CN111463378B

CN111463378B - High-efficient heat dissipation battery installation casing

Info

Publication number: CN111463378B
Application number: CN202010213759.3A
Authority: CN
Inventors: 汤春宝
Original assignee: Yangzhou Yiyang New Energy Technology Co ltd
Current assignee: Jiangsu Xinyou Investment Development Group Co ltd
Priority date: 2020-03-24
Filing date: 2020-03-24
Publication date: 2022-06-28
Anticipated expiration: 2040-03-24
Also published as: CN111463378A

Abstract

The invention discloses a high-efficiency heat-dissipation storage battery installation shell which comprises a cylindrical part and a movable frame, wherein a top ring, a bottom ring and a middle ring are fixed at the cylindrical part, the bottom ring is provided with a lower through hole and a plurality of bottom threaded holes, the lower through hole is communicated with one of the bottom threaded holes, the top ring is provided with an upper through hole and a plurality of top threaded holes, the upper through hole is communicated with one of the top threaded holes, and the middle ring is provided with a plurality of middle through holes; the movable frame comprises a movable ring surrounding the cylindrical part, the movable ring is provided with an air hole, a support rod connected with the movable ring is fixed below the movable ring, an insert rod connected with the movable ring is arranged above the movable ring, and the insert rod is inserted into the upper through hole; the cylindrical portion also has a fixed heat-conducting block and a bottom mounting bracket therein. The mounting shell is suitable for mounting the street lamp storage battery, and has good moisture-proof and heat-dissipating effects.

Description

High-efficient heat dissipation battery installation casing

Technical Field

The invention relates to the field of storage batteries, in particular to a high-efficiency heat-dissipation storage battery mounting shell.

Background

The device for converting chemical energy into electric energy is called a chemical battery, generally called a battery for short. After discharge, the internal active material can be regenerated by charging-electrical energy is stored as chemical energy; chemical energy is converted into electrical energy again when electrical discharge is required. Such batteries are called Storage batteries (batteries), also called secondary batteries. A storage battery is an electrochemical device that stores chemical energy and emits electrical energy when necessary. The battery is in each field, and the application is extensive to along with the progress of solar energy technique, more and more street lamps begin to use solar energy power generation, battery energy storage, and consequently the battery is also more and more extensive in the application in street lamp field, because the installation of battery is not considered in traditional lamp pole, therefore the installation of the battery of street lamp is a problem, because will compromise a plurality of problems such as heat dissipation, theftproof, dampproofing, the current mounting means is many all not ideal enough.

Disclosure of Invention

The invention aims to: the invention aims to overcome the defects of the prior art and provides a high-efficiency heat-dissipation storage battery mounting shell.

The technical scheme is as follows: a high-efficiency heat-dissipation storage battery installation shell comprises a cylindrical part and a movable frame, wherein a top ring, a bottom ring and a middle ring are fixed at the cylindrical part, the top ring is fixed at the top of the cylindrical part, the bottom ring is fixed at the bottom of the cylindrical part, the middle ring is positioned between the top ring and the bottom ring, a lower through hole and a plurality of bottom threaded holes are formed at the bottom ring, the lower through hole is communicated with one of the bottom threaded holes, the top ring is provided with an upper through hole and a plurality of top threaded holes, the upper through hole is communicated with one of the top threaded holes, and a plurality of middle through holes are formed at the middle ring; the movable frame comprises a movable ring surrounding the cylindrical part, the movable ring is provided with an air hole, a support rod connected with the movable ring is fixed below the movable ring, an insert rod connected with the movable ring is arranged above the movable ring, and the insert rod is inserted into the upper through hole; the cylindrical portion also has a fixed heat-conducting block and a bottom mounting bracket therein.

Furthermore, a bottom sealing ring is fixed to the outer circumference of the bottom ring, a top sealing ring is fixed to the outer circumference of the top ring, and a middle sealing ring is fixed to the outer circumference of the middle ring.

Further, the bottom threaded holes are two, the axes of the two bottom threaded holes are collinear, the top threaded holes are two, and the axes of the two top threaded holes are collinear.

Furthermore, the number of the middle through holes is more than or equal to 6, and the middle through holes are distributed in a circular ring shape at equal intervals.

Furthermore, the number of the support rods is 4, and the support rods are distributed in a circular ring shape at equal intervals; the length of 4 supporting rods is equal.

Thereby the support is more stable.

Furthermore, the inserted bar includes the first inserted bar of being connected with the activity ring, the second inserted bar of being connected with the first inserted bar and being connected the inserted bar with being connected the inserted bar, first inserted bar and second inserted bar are cylindrical, it is frustum shape to connect the inserted bar.

Further, when the support rod abuts against the middle ring, the second inserted rod is inserted into the upper through hole; the inner diameter of the movable ring is equal to the outer diameter of the cylindrical part; when the movable ring abuts against the top circular ring, the first inserting rod is inserted into the upper through hole.

Further, the bottom mounting rack comprises 6 fixing rods distributed in a radial manner; all there is 4 fixed heat conduction pieces, and be the ring form equidistant distribution, fixed heat conduction piece include with the cambered surface of barrel portion butt and with cambered surface connection's plane.

Preferably, the heat conduction block can be a metal heat conduction block or a heat conduction pad.

Further, the diameter of the air holes is smaller than 1 mm.

Further, lower through-hole and last through-hole are the cylinder, the diameter of first inserted bar equals the diameter of last through-hole.

So that gas can permeate through the heat conducting glue but not permeate through the heat conducting glue.

Further, the distance from the middle ring to the top ring is equal to the distance from the middle ring to the bottom ring.

Has the advantages that: the storage battery mounting shell can be used for mounting the storage battery, has good hiding property and thermal conductivity, and is particularly suitable for being used for street lamps.

Drawings

FIG. 1 is a schematic view of a housing mounted within a light pole;

FIG. 2 is a schematic view of the housing separated from the light pole;

FIG. 3 is a schematic view of the housing;

FIG. 4 is another angle view of FIG. 3;

FIG. 5 is a schematic view of the movable ring abutting the top ring.

Detailed Description

Reference numerals: 10 lamp pole; 10.1 lower fixing holes; 10.2, fixing holes are formed; 20 a housing; 1 a cylindrical part; 1.1 fixing the heat-conducting block; 1.2 bottom mounting rack; 2, a bottom ring; 2.1 lower threaded hole; 2.2 lower through holes; 2.3 bottom sealing ring; 3, a middle circular ring; 3.1 middle through hole; 3.2 middle sealing ring; 4, a top ring; 4.1, screwing a hole; 4.2, through holes are formed; 4.3 top sealing ring; 5, a movable ring; 5.1, air holes; 5.2 supporting rods; 5.3.1 first inserted link; 5.3.2 connecting the inserted bar; 5.3.3 second plunger.

As shown in fig. 1-5: a high-efficiency heat-dissipation storage battery installation shell comprises a cylindrical part 1 and a movable frame, wherein a top ring 4, a bottom ring 2 and a middle ring 3 are fixed at the cylindrical part 1, the top ring 4 is fixed at the top of the cylindrical part 1, the bottom ring 2 is fixed at the bottom of the cylindrical part 1, the middle ring 3 is positioned between the top ring 4 and the bottom ring 2, the bottom ring 2 is provided with a lower through hole 2.1 and a plurality of bottom threaded holes 2.1, the lower through hole 2.2 is communicated with one of the bottom threaded holes 2.1, the top ring 4 is provided with an upper through hole 4.2 and a plurality of top threaded holes 4.1, the upper through hole 4.2 is communicated with one of the top threaded holes 4.1, and the middle ring 3 is provided with a plurality of middle through holes 3.1; the movable frame comprises a movable ring 5 surrounding the cylindrical part, the movable ring 5 is provided with an air hole 5.1, a support rod 5.2 connected with the movable ring 5 is fixed below the movable ring 5, an insert rod connected with the movable ring 5 is arranged above the movable ring 5, and the insert rod is inserted into the upper through hole 4.2; the cylindrical part 1 also has a fixed heat-conducting block 1.1 and a bottom mounting frame 1.2.

A bottom sealing ring 2.3 is fixed at the outer circumference of the bottom ring 2, a top sealing ring 4.3 is fixed at the outer circumference of the top ring 4, and a middle sealing ring 3.2 is fixed at the outer circumference of the middle ring 3. The bottom threaded holes 2.1 are two, the axes of the two bottom threaded holes 2.1 are collinear, the top threaded holes 4.1 are two, and the axes of the two top threaded holes 4.1 are collinear. The number of the middle through holes 3.1 is more than or equal to 6, and the middle through holes are distributed in a circular ring shape at equal intervals. The number of the support rods 5.2 is 4, and the support rods are distributed in a circular ring shape at equal intervals; the 4 support bars 5.2 are equal in length. The inserted bar includes the first inserted bar 5.3.1 of being connected with the activity ring, the second inserted bar 5.3.3 that is connected inserted bar 5.3.2 and is connected inserted bar 5.3.2 with being connected inserted bar 5.3.1 and be connected, first inserted bar 5.3.1 and second inserted bar 5.3.3 are cylindrical, it is frustum shape to connect inserted bar 5.3.2. When the support rod abuts against the middle circular ring, the second insertion rod is inserted into the upper through hole; the inner diameter of the movable ring is equal to the outer diameter of the cylindrical part; when the movable ring abuts against the top circular ring, the first inserting rod is inserted into the upper through hole. The bottom mounting rack 1.2 comprises 6 fixing rods distributed in a radial shape; fixed heat conduction piece 1.1 all has 4, and is the equidistant distribution of ring form, fixed heat conduction piece 1.1 include with the cambered surface of cylindric portion butt and with the plane of cambered surface connection. The diameter of the air holes 5.1 is less than 1 mm.

According to the storage battery mounting shell disclosed by the invention, as shown in the figure, when the storage battery mounting shell is mounted, the storage battery body is fixedly mounted on the bottom mounting frame, and the side wall of the storage battery is abutted against the 4 fixed heat-conducting blocks; the shell is sent into a lamp pole, the lamp pole suitable for installation is a cylindrical lamp pole, and the inner side wall and the top sealing ring, the middle sealing ring and the bottom sealing ring of the lamp pole can be sealed in a sliding mode; when the lamp is installed, the shell is inserted into the lamp post (the shell can be inserted from the bottom of the lamp post, and other insertion modes can be provided according to the type of the lamp post); fixing a lower fixing hole and a bottom threaded hole by using a lower bolt, fixing an upper fixing hole and a top threaded hole by using an upper bolt, injecting glue from the bottom threaded hole communicated with the lower through hole by using a glue injection device, slowly moving the heat-conducting glue upwards along the space between the cylindrical part and the inner side wall of the lamp post, continuously moving upwards through the middle through hole, and discharging air extruded by the heat-conducting glue through the air holes and then through the upper through hole; when the heat-conducting glue moves to the movable ring, the glue is continuously injected, because the air holes are small, the heat-conducting glue drives the movable ring to move upwards until the first inserted link is inserted into the upper through hole (an operator can observe from the rest upper fixed holes, when the first inserted link is observed (preferably, the first inserted link is set to be a striking color or provided with an identification mark), the glue injection is stopped, after the glue injection is finished, the lower bolt is fixedly connected with the bottom threaded hole communicated with the lower through hole, the upper bolt is fixedly connected with the top threaded hole communicated with the upper through hole, so that the shell is stably fixed in the lamp post, the heat-conducting glue is just filled, the space between the cylinder part and the side wall of the lamp post is filled, and therefore, the heat radiated by the storage battery can be transmitted to the heat-conducting block, the cylinder part and the heat-conducting glue, and then is radiated from the lamp post, so that the storage battery can quickly radiate heat, is beneficial to the long-life use of the battery.

While the invention has been shown and described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined in the following claims.

Claims

1. A high-efficiency heat-dissipation storage battery installation shell is characterized by comprising a cylindrical part and a movable frame, wherein a top ring, a bottom ring and a middle ring are fixed on the cylindrical part, the top ring is fixed on the top of the cylindrical part, the bottom ring is fixed on the bottom of the cylindrical part, the middle ring is positioned between the top ring and the bottom ring, a lower through hole and a plurality of bottom threaded holes are formed in the bottom ring, the lower through hole is communicated with one of the bottom threaded holes, the top ring is provided with an upper through hole and a plurality of top threaded holes, the upper through hole is communicated with one of the top threaded holes, and a plurality of middle through holes are formed in the middle ring; the movable frame comprises a movable ring surrounding the cylindrical part, the movable ring is provided with an air hole, a support rod connected with the movable ring is fixed below the movable ring, an insert rod connected with the movable ring is arranged above the movable ring, and the insert rod is inserted into the upper through hole; the cylindrical part is internally provided with a fixed heat conduction block and a bottom mounting frame; a bottom sealing ring is fixed at the outer circumference of the bottom ring, a top sealing ring is fixed at the outer circumference of the top ring, and a middle sealing ring is fixed at the outer circumference of the middle ring; the inner side wall of the lamp post, the top sealing ring, the middle sealing ring and the bottom sealing ring are sealed in a sliding manner; the heat-conducting glue fills the space between the cylindrical part and the side wall of the lamp post; the diameter of the air holes is smaller than 1 mm.

2. A high efficiency heat dissipating battery mounting case as claimed in claim 1, wherein there are two bottom threaded holes, the axes of the two bottom threaded holes being collinear, and two top threaded holes, the axes of the two top threaded holes being collinear.

3. The efficient heat dissipation battery mounting case of claim 1, wherein the number of the middle through holes is greater than or equal to 6, and the middle through holes are distributed in a circular ring shape at equal intervals.

4. The efficient heat dissipation storage battery installation shell according to claim 1, wherein the number of the support rods is 4, and the support rods are distributed in a circular ring shape at equal intervals; the length of 4 supporting rods is equal.

5. The efficient heat dissipation battery installation casing of claim 1, wherein the insertion rods comprise a first insertion rod connected with the movable ring, a connection insertion rod connected with the first insertion rod, and a second insertion rod connected with the connection insertion rod, the first insertion rod and the second insertion rod are both cylindrical, and the connection insertion rod is frustum-shaped.

6. The high efficiency heat dissipating battery mounting case of claim 5, wherein the second insert rod is inserted into the upper through hole when the support rod abuts the middle ring; the inner diameter of the movable ring is equal to the outer diameter of the cylindrical part; when the movable ring abuts against the top circular ring, the first inserting rod is inserted into the upper through hole.

7. The high efficiency heat dissipating battery mounting case of claim 1, wherein the bottom mounting bracket comprises 6 radially distributed securing rods; all there is 4 fixed heat conduction pieces, and be the ring form equidistant distribution, fixed heat conduction piece include with the cambered surface of barrel portion butt and with cambered surface connection's plane.

8. A high efficiency heat dissipating battery mounting case as claimed in claim 1, wherein the lower through hole and the upper through hole are both cylindrical and the diameter of the first pin is equal to the diameter of the upper through hole.