14, and second electrode plates 13 are provided, one first electrode plate 12 and one second electrode plate 13 generate 2.2W. bears the capacity of Due to this difference, the present invention hardly generates leakage current and improves the charge/discharge rate by about 30% compared to the prior art.

The housing 20 is composed of a casing 21 and a cover 23 covering an opening of the casing 21 .

The cell stack 10 is inserted into the opening of the casing 21, and the electrode leads 12a and 13a of the cell stack 10 electrically connect to the connection terminal 30 provided on the cover 23. , and the cover 23 is coupled to the casing 21 by being fastened with bolts.

At this time, since the bolt has a structure that cannot be tightened with a nut, the bolt is gradually loosened by an impact such as vibration continuously applied to the housing 20 .

Accordingly, in the present invention, the cover 23 is stably fixedly coupled to the casing 21 using the anti-loosening bolt assembly 100 to prevent unintentional loosening.

Referring to FIGS. 2 and 4 , a through hole 24 and polygonal polygonal grooves 25 are formed in the cover 23 , and a screw hole 22 is formed in the casing 21 .

The anti-loosening bolt assembly 100 is composed of a fixing bolt 110 and a fixing nut 120.

The fixing bolt 110 passes through the through hole 24 of the cover 18 and has a pin portion 111 screwed into the screw hole 22 of the casing 1 and a rear portion of the pin portion 111. and a head portion 112 having an outer diameter smaller than the inner diameter of the polygonal groove 25. In addition, a tool groove 113 to which a tool such as a screwdriver or a wrench is coupled is formed on the rear surface of the head portion 112, and a guide groove 114 is formed on the side surface of the head portion 112, and the guide groove ( 114), a first sawtooth portion 115 is formed on the outer circumferential surface of the side of the head portion 112.

The fixing nut 120 is formed inside the body 121 having a polygonal structure that can be fitted into the polygonal groove 25 of the cover 18 and the body 121, so that the head portion 112 is interpolated. An insertion hole 122, a second sawtooth part 125 formed on the inner circumferential surface of the body 121 to the rear of the insertion hole 122 and engaged with the first sawtooth part 115, and the body 121 It protrudes inward from the front of the ) and is disposed in the guide groove 114 to include a guide protrusion 124 capable of moving forward and backward along the guide groove 114.

The process of fastening and fixing the cover 18 of the bracket 19 to the casing 1 by the anti-loosening bolt assembly 100 configured as described above is as follows.

First, when the guide protrusion 124 is moved up and down from the guide groove 114, the first toothed portion 115 and the second toothed portion 125 are disengaged, and in this state, the fixing bolt 110 is fixed to the fixing nut 120 ), it is possible to rotate without being affected by

In a state in which the first tooth portion 115 and the second tooth portion 125 are not engaged, the pin portion 111 of the fixing bolt 110 passes through the polygonal groove 25 and the through hole 24, and the tool is inserted into the tool. Match the groove 113 and rotate the fixing bolt 110 so that the pin 111 is screwed into the screw hole 22 of the casing 90.

When the fixing nut 120 is pushed into the polygonal groove 25 after the screwing of the pin part 111 is completed, the polygonal surface of the body 121 is placed in the polygonal groove 25 so that the body 121 cannot rotate. do.

In addition, since the second sawtooth portion 125 of the fixing nut 120 and the first sawtooth portion 115 of the fixing bolt 110 are engaged, the fixing bolt 110 cannot rotate.

As such, the rotation of the fixing nut 120 is limited by the polygonal groove 25, and the rotation of the fixing bolt 110 is limited by the engagement of the first toothed portion 115 and the second toothed portion 125, so that the fixed Loosening of the bolt 110 is prevented.

When the cap 130 is coupled to the polygonal groove 25 after the fixing nut 120 is pushed into the polygonal groove 25, unintentional backward movement of the fixing nut 120 can be prevented.

When the cover 18 of the bracket 19 is separated from the casing 1, the cap 130 is separated from the polygonal groove 25, the fixing nut 120 is separated from the polygonal groove 25, and then the fixing bolt It can be easily loosened by rotating (110). In order to easily separate the cap 130 and the fixing nut 120 from the polygonal groove 25, a release groove may be formed in them to pull out after inserting a release pin.

In the above description of the present invention, the stack-type battery having a specific shape and structure has been described with reference to the accompanying drawings, but the present invention can be variously modified and changed by those skilled in the art, and these modifications and changes are protected by the present invention. should be construed as falling within the scope.

10: cell stack 11: battery cell
12: first electrode plate 13: second electrode plate
14: Kanji 15: Hauchi
20: housing 21: casing
22: screw hole 23: cover
24: through hole 25: polygonal groove
30: connection terminal
100: anti-loosening bolt assembly 110: fixing bolt
120: fixing nut 130: cap

Claims (4)

a cell laminate composed of a plurality of battery cells stacked;
A housing in which the cell stack is embedded and having a connection terminal electrically connected to an electrode lead of the cell stack on an outer surface thereof,

The battery cell is characterized in that it is formed by pressing after repeated lamination in the order of the first electrode plate, the slip sheet, and the second electrode plate,

The housing includes a casing containing the cell stack;
Covering the opening of the casing and including a cover provided with the connection terminal,

A screw hole is formed in the casing, a through hole and a polygonal groove having a polygonal structure having an inner diameter larger than the through hole are formed in the cover,
An anti-loosening bolt assembly is fastened to the screw hole of the casing, the through hole and the polygonal groove of the cover,

The anti-loosening bolt assembly
A pin portion passing through the through hole and screwed into the screw hole, a head portion provided behind the pin portion and having an outer diameter smaller than the inner diameter of the polygonal groove, and a tool groove formed on a rear surface of the head portion; A fixing bolt including a guide groove formed on a side surface of the head portion and a first sawtooth portion formed on an outer circumferential surface of the head portion behind the guide groove;
A body having a polygonal structure that can be fitted into the polygonal groove, an insertion hole formed inside the body and into which the head part is inserted, and formed on the inner circumferential surface of the body behind the insertion hole and engaged with the first sawtooth portion. It is composed of a second toothed portion and a fixing nut including a guide protrusion protruding inward from the front of the body and moving forward and backward along the guide groove,
After screwing the pin of the fixing bolt into the threaded hole of the casing, when the body of the fixing nut is pushed into the polygonal groove of the cover, rotation of the body is prevented, and the first and second teeth are engaged to A stack type battery characterized in that the loosening of the fixing bolt is prevented. According to claim 1,
The interlayer is a stack-type battery, characterized in that polyvinyl chloride. According to claim 1 or 2,
A stack-type battery, characterized in that silicon is coated on the surface of the paper sheet. delete

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