RU2139604C1 - Storage cell with maximum size exceeding 100 mm - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: according to proposed invention, cell has operating section arranged in case whose cross section has outer boundary. In at least one of cross sections, at least part of length of outer boundary of section is made in form of fragment or combination of fragment of oblique section of straight circular cone. EFFECT: provision of storage cell with maximum size exceeding 100 mm and built-in change in linear size of outer boundary in cross section of case, improved mounting and operating characteristics. 29 cl, 4 dwg

Description

 The field of technology. The invention relates to electronics, in particular to electron storage devices, which can be used in direct current and ripple current circuits, and in particular in products with limited hardware volume.

 The prior art. A known battery (USSR author's certificate N1480692, issued according to class H 01 M 10/06) containing in cross section a line of the outer border of the body in the form of a rectangle.

 The term "cross-section" should be understood as a section by a plane perpendicular to the longitudinal axis of the battery.

 The term "cross section" is used in this context throughout the description, including the claims.

The term "longitudinal axis of the battery" should be understood as a characteristic axis, passing, for example:
through the center of mass of the battery or battery housing and parallel to the axis of one of the battery terminals;
along the tangent to the generatrix of the shell (side wall) of the battery;
through geometric centers (or centers of mass) of opposite bottoms (walls).

 The term "longitudinal axis of the battery" is used in this context throughout the description.

The disadvantages of the analogue are:
firstly, the lack of structurally incorporated changes in the linear size of the outer border of the cross section of the housing, which does not allow for the maximum layout of the battery in the composition of the product with a limited volume;
secondly, when disposing of the battery, including as part of the product, a lot of work is required to deform the battery case in the transverse direction due to the large value of the moment of resistance of the section of the case to compression (deformation, destruction [1]).

The term "linear dimension" should be understood as a characteristic distance, for example, between:
opposite points of intersection of a straight line passing through the center of mass of the cross section of the battery or battery case with the line of the outer border of the case;
opposite points on the outer borders of opposite sides in the cross section of the body.

 The term "linear size" is used in this context throughout the description, including the claims.

 Also known is an alkaline nickel-iron battery (TNZH-400M-U2 manufactured by the Kursk plant "Battery"), containing in cross section a line of the outer border of the cross section of the body in the form of a rectangle.

The disadvantages of the analogue are:
firstly, the lack of structurally incorporated changes in the linear size of the outer border of the cross section of the housing, which does not allow for the maximum layout of the battery in the composition of the product with a limited volume;
secondly, when disposing of the battery, including as part of the product, a lot of work is required to deform the battery case in the transverse direction due to the large value of the moment of resistance of the section of the case to compression (deformation, destruction).

 The closest in technical essence to the prototype of the proposed device is an electric battery with a maximum size of more than one hundred millimeters, containing a line of the outer border of the cross section of the housing (6STEN-140, specifications 16-529.357-78).

The disadvantages of the prototype are:
firstly, the lack of structurally incorporated changes in the linear size of the outer border of the cross section of the housing, which does not allow for the maximum layout of the battery in the composition of the product with a limited volume;
secondly, when disposing of the battery, including as part of the product, a lot of work is required to deform the battery case in the transverse direction due to the large value of the moment of resistance of the section of the case to compression (deformation, destruction).

 In the process of disposal, operations of dividing the battery case into elements may occur, and therefore the shape of the prototype case is not optimal in terms of reducing the battery disposal work.

 SUMMARY OF THE INVENTION The objective of the invention is to provide a battery with a structurally incorporated change in the linear size of the outer border in the cross section of the housing, improved mounting and disposal properties.

 The term "recycling properties" should be understood as the structural adaptability of the battery, such as the housing, to destruction during disposal.

 The term "disposal properties" is used in this context throughout the entire description of the invention.

 The term "mounting properties" should be understood as the error-free location, reliability of fastening and increase, if necessary, the density of the layout of the battery in the circuit along with other parts.

 The term "mounting properties" is used in this context throughout the description of the invention.

 The specified technical result of the invention is achieved in that the electric battery with a maximum dimension of more than one hundred millimeters contains a line of the outer boundary of the cross section of the housing, at least one of the cross sections at least part of the boundary line of the cross section is made in the form of a fragment or combination of fragments of an oblique conical cross section circular cone.

 The term "oblique conical section" should be understood as the line formed by the surface of the straight circular cone and the secant plane that does not pass through its top, provided that the angle between the secant plane and the axis of the direct circular cone is different from the right angle [2]. The term "oblique conical section" is used in this context throughout the description and in the claims.

 At the same time, a structurally incorporated change in the linear size of the outer boundary of the cross section of the housing is ensured. When placing the battery in the product provides a more dense layout and increased reliability of fastening parts in a limited volume, error-free installation of the battery in the circuit relative to other parts. In the process of battery disposal, much less work is done to destroy the housing during compression.

 The battery can be made in cross section with a variable linear size, which will improve the layout properties and the accuracy of installation in the electrical circuit.

 The battery can be made with a linear size in the cross section, repeatedly increasing, decreasing, changing periodically, which will improve the layout properties and the accuracy of installation in the electrical circuit.

 The battery can be made with a concave or convex part of the boundary line of the cross section of the housing relative to the center of mass of the cross section, which will improve the layout properties and the accuracy of installation in the electrical circuit.

где S - площадь поперечного сечения;
X_i - расстояние от i-й элементарной массы до центра масс сечения;
ρ_i - плотность материала i-й элементарной массы;
I•ds - элементарный объем i-й массы.The term "center of mass of the section" should be understood as a point in the plane of the section relative to which the elementary masses of the section are mutually balanced, i.e. the condition of the equation is satisfied:

where S is the cross-sectional area;
X _i is the distance from the ith elementary mass to the center of mass of the section;
ρ _i is the density of the material of the i-th elementary mass;
I • ds - elementary volume of the i-th mass.

 The term "center of mass of cross section" is used in this context throughout the description and in the claims.

 The battery can be made with a stepped part of the length of the line of the boundary of the cross section of the housing, and the steps can be performed both with an increase in the linear size of the cross section when moving from one step to another, and with a decrease, which will improve the layout properties and the accuracy of installation in the electrical circuit.

 The battery can be made with at least one recess and / or one protrusion at the border of the cross section of the housing, which will improve the accuracy of installation in the composition of the product.

 The battery can be made with part of the length of the border of the cross section in the form of fragments and / or combinations of fragments: a polygon, a conical section of a straight circular cone, which will improve the layout - properties and error-free installation in the electrical circuit.

 The term "conical section" should be understood as the line that forms - the surface of a straight circular cone and the secant plane that does not pass through its top, provided that the angle between the secant plane and the axis of the direct circular cone is straight [2]. The term "conical section" is used in this context throughout the description and in the claims.

 The battery can be made with a gap in thickness in the cross section of the housing, and the gap can be multiple and periodic, which will improve the layout properties and the accuracy of installation in the electrical circuit due to the location of the current leads in the desired location on the housing.

 The battery can be made with a multilayer casing, and the casing or any of its layers has a variable thickness in cross section, which increases and decreases many times, and also changes periodically, which will improve the recycling properties of the battery.

 The battery case or any of its layers can be made of metal with a tensile strength of 80 MPa to 2050 MPa, or of composite material (fibrous materials, layered compositions, dispersion hardened materials) with a tensile strength of 10 MPa to 1800 MPa, or plastics, ceramics, cermets, glass, rubber with a tensile strength of 0.1 MPa to 2000 MPa, which will allow it to be used in various climatic conditions, as well as in aggressive environments - at elevated (lowered) temperatures.

 The battery can be made with at least one layer of insulator located between the body and the outer border of the working section, moreover, vacuum, gas, liquid, solid or rubber is used as an insulator, while the dielectric strength ranges from 1 kV / m up to 300 MV / m, which will ensure operability of the battery in a wide range of operating conditions.

 The term "working section" should be understood as the volume in which the working electronic storage element of the battery. The term "working section" is used in this context throughout the description and in the claims.

 The battery can be made with an insulator, the thickness of which in the cross section varies, repeatedly increasing and decreasing, or occupies the entire space of the section inside the housing, which will allow for increased insulation in the specified areas of the battery case.

 The battery may be configured such that the thickness of at least one of the layers has at least one or more gaps in cross section. This allows you to expand your switching capabilities.

 The battery can be made with cavities between the layers of the housing and / or insulator, which will reduce the work of destruction of the battery during disposal by weakening the adhesion between the layers.

 The analysis of the prior art showed that the claimed combination of essential features set forth in the claims is unknown. This allows us to conclude that it meets the criterion of "novelty."

 To verify the conformity of the claimed invention with the criterion of "inventive step", an additional search was carried out for known technical solutions in order to identify features that match the distinctive features of the claimed technical solution from the prototype. It is established that the claimed technical solution does not follow explicitly from the prior art. Therefore, the claimed invention meets the criterion of "inventive step".

 Information confirming the possibility of carrying out the invention. The invention and the possibility of its practical implementation is illustrated by the drawings, in which Fig. 1 shows a cross-section of the battery containing the line of the outer boundary 1, and at least part of the line of the boundary of the section is made in the form of a fragment of an oblique conical section of a straight circular cone 2.

 In FIG. 1 shows a cross section of a battery with a variable linear dimension of 3.

 The linear size is indicated by a straight line segment between opposite points 4 and 5 on the battery housing and passing through the center of mass of section 6. At the boundary of the section, recesses 10 and protrusions 11 are made.

 In FIG. 2 shows a cross section whose linear size varies, repeatedly and periodically increasing and decreasing. Part of the boundary line of the section relative to the center of mass of section 6 is concave 7 and convex 8. Part of the boundary line is made of a group containing fragments or combinations of fragments in the section: circle 12, square 13, rectangle 14, rhombus 15, trapezoid 16, triangle 17, ellipse 18.

 In FIG. 3 shows a cross section with a stepped 9 boundary line. In this case, the housing has a variable thickness, which varies, repeatedly increasing and decreasing (periodically). In the central part of the cross section, the working section 19 of the battery 23 is located. Between the boundary of the working section and the casing there is an insulator 20. The insulator has sections with a variable thickness.

 The housing and the insulator in cross section have gaps 22 for conclusions 24.

 In FIG. 4 shows a cross section of a battery in which the entire section space inside the housing is occupied by a multilayer insulator. Between the layers of the insulator, between the insulator and the housing are cavities 21.

 Thus, the use of this design of the battery will achieve the objectives of the invention ..

Literature
1. Feodosiev V.I. Strength of materials. - M .: Science. The main edition of the physical and mathematical literature, 1979, 560 p.

 2. Mathematical Encyclopedic Dictionary. - M.: Soviet Encyclopedia, 1988, 847 p.

Claims (29)

 1. An electric battery with a maximum dimension of more than one hundred millimeters, comprising a working section and a housing, the cross section of which contains an external boundary line, the cross section having a variable linear size, characterized in that at least one of the cross sections has at least part of the length the line of the outer boundary is made in the form of a fragment or combination of fragments of an oblique conical section of a straight circular cone.  2. The battery according to claim 1, characterized in that the linear size in the cross section of the latter varies, repeatedly increasing and decreasing.  3. The battery according to claim 2, characterized in that the linear size in the cross section of the latter varies repeatedly and periodically.  4. The battery according to any one of claims 1 to 3, characterized in that a part of the length of the boundary line relative to the center of mass of the section is made concave.  5. The battery according to any one of claims 1 to 4, characterized in that a part of the length of the boundary line relative to the center of mass of the section is convex.  6. The battery according to any one of paragraphs.1 to 5, characterized in that part of the length of the line of the boundary of the section is made stepwise.  7. The battery according to claim 6, characterized in that the steps can be performed both with an increase in the linear size in cross section during the transition from one step to another, and with a decrease.  8. The battery according to any one of claims 1 to 7, characterized in that a part of the length of the line of the boundary of the section is made with at least one recess.  9. The battery according to any one of claims 1 to 8, characterized in that a part of the length of the line of the boundary of the section is made with at least one protrusion.  10. The battery according to any one of claims 1 to 9, characterized in that a part of the length of the section boundary is made up of a group containing fragments and / or combinations of fragments in the section: polygon, conical section of a straight circular cone.  11. The battery according to any one of paragraphs.1 to 10, characterized in that the housing in cross section has at least one layer.  12. The battery according to claim 11, characterized in that the housing and / or at least one of its layers in cross section has a variable thickness.  13. The battery according to any one of paragraphs.11 to 12, characterized in that the thickness of the housing and / or at least one of its layers in the section varies, increasing and decreasing many times.  14. The battery according to item 13, wherein the thickness of the housing and / or at least one of the layers varies repeatedly and periodically.  15. The battery according to any one of paragraphs.11 to 14, characterized in that the thickness of the housing and / or at least one of its layers in cross section has at least one gap.  16. The battery according to clause 15, characterized in that the gaps in the thickness of the housing and / or one of its layers in section are made repeatedly.  17. The battery according to any one of paragraphs.11 to 16, characterized in that at least part of at least one layer of the housing is made of metal material with a tensile strength of 80 to 2050 MPa.  18. The battery according to any one of paragraphs.11 to 17, characterized in that at least part of at least one of the layers of the housing is made of composite material.  19. The battery according to p, characterized in that the composite material is made of fibrous materials, or layered compositions, or dispersion-hardened materials.  20. The battery according to claim 19, characterized in that the tensile strength of the composite material is 10 - 1800 MPa.  21. The battery according to any one of paragraphs.11 to 20, characterized in that at least part of at least one layer of the housing is made of plastic, or ceramic, or cermet, or glass, or glass, or rubber.  22. The battery according to item 21, characterized in that the tensile strength of the material of the shell layer is 0.1 - 2000 MPa.  23. The battery according to any one of paragraphs.11 to 22, characterized in that between the outer boundary of the working section and the housing is at least one layer of insulator.  24. The battery according to item 23, wherein the vacuum, or gas, or liquid, or solid, or rubber is used as at least part of the insulator layer.  25. The battery according to paragraph 24, wherein the dielectric strength of 1 kV / m is 300 MV / m.  26. The battery according to any one of paragraphs.23 to 25, characterized in that the thickness of at least one layer of insulator in the section varies, repeatedly increasing and decreasing and / or occupies the entire space of the section inside the housing.  27. The battery according to any one of paragraphs.23 to 26, characterized in that the thickness of at least one of the layers of the insulator has at least one gap in cross section.  28. The battery according to item 27, wherein the tears in the thickness of at least one of the layers of the insulator in the section made repeatedly.  29. The battery according to any one of paragraphs.11-18, 21, 23 and 26-28, characterized in that at least one cavity is made in the section at the interface between the layers of the housing and / or layers of the insulator and / or the housing and the insulator.

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