CN208522028U - A kind of stainless (steel) wire of novel lithium-manganese cell - Google Patents

Abstract

The utility model discloses a kind of stainless (steel) wires of novel lithium-manganese cell, including molding assembly, connection component and anti-oxidant component, the molding assembly includes shaping frame, anti oxidation layer, attachment base ear, fixed ring and connecting rod, the outer wall of the shaping frame has the anti oxidation layer, the upper and lower ends of the shaping frame are connected with the attachment base ear, and the inner wall of the shaping frame is further fixed on the connecting rod；Embedded with oxidation silk on the steel mesh silk of stainless (steel) wire, and steel mesh silk junction is provided with oxidation ring, it can make to aoxidize silk and aoxidize ring to react with electrolyte generation displacement by the activity of metal, the decomposition rate of stainless (steel) wire can not only be delayed, also ensure the current carrying capacities of stainless (steel) wire, increase the power output ability of battery and the utilization efficiency of energy, and shaping frame is provided on the outside of stainless (steel) wire, good support is played to stainless (steel) wire, is conducive to positioning and connection to stainless (steel) wire.

Description

A kind of stainless (steel) wire of novel lithium-manganese cell

Technical field

The utility model belongs to lithium-manganese cell technical field, more specifically more particularly to a kind of novel lithium-manganese cell Stainless (steel) wire.

Background technique

Lithium-manganese cell: full name lithium-manganese dioxide battery, in primary battery, using lithium metal as anode manganese dioxide as Cathode, in primary battery, anode is cathode, and electronics flows to anode by cathode, and electric current flows to cathode by anode；In electrolytic cell middle-jiao yang, function of the spleen and stomach Pole is connected with anode, and oxidation reaction occurs on anode is the anion in solution, lithium-manganese dioxide corresponding with cathode Battery is negative using the manganese dioxide by special process processing as positive active material with the lithium metal of high potential, high-energy-density Pole active material, electrolyte use the good organic electrolyte solution of electric conductivity, and battery structure has hermetically sealed and semitight two Kind composition form.

The electric current transmission between positive and negative anodes is realized by collection power grid in original lithium-manganese cell, but contains battery in electrolyte The negative oxygen ion generated is reacted, there is oxidisability, is easy to generate corrosion to collection power grid, collection power grid is will lead to after long-time use and becomes Carefully, the transmission resistance for increasing collection power grid, increases the internal resistance of battery, influences the power output ability of battery, also result in electricity Pond fever influences battery use.

Utility model content

The purpose of this utility model is to provide a kind of stainless (steel) wires of novel lithium-manganese cell, to solve above-mentioned background technique It is middle to propose to realize the electric current transmission between positive and negative anodes by collection power grid in original lithium-manganese cell, but it is anti-to contain battery in electrolyte The negative oxygen ion that should be generated has oxidisability, is easy to generate corrosion to collection power grid, will lead to collection power grid after long-time use and becomes Carefully, the transmission resistance for increasing collection power grid, increases the internal resistance of battery, influences the power output ability of battery, also result in electricity Pond fever, influences the problem of battery uses.

To achieve the above object, the utility model provides the following technical solutions: a kind of stainless (steel) wire of novel lithium-manganese cell, Including molding assembly, connection component and anti-oxidant component, the molding assembly include shaping frame, anti oxidation layer, attachment base ear, Fixed ring and connecting rod, the outer wall of the shaping frame have the anti oxidation layer, and the upper and lower ends of the shaping frame connect There is the attachment base ear, the inner wall of the shaping frame is further fixed on the connecting rod, and the other end of the connecting rod is connected with The fixed ring, the connection component include stainless (steel) wire and connection frame, and the stainless (steel) wire is fixed on the shaping frame The inside of frame is fixed with the connection frame on the outside of the stainless (steel) wire, and the connection frame is fixed on the molding The inner wall of frame, the stainless (steel) wire include the first steel mesh silk, the second steel mesh silk and steel mesh silk attachment base, the first steel mesh silk The outer wall of the steel mesh silk attachment base is each attached to the second steel mesh silk, the anti-oxidant component includes oxidation silk and oxidation Ring, the oxidation silk are embedded in the outer wall of the first steel mesh silk and the second steel mesh silk, and the oxidation ring is embedded in the steel mesh The outer wall of silk attachment base.

Preferably, the connecting rod quantity is 12, and connecting rod described in six of them is distributed in the stainless (steel) wire Side, and it is fixed on the inner wall of the shaping frame, in addition six connecting rods are located at the other side of the stainless (steel) wire, and It is fixed on the inner wall of the shaping frame.

Preferably, the quantity of the attachment base ear is four, and is located at the upper and lower ends of the shaping frame, the antioxygen Changing layer is fine and close alumina layer.

Preferably, the first steel mesh silk and the second steel mesh silk are in flat, the first steel mesh silk and described Second steel mesh silk assumes diamond in shape distribution, the first steel mesh silk and the second steel mesh silk and steel mesh silk attachment base one at Type has smooth fillet between the first steel mesh silk and the second steel mesh silk and the steel mesh silk attachment base.

Preferably, the oxidation silk and the oxidation ring material are zinc.

Compared with prior art, the utility model has the beneficial effects that oxidation silk is embedded on the steel mesh silk of stainless (steel) wire, And steel mesh silk junction is provided with oxidation ring, it can make to aoxidize silk and aoxidize ring to set with electrolyte by the activity of metal Reaction is changed, the decomposition rate of stainless (steel) wire can be not only delayed, also ensures the current carrying capacities of stainless (steel) wire, increases battery Power output ability and energy utilization efficiency, and shaping frame is provided on the outside of stainless (steel) wire, to stainless (steel) wire Good support is played, positioning and connection to stainless (steel) wire are conducive to.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the A structural schematic diagram of the utility model；

Fig. 3 is the first steel mesh silk structural schematic diagram of the utility model；

In figure: 10, molding assembly；11, shaping frame；12, anti oxidation layer；13, attachment base ear；14, fixed ring；15, even Extension bar；20, connection component；21, stainless (steel) wire；211, the first steel mesh silk；212, the second steel mesh silk；213, steel mesh silk attachment base； 22, frame is connected；30, anti-oxidant component；31, silk is aoxidized；32, ring is aoxidized.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

Embodiment:

Fig. 1-3 is please referred to, the utility model provides a kind of technical solution: a kind of stainless (steel) wire of novel lithium-manganese cell, packet Molding assembly 10, connection component 20 and anti-oxidant component 30 are included, molding assembly 10 includes shaping frame 11, anti oxidation layer 12, connects Joint chair ear 13, fixed ring 14 and connecting rod 15, the outer wall of shaping frame 11 have an anti oxidation layer 12, and up and down the two of shaping frame 11 End is connected with attachment base ear 13, and the inner wall of shaping frame 11 is further fixed on connecting rod 15, and the other end of connecting rod 15 is connected with solid Determine ring 14, connection component 20 includes stainless (steel) wire 21 and connection frame 22, and stainless (steel) wire 21 is fixed on the interior of shaping frame 11 Side, the outside of stainless (steel) wire 21 are fixed with connection frame 22, and connection frame 22 is fixed on the inner wall of shaping frame 11, stainless Steel mesh 21 includes the first steel mesh silk 211, the second steel mesh silk 212 and steel mesh silk attachment base 213, the first steel mesh silk 211 and the second steel Twine 212 is each attached to the outer wall of steel mesh silk attachment base 213, and anti-oxidant component 30 includes oxidation silk 31 and oxidation ring 32, oxidation Silk 31 is embedded in the outer wall of the first steel mesh silk 211 and the second steel mesh silk 212, and oxidation ring 32 is embedded in the outer wall of steel mesh silk attachment base 213.

Specifically, 15 quantity of connecting rod is 12, six of them connecting rod 15 is distributed in the side of stainless (steel) wire 21, and It is fixed on the inner wall of shaping frame 11, in addition six connecting rods 15 are located at the other side of stainless (steel) wire 21, and are fixed on shaping frame The inner wall of frame 11.

In the present embodiment, 15 quantity of connecting rod is 12, and six of them connecting rod 15 is distributed in the one of shaping frame 11 Side, and it is fixed on the inner wall of shaping frame 11, in addition six connecting rods 15 are located at the other side of stainless (steel) wire 21, and are fixed on into The inner wall of type frame 11 can play the role of support and reinforcing to shaping frame 11 and connecting rod 15, to increase stainless steel The connection effect of net 21.

Specifically, the quantity of attachment base ear 13 is four, and it is located at the upper and lower ends of shaping frame 11, anti oxidation layer 12 is Fine and close alumina layer.

In the present embodiment, the quantity of attachment base ear 13 is four, and is located at the upper and lower ends of shaping frame 11, is conveniently passed through Attachment base ear 13 is attached shaping frame 11 with battery, facilitates being connected and fixed for steel mesh, and anti oxidation layer 12 is fine and close oxygen Change aluminium layer, anti-oxidation protection can be carried out to shaping frame 11, and there is good conductive capability.

Specifically, the first steel mesh silk 211 and the second steel mesh silk 212 are in flat, the first steel mesh silk 211 and the second steel mesh Silk 212 assumes diamond in shape distribution, the first steel mesh silk 211 and the second steel mesh silk 212 and the integrated molding of steel mesh silk attachment base 213, the first steel There is smooth fillet between twine 211 and the second steel mesh silk 212 and steel mesh silk attachment base 213.

In the present embodiment, the first steel mesh silk 211 and the second steel mesh silk 212 are in flat, the first steel mesh silk 211 and second Steel mesh silk 212 assumes diamond in shape distribution, can form good conductive structure, reduces transmission resistance, the first steel mesh silk 211 and the second steel Twine 212 and the integrated molding of steel mesh silk attachment base 213, the first steel mesh silk 211 and the second steel mesh silk 212 and steel mesh silk attachment base There is smooth fillet between 213, reduce the yield of metal burr, decrease the bond area of electrolyte, it is general to reduce corrosion Rate, and increase whole current passing rate.

Specifically, oxidation silk 31 and oxidation 32 material of ring are zinc.

In the present embodiment, oxidation silk 31 and oxidation 32 material of ring are zinc, can be by the activity of metal to stainless (steel) wire 21 form protection, can be preferentially electrolysed when being corroded, and there may be oxidation films to the progress antioxygen of stainless (steel) wire 21 Change protection.

The working principle and process for using of the utility model: after the utility model installs, pass through stainless (steel) wire 21 Silk 31 is aoxidized embedded with zinc silk on first steel mesh silk 211 and the second steel mesh silk 212, and by connecting in steel mesh silk junction steel mesh silk The oxidation ring 32 of zinc matter on seat 213 can make to aoxidize silk and oxidation ring and electrolyte generation displacement is anti-by the activity of metal It answers, so that the oxidation silk 31 of zinc matter and oxidation ring 32 is preferentially reacted with electrolyte, can not only delay the decomposition of stainless (steel) wire Speed also ensures the current carrying capacities of stainless (steel) wire, increases the power output ability of battery and the utilization efficiency of energy, and And the shaping frame 11 in the outside by stainless (steel) wire 21, good support is played to stainless (steel) wire 21, and pass through shaping frame The attachment base ear 13 in 11 outsides is conducive to positioning and connection to stainless (steel) wire.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of stainless (steel) wire of novel lithium-manganese cell, it is characterised in that: including molding assembly (10), connection component (20) and resist Oxidation module (30), the molding assembly (10) include shaping frame (11), anti oxidation layer (12), attachment base ear (13), fix The outer wall of ring (14) and connecting rod (15), the shaping frame (11) has the anti oxidation layer (12), the shaping frame (11) upper and lower ends are connected with the attachment base ear (13), and the inner wall of the shaping frame (11) is further fixed on the connecting rod (15), the other end of the connecting rod (15) is connected with the fixed ring (14), and the connection component (20) includes stainless (steel) wire (21) and connection frame (22), the stainless (steel) wire (21) are fixed on the inside of the shaping frame (11), the stainless steel The connection frame (22) is fixed on the outside of net (21), the connection frame (22) is fixed on the shaping frame (11) Inner wall, the stainless (steel) wire (21) include the first steel mesh silk (211), the second steel mesh silk (212) and steel mesh silk attachment base (213), the first steel mesh silk (211) and the second steel mesh silk (212) are each attached to the steel mesh silk attachment base (213) Outer wall, the anti-oxidant component (30) include oxidation silk (31) and oxidation ring (32), and the oxidation silk (31) is embedded in described first The outer wall of steel mesh silk (211) and the second steel mesh silk (212), the oxidation ring (32) are embedded in the steel mesh silk attachment base (213) outer wall.

2. a kind of stainless (steel) wire of novel lithium-manganese cell according to claim 1, it is characterised in that: the connecting rod (15) Quantity is 12, and connecting rod described in six of them (15) is distributed in the side of the stainless (steel) wire (21), and is fixed on described The inner wall of shaping frame (11), in addition six connecting rods (15) are located at the other side of the stainless (steel) wire (21), and fixed Inner wall in the shaping frame (11).

3. a kind of stainless (steel) wire of novel lithium-manganese cell according to claim 1, it is characterised in that: the attachment base ear (13) quantity is four, and is located at the upper and lower ends of the shaping frame (11), and the anti oxidation layer (12) is fine and close oxygen Change aluminium layer.

4. a kind of stainless (steel) wire of novel lithium-manganese cell according to claim 1, it is characterised in that: the first steel mesh silk (211) and the second steel mesh silk (212) is in flat, the first steel mesh silk (211) and the second steel mesh silk (212) Assume diamond in shape distribution, the first steel mesh silk (211) and the second steel mesh silk (212) and the steel mesh silk attachment base (213) one It is body formed, have between the first steel mesh silk (211) and the second steel mesh silk (212) and the steel mesh silk attachment base (213) There is smooth fillet.

5. a kind of stainless (steel) wire of novel lithium-manganese cell according to claim 1, it is characterised in that: the oxidation silk (31) It is zinc with oxidation ring (32) material.