CN210272080U - Structure for radiating resonant capacitor by using external cooling water - Google Patents

Abstract

The utility model discloses an utilize outside cooling water to carry out radiating structure to resonance electric capacity, including two electric capacity mounting panels, equidistant eight through-holes that all are equipped with on two electric capacity mounting panels, be a set of with the through-hole of one side on two electric capacity mounting panels, fill up the screw fixation with flat bullet through two through-holes of a set of and have resonance electric capacity. The utility model discloses utilize outside cooling water to reduce the phenomenon that resonance electric capacity seriously generates heat under operating condition, reach the safe handling and increase of service life's of protecting electrical components better purpose, on the basis of original structure, change to connect for the copper by the copper bar and connect, plus square cooling water pipe on the copper, let in the cooling water that comes by the cooling water pump, the effectual heat that produces the electric capacity during operation in time removes, guarantee resonance electric capacity and control all the time in normal operating temperature, reliable operation nature has, the operational failure who causes because of resonance electric capacity high temperature has been avoided effectively, the life of extension resonance electric capacity.

Description

Structure for radiating resonant capacitor by using external cooling water

Technical Field

The utility model relates to a resonance electric capacity technical field that dispels the heat especially relates to an utilize external cooling water to carry out radiating structure to resonance electric capacity.

Background

The resonance capacitor is in a circuit containing a capacitor and an inductor, and instantaneous voltage boosting is realized. If the capacitor and the inductor are connected in parallel, it may happen that in a very small time period, the voltage of the capacitor gradually increases and the current gradually decreases, while the current of the inductor gradually increases and the voltage of the inductor gradually decreases. In short this is a capacitor that can gradually control the inductor voltage following voltage changes as well as current changes.

Resonance capacitor is connected with 16 x 3 copper bars, and the temperature rise often reaches the upper limit that electric capacity allows the temperature rise under operating condition, and resonance capacitor can produce high temperature when using, if can not in time dispel the heat, works under long-time high temperature, can lead to resonance capacitor to burn out, reduces resonance capacitor's life, so need improve.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the problem that the existing resonance capacitor can generate high temperature and has low heat dissipation speed when in use, and providing a structure for dissipating heat of the resonance capacitor by using external cooling water.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a structure for dissipating heat of a resonant capacitor by using external cooling water comprises two capacitor mounting plates, wherein eight through holes are formed in the two capacitor mounting plates at equal intervals, the through holes on the same side of the two capacitor mounting plates are in a group, and the resonant capacitor is fixed in the two through holes in the same group through flat spring washer screws;

first condenser tube has all been welded to one side of one of them electric capacity mounting panel, be equipped with first water inlet and first delivery port on the first condenser tube, and first water inlet and first delivery port are located first condenser tube's both sides, all be connected with first water pipe head on first water inlet and the second delivery port, the welding of one side of another electric capacity mounting panel has second condenser tube, is equipped with second water inlet and second delivery port on the second condenser tube, and second water inlet and second delivery port are located one side of second condenser tube, all be connected with second water pipe head on second water inlet and the second delivery port.

Preferably, the first water pipe joint on the first water outlet and the second water pipe joint on the second water inlet are connected through a pressure-resistant rubber pipe.

Preferably, two single-lug electrodeless hose hoops are mounted on the pressure-resistant hose.

Preferably, the first cooling water pipe and the second cooling water pipe are both made of a T-red copper material.

Preferably, both capacitor mounting plates are made of copper plates.

Compared with the prior art, the beneficial effects of the utility model are that: utilize outside cooling water to reduce the phenomenon that resonance electric capacity seriously generates heat under operating condition, reach the safe handling and increase of service life's of protecting electrical components better purpose, on the basis of original structure, change to connect for the copper by the copper bar and connect, plus square cooling water pipe on the copper, let in the cooling water that is come by the cooling water pump, the effectual heat that produces the electric capacity during operation in time removes, guarantee that resonance electric capacity controls all the time in normal operating temperature, reliable operation nature has, the operating fault because of resonance electric capacity high temperature causes has been avoided effectively, the life of extension resonance electric capacity.

Drawings

FIG. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of two capacitor mounting plates of the present invention.

In the figure: the device comprises a resonant capacitor 1, a flat elastic pad screw 2, a capacitor mounting plate 3, a first cooling water pipe 4, a first water pipe connector 5, a second cooling water pipe 6, a single-lug electrodeless hose clamp 7, a second water pipe connector 8, a through hole 9 and a pressure-resistant rubber hose 10.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples, which are provided for the purpose of illustration only and are not intended to limit the scope of the invention.

Referring to fig. 1-2, a structure for dissipating heat from a resonant capacitor by using external cooling water comprises two capacitor mounting plates 3, wherein the two capacitor mounting plates 3 are made of copper plates, the heat dissipation efficiency is increased, eight through holes 9 are formed in the two capacitor mounting plates 3 at equal intervals, the through holes 9 on the same side of the two capacitor mounting plates 3 form a group, the resonant capacitor 1 is fixed in the two through holes 9 in the same group through flat spring pad screws 2, the resonant capacitor 1 is fixed on the two capacitor mounting plates 3 through the two flat spring pad screws 2, the fixation is firm and stable, burrs and machining chips caused by machining are removed during machining, and all sharp corners are required to be machined into circular arcs to prevent discharge of the sharp corners;

referring to fig. 1-2, a first cooling water pipe 4 is welded on one side of one of the capacitor mounting plates 3, a first water inlet and a first water outlet are arranged on the first cooling water pipe 4, cooling water flows in from the first water inlet and flows out from the first water outlet, the first water inlet and the first water outlet are arranged on two sides of the first cooling water pipe 4, a first water pipe joint 5 is connected on the first water inlet and a second water outlet, the first water pipe joint 5 facilitates the pipeline connection on a water chiller pump, a second cooling water pipe 6 is welded on one side of the other capacitor mounting plate 3, the first cooling water pipe 4 and the second cooling water pipe 6 are both made of T2 red copper material, a second water inlet and a second water outlet are arranged on the second cooling water pipe 6, the second water inlet and the second water outlet are arranged on one side of the second cooling water pipe 6, and a second water pipe joint 8 is connected on the second water inlet and the second water outlet, the first water pipe joint 5 on the first water outlet is connected with the second water pipe joint 8 on the second water inlet through a pressure-resistant rubber pipe 10, cooling water flows into another second cooling water pipe 6 through the pressure-resistant rubber pipe 10 to cool another capacitor mounting plate 3, the used cooling water is discharged, the temperature is reduced, the cooling water is recycled, the heat on two sides of the resonant capacitor 1 is discharged, the resonant capacitor 1 is enabled to work at normal temperature all the time, two single-lug electrodeless hose clamps 7 are mounted on the pressure-resistant rubber pipe 10, and the single-lug electrodeless hose clamps 7 firmly fix the pressure-resistant rubber pipe 10.

In the utility model, when assembling, first cooling water pipe 4 and second cooling water pipe 6 are welded on two sides of two capacitor mounting plates 3, then first water pipe joint 5 is arranged on first water inlet and first water outlet of first cooling water pipe 4, second water pipe joint 8 is respectively connected with second water outlet and second water inlet on second cooling water pipe 6, then first water pipe joint 5 on first water outlet is connected with second water pipe joint 8 on second water inlet through pressure-resistant rubber pipe 10, then resonance capacitor 1 is fixed on two capacitor mounting plates 3 through flat spring washer screw 2, when resonance capacitor generates high temperature, cooling water is added into first water pipe joint 5 on first water inlet on first cooling water pipe 4, cooling water flows into another second cooling water pipe 6 through first cooling water pipe 4 and pressure-resistant rubber pipe 10, and then flows out from second water pipe joint 8, the heat generated by the resonant capacitor 1 during working is effectively removed in time, and the resonant capacitor 1 is guaranteed to work at normal temperature all the time.

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 (5)

1. The utility model provides an utilize external cooling water to carry out radiating structure to resonance electric capacity, includes two electric capacity mounting panels (3), its characterized in that: eight through holes (9) are formed in the two capacitor mounting plates (3) at equal intervals, the through holes (9) on the same side of the two capacitor mounting plates (3) form a group, and the resonant capacitors (1) are fixed in the two through holes (9) in the same group through flat spring pad screws (2);

first condenser tube (4) have all been welded to one side of one of them electric capacity mounting panel (3), be equipped with first water inlet and first delivery port on first condenser tube (4), and first water inlet and first delivery port are located the both sides of first condenser tube (4), all be connected with first water pipe head (5) on first water inlet and the second delivery port, one side welding of another electric capacity mounting panel (3) has second condenser tube (6), is equipped with second water inlet and second delivery port on second condenser tube (6), and second water inlet and second delivery port are located one side of second condenser tube (6), all be connected with second water pipe head (8) on second water inlet and the second delivery port.

2. The structure for dissipating heat from a resonant capacitor by using external cooling water as claimed in claim 1, wherein the first water pipe joint (5) at the first water outlet and the second water pipe joint (8) at the second water inlet are connected by a pressure-resistant rubber hose (10).

3. The structure for dissipating heat from a resonance capacitor by using external cooling water as claimed in claim 2, wherein two single-lug electrodeless hose clamps (7) are mounted on the pressure-resistant hose (10).

4. The structure for dissipating heat from a resonant capacitor by using external cooling water as claimed in claim 1, wherein the first cooling water pipe (4) and the second cooling water pipe (6) are made of T2 red copper material.

5. The structure for dissipating heat from a resonant capacitor using external cooling water as set forth in claim 1, wherein the two capacitor mounting plates (3) are made of copper plates.

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