CN212625664U - Lead-carbon battery graphene carbon plastic framework reinforced carbon grid - Google Patents
Lead-carbon battery graphene carbon plastic framework reinforced carbon grid Download PDFInfo
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- CN212625664U CN212625664U CN202021162704.6U CN202021162704U CN212625664U CN 212625664 U CN212625664 U CN 212625664U CN 202021162704 U CN202021162704 U CN 202021162704U CN 212625664 U CN212625664 U CN 212625664U
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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Abstract
The utility model belongs to the technical field of the battery grid technique and specifically relates to a skeleton reinforcing type carbon grid is moulded to lead carbon battery graphite alkene carbon, including the frame, a plurality of horizontal rib of fixedly connected with in the frame, the both ends bottom of every horizontal rib all is connected with the supporting shoe, and the frame is all connected to the bottom of every supporting shoe, and a plurality of vertical rib of fixedly connected with in the frame, every horizontal rib all are connected with the ring muscle with the junction of vertical rib, and the outside of frame is seted up flutedly, and the recess in-connection has the alloy strip, and the draw-in groove has been seted up in the outside of alloy strip, and the joint has protection machanism on the draw-. The utility model discloses a joint strength between horizontal rib and the frame is strengthened to the supporting shoe for horizontal rib is difficult to take place to break away from with the frame, and the intensity of horizontal rib and perpendicular rib junction is strengthened to the ring muscle, when receiving outside vibrations, strengthens the difficult emergence fracture of the junction of horizontal rib and perpendicular rib, strengthens the intensity of grid, and protection machanism protects the frame simultaneously, and the difficult emergence fracture of carbon grid.
Description
Technical Field
The utility model relates to a battery grid technical field especially relates to a skeleton reinforcing type carbon grid is moulded to lead carbon battery graphite alkene carbon.
Background
The lead-carbon battery is a capacitive lead-acid battery, is a technology evolved from the traditional lead-acid battery, and is characterized in that activated carbon is added into the negative electrode of the lead-acid battery, so that the service life of the lead-acid battery can be obviously prolonged. The grid of the storage battery is made by pouring grid materials into the grid mold, the lead-carbon battery needs the carbon skeleton carbon grid, the strength of the carbon skeleton carbon grid is weak, the carbon skeleton carbon grid is easy to break in the use process of the battery, and the service life of the carbon skeleton carbon grid is shortened.
SUMMERY OF THE UTILITY MODEL
The utility model aims at solving the problem that the strength of the carbon skeleton carbon grid is weaker and the defect of easy breakage occurs in the prior art, and providing a lead-carbon battery graphene carbon plastic skeleton reinforced carbon grid.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
the utility model provides a skeleton reinforcing type carbon grid is moulded to lead carbon battery graphite alkene carbon, includes the frame, the upper end fixedly connected with electrode end of frame, fixedly connected with a plurality of horizontal rib in the frame, every the both ends bottom of horizontal rib all is connected with the supporting shoe, every the bottom of supporting shoe all is connected the frame, fixedly connected with a plurality of in the frame erects the rib, every the horizontal rib all passes erect the rib, every the horizontal rib with erect the junction of rib and all be connected with the ring muscle, the outside of frame is seted up flutedly, the recess in-connection has the alloy strip, the draw-in groove has been seted up in the outside of alloy strip, the joint has protection mechanism on the draw-in groove, protection mechanism with the frame cooperatees.
Preferably, the two sides of the electrode end are both connected with connecting blocks, and one side of each connecting block is connected with the frame.
Preferably, the frame, the transverse ribs and the vertical ribs are of an integral structure.
Preferably, the transverse ribs and the vertical ribs are perpendicular to each other.
Preferably, each vertical rib is connected with a reinforcing rib.
Preferably, the protection mechanism comprises a protective shell, the protective shell is sleeved on the frame, the frame is matched with the protective shell, a clamping block is fixedly connected to the protective shell, and the clamping block is clamped with the clamping groove.
The utility model provides a pair of skeleton reinforcing type carbon grid is moulded to lead carbon battery graphite alkene carbon, beneficial effect lies in:
the joint strength between horizontal rib and the frame is strengthened through the supporting shoe for horizontal rib is difficult to take place to break away from with the frame, and the intensity of horizontal rib and perpendicular rib junction is strengthened to the ring muscle, when receiving outside vibrations, strengthens the difficult emergence fracture of the junction of horizontal rib and perpendicular rib, strengthens the intensity of grid, and protection machanism protects the frame simultaneously, strengthens the intensity of carbon grid, and the difficult emergence fracture of carbon grid.
Drawings
Fig. 1 is a schematic structural diagram of a graphene carbon-plastic skeleton reinforced carbon grid for a lead-carbon battery according to the present invention;
fig. 2 is a schematic structural diagram of a middle frame of a lead-carbon battery graphene carbon-plastic skeleton reinforced carbon grid provided by the utility model;
fig. 3 is the utility model provides a structural schematic diagram of protection mechanism in lead carbon battery graphite alkene carbon plastic skeleton reinforcing type carbon grid.
In the figure: frame 1, electrode end 2, connecting block 3, horizontal rib 4, supporting shoe 5, perpendicular rib 6, strengthening rib 7, ring muscle 8, recess 9, alloy strip 10, draw-in groove 11, protective housing 12, fixture block 13.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.
Example 1
Referring to fig. 1-3, a skeleton reinforcing type carbon grid is moulded to lead carbon battery graphite alkene carbon, including frame 1, the upper end fixedly connected with electrode terminal 2 of frame 1, fixedly connected with a plurality of horizontal rib 4 in the frame 1, the both ends bottom of every horizontal rib 4 all is connected with supporting shoe 5, the effect of supporting shoe 5 is the joint strength who strengthens between horizontal rib 4 and frame 1 for horizontal rib 4 is difficult to break away from with frame 1 emergence, frame 1 is all connected to the bottom of every supporting shoe 5.
A plurality of vertical ribs 6 are fixedly connected in the frame 1, each transverse rib 4 passes through the vertical rib 6, the transverse ribs 4 are vertical to the vertical ribs 6, the frame 1, the transverse ribs 4 and the vertical ribs 6 are of an integral structure, the joint of each transverse rib 4 and the vertical rib 6 is connected with a circular rib 8, the circular rib 8 is used for enhancing the strength of the joint of the transverse ribs 4 and the vertical ribs 6, when receiving outside vibrations, strengthen the difficult emergence fracture of the junction of horizontal rib 4 and perpendicular rib 6, the intensity of reinforcing grid, recess 9 has been seted up in the outside of frame 1, recess 9's effect is installation alloy strip 10, the in-connection of recess 9 has alloy strip 10, draw-in groove 11 has been seted up in the outside of alloy strip 10, the effect of draw-in groove 11 is connection protection mechanism, the joint has protection mechanism on draw-in groove 11, protection mechanism's effect is protection frame 1, the intensity of reinforcing grid, protection mechanism cooperatees with frame 1.
Example 2
Referring to fig. 1-3, as another preferred embodiment of the present invention, the difference with embodiment 1 lies in that the protection mechanism includes a protection shell 12, the protection shell 12 is sleeved on the frame 1, the frame 1 is matched with the protection shell 12, the protection shell 12 is fixedly connected with a clamping block 13, the clamping block 13 is clamped into a clamping groove 11, the protection shell 12 is fixed, and the protection shell 12 protects the frame 1, so that the frame 1 is not easy to break.
Example 3
Referring to fig. 1 to 3, both sides of the electrode terminal 2 are connected with the connection blocks 3 on the basis of embodiment 1, the connection blocks 3 are used for enhancing the connection strength between the electrode terminal 2 and the frame 1, one side of each connection block 3 is connected with the frame 1, each vertical rib 6 is connected with the reinforcing rib 7, and the reinforcing ribs 7 are used for enhancing the hardness of the vertical ribs 6.
The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.
Claims (6)
1. The graphene carbon plastic skeleton reinforced carbon grid for the lead-carbon battery comprises a frame (1) and is characterized in that an electrode end (2) is fixedly connected to the upper end of the frame (1), a plurality of transverse ribs (4) are fixedly connected in the frame (1), supporting blocks (5) are connected to the bottoms of the two ends of each transverse rib (4), the bottom end of each supporting block (5) is connected with the frame (1), a plurality of vertical ribs (6) are fixedly connected in the frame (1), each transverse rib (4) penetrates through each vertical rib (6), a circular ring rib (8) is connected to the joint of each transverse rib (4) and each vertical rib (6), a groove (9) is formed in the outer side of the frame (1), an alloy strip (10) is connected in the groove (9), and a clamping groove (11) is formed in the outer side of the alloy strip (10), the clamping groove (11) is connected with a protection mechanism in a clamping mode, and the protection mechanism is matched with the frame (1).
2. The graphene carbon-plastic framework reinforced carbon grid for the lead-carbon battery according to claim 1, wherein connecting blocks (3) are connected to two sides of the electrode end (2), and one side of each connecting block (3) is connected with the frame (1).
3. The graphene carbon-plastic framework reinforced carbon grid for the lead-carbon battery according to claim 1, wherein the frame (1), the transverse ribs (4) and the vertical ribs (6) are of an integral structure.
4. The graphene carbon-plastic framework reinforced carbon grid for the lead-carbon battery according to claim 1, wherein the transverse ribs (4) and the vertical ribs (6) are perpendicular to each other.
5. The graphene carbon-plastic framework reinforced carbon grid for the lead-carbon battery according to claim 1, wherein each vertical rib (6) is connected with a reinforcing rib (7).
6. The graphene carbon-plastic skeleton reinforced carbon grid for the lead-carbon battery according to claim 1, wherein the protection mechanism comprises a protective shell (12), the protective shell (12) is sleeved on the frame (1), the frame (1) is matched with the protective shell (12), a clamping block (13) is fixedly connected to the protective shell (12), and the clamping block (13) is clamped with the clamping groove (11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202021162704.6U CN212625664U (en) | 2020-06-22 | 2020-06-22 | Lead-carbon battery graphene carbon plastic framework reinforced carbon grid |
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CN202021162704.6U CN212625664U (en) | 2020-06-22 | 2020-06-22 | Lead-carbon battery graphene carbon plastic framework reinforced carbon grid |
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CN212625664U true CN212625664U (en) | 2021-02-26 |
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CN202021162704.6U Active CN212625664U (en) | 2020-06-22 | 2020-06-22 | Lead-carbon battery graphene carbon plastic framework reinforced carbon grid |
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2020
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