CN211719440U - Novel heat dissipation formula condenser - Google Patents

Abstract

The utility model provides a novel heat dissipation formula condenser belongs to condenser technical field, and this novel heat dissipation formula condenser includes main body cover, main body cover bottom inner wall is opened there is the standing groove, and the standing groove inner wall joint has the core all around, core top outer wall joint has negative pole lead wire and positive lead wire respectively, and negative pole lead wire and positive lead wire all run through in the main body cover top, the top and the bottom outer wall that main body cover is close to the core both sides all bond and have the heat conduction copper, and two relative one side outer walls of heat conduction copper all bond and have the arc heat conduction net, the top outer wall that main body cover is close to two heat conduction copper opposite sides all opens there are two heat dissipation pores, two the opposite one side outer wall of heat conduction copper all bonds the baffling board that has the equidistance. The utility model discloses both improved overall structure's radiating efficiency and quality, guaranteed the stability of core again for the core still can normally work.

Description

Novel heat dissipation formula condenser

Technical Field

The utility model belongs to the technical field of the condenser, concretely relates to novel heat dissipation formula condenser.

Background

Capacitors, generally referred to simply as capacitors, are made of plates at both ends and an insulating dielectric in between, and when energized, the plates become charged to develop a voltage, but the entire capacitor is non-conductive due to the insulating material in between. However, this is the case without exceeding the critical voltage of the capacitor, and it is known that any substance is relatively insulating, and that the substance is conductive when the voltage across the substance increases to some extent, which is called the breakdown voltage, and that the capacitance is no exception, and that the capacitance is not an insulator when it is broken down, but in the middle school stage, such a voltage is not seen in the circuit, and therefore, it operates below the breakdown voltage and can be seen as an insulator.

Through search and discovery, a stable heat dissipation type capacitor is disclosed in a Chinese patent with an authorization publication number of CN205354866U, and the stable heat dissipation type capacitor comprises a capacitor cylinder body and is characterized in that: the capacitor is characterized in that multiple layers of radiating fins are arranged on the side wall of the capacitor barrel, a capacitor tray is arranged on the bottom plate of the capacitor barrel, a concave cavity which is sunken downwards is arranged in the capacitor tray, and the concave cavity is used for installing a buckle for a capacitor element. The utility model discloses the radiating effect is good, and electrical components installs firmly stably.

However, the heat dissipation of the capacitor is considered emphatically in the technical scheme, and the integral structure can not effectively ensure that the core keeps the original state when being impacted while dissipating the heat, so that the problem of instability in the core still exists.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel heat dissipation formula condenser aims at solving the inside unstable problem of core among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme: including main body cover, main body cover bottom inner wall is opened there is the standing groove, and the standing groove inner wall joint all around has the core, and core top outer wall joint has negative pole lead wire and anodal lead wire respectively, and negative pole lead wire and anodal lead wire all run through in the main body cover top, and the top that main body cover is close to the core both sides all bonds with the bottom outer wall has the heat conduction copper, and two relative one side outer walls of heat conduction copper all bond and have arc heat conduction net, and the top outer wall that main body cover is close to two heat conduction copper opposite sides has all opened two heat dissipation pores.

In order to promote the heat conduction effect of heat conduction copper, as the utility model relates to an it is preferred, two the opposite one side outer wall of heat conduction copper all bonds and has the baffling board that the equidistance distributes.

In order to effectively promote the fixed of anodal lead wire and negative pole lead wire, as the utility model relates to an it is preferred, main body cover all bonds near the top outer wall of negative pole lead wire and anodal lead wire and has the spacing ring.

In order to strengthen the stability of core, as the utility model relates to an it is preferred, two the heat conduction copper is close to the bottom inner wall of core top and has all opened the arc draw-in groove, and core top both sides outer wall all is provided with the card protrudingly.

In order to avoid the core to receive the problem that warp and slope when the striking, as the utility model relates to an it is preferred, arc draw-in groove and the protruding mutual adaptation of card.

In order to improve the holistic anti striking ability of main body cover, conduct the utility model relates to an it is preferred, main body cover openly all bonds with the back outer wall has the attaching plate, and main body cover top, bottom and both sides outer wall all open and have the recess.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through being provided with arc heat conduction net and heat conduction copper, the heat that produces when the long-time work of core is scattered, and transmit the heat to the heat conduction copper through arc heat conduction net on, and the heat of heat conduction copper can gather in two avris spaces of two main body housing, and the main body housing outside of heat dissipation pore discharge through the main body housing top, and then improved overall structure's radiating efficiency and quality, when main body housing receives the collision simultaneously, the core can be protected by arc heat conduction net again, effectively cushion the power of core slope, thereby the stability of core has been guaranteed, make the core still can normally work.

2. Through being provided with the baffling board, when the heat of conducting from the heat conduction copper evacuated to main body cover both sides side, it can effectively dredge the heat through the baffling board, and promoted thermal quick water conservancy diversion, and then strengthened the efficiency and the quality of heat conduction copper.

3. Through being provided with arc draw-in groove and card protruding, strengthened the stability of core to a certain extent, avoided the core to receive the problem that warp and incline when striking.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic view of the structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the present invention;

FIG. 3 is a schematic view of a partial structure of the present invention;

in the figure: 1-a jointing plate; 2-a main body housing; 3-fine heat dissipation holes; 4-a negative lead; 5-positive electrode lead; 6-a limiting ring; 7-heat conducting copper plate; 8-arc heat conducting net; 9-a core; 10-a baffle plate; 11-placing a groove; 12-sticking; 13-arc neck.

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. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides the following technical solutions: including main body cover 2, 2 bottom inner walls of main body cover open there is standing groove 11, and standing groove 11 inner wall joint all around has core 9, 9 top outer walls of core joint respectively have negative lead 4 and positive lead 5, and negative lead 4 and positive lead 5 all run through in 2 tops of main body cover, top and bottom outer wall that main body cover 2 is close to core 9 both sides all bond heat conduction copper 7, and two heat conduction copper 7 relative one side outer walls all bond have arc heat conduction net 8, main body cover 2 all opens two heat dissipation pore 3 near the top outer wall of two heat conduction copper 7 opposite sides.

The utility model discloses an in the embodiment, the heat that produces when the long-time work of core 9 is scattered all around, and transmit the heat to heat conduction copper 7 through arc heat conduction net 8 on, and the heat of heat conduction copper 7 can gather in two avris spaces of two main body cover 2, and the heat dissipation pore 3 through the 2 tops of main body cover 2 outside main body cover 2, and then improved overall structure's radiating efficiency and quality, when main body cover 2 received the collision simultaneously, core 9 can be protected by arc heat conduction net 8 again, effectively cushion the power of core 9 slope, thereby the stability of core 9 has been guaranteed, make core 9 still can normally work.

Specifically, baffle plates 10 are bonded to the outer walls of the two opposite sides of the heat-conducting copper plates 7 and are distributed at equal intervals.

In this embodiment: when the heat conducted from the heat-conducting copper plate 7 is evacuated to the two sides of the main body case 2, the heat can be effectively conducted through the baffle plates 10, and the rapid flow guide of the heat is promoted, so that the heat-conducting efficiency and quality of the heat-conducting copper plate 7 are enhanced.

Specifically, the outer walls of the top parts of the main body casing 2, which are close to the negative lead 4 and the positive lead 5, are respectively bonded with a limiting ring 6.

In this embodiment, the fixing of the positive electrode lead 5 and the negative electrode lead 4 is effectively facilitated by setting the two stopper rings 6.

Specifically, two arc draw-in groove 13 has all been opened to the bottom inner wall that heat conduction copper 7 is close to core 9 top, and core 9 top both sides outer wall all is provided with card protruding 12, arc draw-in groove 13 and the mutual adaptation of card protruding 12.

In this embodiment: the clamping protrusions 12 on the two sides of the top of the core 9 can be effectively clamped into the arc-shaped clamping grooves 13 on the top of the two heat-conducting copper plates 7, so that the stability of the core 9 is enhanced to a certain extent, and the problems of deformation and inclination of the core 9 when being impacted are avoided.

Specifically, the front and back outer walls of the main body shell 2 are both bonded with the attaching plates 1, and the top, bottom and two side outer walls of the main body shell 2 are all provided with grooves.

In this embodiment: effectively promoting the strength of the main body shell 2 and improving the overall impact resistance of the main body shell 2.

The utility model discloses a theory of operation and use flow: when the heat that the core 9 produced when working for a long time is scattered, and transmit the heat to the heat conduction copper 7 through arc heat conduction net 8, and the heat of heat conduction copper 7 can gather in two avris spaces of two main body cover 2, and the heat dissipation pore 3 through the main body cover 2 top discharges the main body cover 2 outside, and then whole structure's radiating efficiency and quality have been improved, simultaneously when main body cover 2 receives the collision, core 9 can be protected by arc heat conduction net 8 again, effectively cushion the power of core 9 slope, thereby the stability of core 9 has been guaranteed, and when the heat of conduction is evacuated to two avris of main body cover 2 from heat conduction copper 7, it can effectively dredge the heat through baffling board 10, and thermal quick water conservancy diversion has been promoted.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A novel heat dissipation formula condenser which characterized in that: including main body cover (2), main body cover (2) bottom inner wall is opened there are standing groove (11), and standing groove (11) inner wall joint all around has core (9), core (9) top outer wall joint has negative pole lead wire (4) and positive pole lead wire (5) respectively, and negative pole lead wire (4) and positive pole lead wire (5) all run through in main body cover (2) top, main body cover (2) are close to the top of core (9) both sides and the bottom outer wall all bonds has heat conduction copper (7), and two relative one side outer walls of heat conduction copper (7) all bond has arc heat conduction net (8), main body cover (2) are close to the top outer wall of two heat conduction copper (7) opposite sides and all open two heat dissipation pore (3).

2. A novel heat dissipation capacitor as recited in claim 1, wherein: baffle plates (10) which are distributed at equal intervals are bonded on the outer walls of the opposite sides of the two heat-conducting copper plates (7).

3. A novel heat dissipation capacitor as recited in claim 1, wherein: the outer wall of the top of the main body shell (2) close to the negative lead (4) and the positive lead (5) is bonded with a limiting ring (6).

4. A novel heat dissipation capacitor as recited in claim 1, wherein: two the bottom inner wall that heat conduction copper (7) are close to core (9) top all opens has arc draw-in groove (13), and core (9) top both sides outer wall all is provided with card protruding (12).

5. The novel heat dissipation capacitor of claim 4, wherein: the arc-shaped clamping groove (13) and the clamping protrusion (12) are mutually matched.

6. A novel heat dissipation capacitor as recited in claim 1, wherein: the main body shell (2) front and back outer wall all bond has attaching plate (1), and main body shell (2) top, bottom and both sides outer wall all open the recess.

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