CN216818099U - New forms of energy are with condenser that has anticollision structure - Google Patents

Abstract

The utility model discloses a capacitor with an anti-collision structure for new energy, which comprises a capacitor shell and a transverse protection piece, wherein a vertical protection piece is installed outside the capacitor shell, a first installation hole is formed in the vertical protection piece, and the transverse protection piece is arranged at the upper end and the lower end of the vertical protection piece. This vertical protection piece of condenser with anticollision structure for new forms of energy is provided with four, the outside at the electric capacity shell is installed to the equidistance annular, other protection parts can be connected to its inside first mounting hole of seting up, prevent that the condenser from receiving the collision, and the horizontal protection piece of the upper and lower end installation of vertical protection piece, and the inside second mounting hole of seting up of its inside, can play the collision effect to the condenser equally, the buffer layer sets up to elastic material, it can cushion the pressure that the electric capacity shell received down, protection electric capacity shell internal element, and the inside of buffer layer has seted up many places bleeder vent, can make the condenser dispel the heat.

Description

New forms of energy are with condenser that has anticollision structure

Technical Field

The utility model relates to the field of capacitors, in particular to a capacitor with an anti-collision structure for new energy.

Background

A capacitor is an element that stores electricity and electric energy (potential energy). One conductor is surrounded by another conductor or the electric field lines emanating from one conductor are all terminated in the conductor system of the other conductor, called a capacitor, whose capacitance is numerically equal to the ratio of the amount of charge on one conductive plate to the voltage between the two plates. The basic unit of capacitance of a capacitor is farad (F). The capacitor element is generally denoted by letter C in the circuit diagram.

The capacitor in the market has the condition of collision in transportation, and can lead to the problem of capacitor damage in the severe time, for this reason, we propose a new energy with have anti-collision structure's condenser.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a capacitor with an anti-collision structure for new energy, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a new forms of energy is with condenser that has anti collision structure, includes electric capacity shell and horizontal protection piece, the externally mounted of electric capacity shell has vertical protection piece, and the inside of vertical protection piece has seted up first mounting hole, horizontal protection piece sets up in the upper and lower end of vertical protection piece, and the inside of horizontal protection piece has seted up the second mounting hole, the inside of electric capacity shell is provided with the buffering subassembly that is used for the anticollision, and buffers the subassembly and includes buffer layer and bleeder vent, the bleeder vent has been seted up to the inside of buffer layer, the inside of buffer layer is provided with fills the sealing layer, and fills the internally mounted of sealing layer and have the electric capacity core, anodal lead wire is installed to the top of electric capacity core, and the outside of anodal lead wire is provided with anodal protective housing, the outside of anodal protective housing is provided with first mounting groove.

Preferably, the vertical protection pieces are arranged in an annular distribution mode about a central point of the capacitor shell, and the vertical protection pieces and the transverse protection pieces are vertically distributed.

Preferably, the length of the buffer layer is consistent with that of the capacitor shell, and the buffer layer is tightly attached to the filling sealing layer.

Preferably, the shape of the positive electrode protection shell is a hollow cylinder, and the vertical central axes of the positive electrode protection shell and the positive electrode lead coincide.

Preferably, the lower extreme of electric capacity core is connected with the negative pole lead wire, and the outside of negative pole lead wire is provided with the negative pole protective housing, the outside of negative pole protective housing is provided with the second mounting groove.

Preferably, the number of the negative leads is two, and the negative leads are symmetrically distributed around the central axis of the capacitor core.

Preferably, an insulating part is mounted outside the negative lead, a protective sleeve is arranged at the end of the negative lead, a connecting port is arranged inside the protective sleeve, and an auxiliary part is arranged outside the insulating part.

Preferably, the diameter of the insulating part is larger than that of the negative electrode lead, and the insulating part is arranged in a ring shape.

Preferably, two protective sleeves are symmetrically arranged about the central point of the capacitor shell, and the vertical central lines of the protective sleeves and the connecting ports coincide with each other.

The utility model provides a capacitor with an anti-collision structure for new energy, which has the following beneficial effects: this new forms of energy is with condenser that has anti collision structure is provided with four vertical guards and two annular horizontal guards through the outside at electric capacity shell, tentatively prevents the collision to electric capacity shell, and the buffering subassembly of the inside setting of electric capacity shell, protects the positive negative pole of condenser through positive negative pole protective sheath, and the protective sheath plays the guard action to the negative pole connector.

1. According to the capacitor, the four vertical protection pieces are annularly arranged outside the capacitor shell at equal intervals, the first mounting holes formed in the vertical protection pieces can be connected with other protection parts to prevent the capacitor from being collided, the transverse protection pieces arranged at the upper end and the lower end of each vertical protection piece and the second mounting holes formed in the vertical protection pieces can also have a collision effect on the capacitor, the buffer layer is made of elastic materials and can buffer the pressure on the capacitor shell to protect elements in the capacitor shell, and the buffer layer is internally provided with the plurality of air holes to enable the capacitor to dissipate heat.

2. According to the utility model, the positive lead is protected from being bent or scratched during transportation through the effect of the positive protective shell, so that the capacitor is damaged in different degrees, the positive protective shell rotates clockwise and is installed in the first installation groove formed in the filling sealing layer, the two negative leads are arranged, the negative protective shell is arranged outside the positive protective shell and is used for protecting the positive lead, the second installation groove is formed in the filling sealing layer, the filling sealing layer plays a role in protecting and insulating the capacitor core, and the negative protective shell is installed in the second installation groove through the rotation of the homeotropic needle, so that the connection mode has stability.

3. The protective sleeve is made of elastic materials and is in a hollow cylindrical shape, and is arranged outside the insulating piece, the protective sleeve plays a dustproof role in a connecting port when not used, and the protective sleeve is pulled away from a central cross pull mark to expose the connecting port when used.

Drawings

Fig. 1 is an external structural view of a capacitor having an anti-collision structure for a new energy source according to the present invention;

fig. 2 is a schematic diagram illustrating an internal structure of a capacitor having an anti-collision structure for a new energy source according to the present invention;

fig. 3 is a schematic bottom view of a capacitor with an anti-collision structure for new energy according to the present invention.

In the figure: 1. a capacitor case; 2. a vertical guard; 3. a first mounting hole; 4. a transverse guard; 5. a second mounting hole; 6. a buffer assembly; 601. a buffer layer; 602. air holes are formed; 7. filling a sealing layer; 8. a capacitor core; 9. a positive electrode lead; 10. a positive electrode protective case; 11. a first mounting groove; 12. a negative electrode lead; 13. a negative electrode protection shell; 14. a second mounting groove; 15. an insulating member; 16. a protective sleeve; 17. a connecting port; 18. an auxiliary member.

Detailed Description

As shown in fig. 1, the capacitor with an anti-collision structure for new energy comprises a capacitor housing 1 and a transverse protection member 4, wherein a vertical protection member 2 is mounted on the outside of the capacitor housing 1, four vertical protection members 2 are annularly distributed about the central point of the capacitor housing 1, and the vertical protection pieces 2 and the transverse protection pieces 4 are vertically distributed, the vertical protection pieces 2 are provided with four vertical protection pieces, are annularly arranged at equal intervals outside the capacitor shell 1, a first mounting hole 3 arranged in the vertical protection piece 2 can be connected with other protection parts to prevent the capacitor from being collided, and a horizontal protection piece 4 is arranged at the upper end and the lower end of the vertical protection piece 4, and a second mounting hole 5 formed therein, which also has a collision effect on the capacitor, wherein the vertical protection member 2 is formed therein with a first mounting hole 3, the horizontal protection member 4 is disposed at upper and lower ends of the vertical protection member 2, and the horizontal protection member 4 is formed therein with a second mounting hole 5.

As shown in fig. 2, a buffer assembly 6 for collision avoidance is disposed inside the capacitor case 1, the buffer assembly 6 includes a buffer layer 601 and a vent hole 602, the vent hole 602 is disposed inside the buffer layer 601, the length of the buffer layer 601 is the same as that of the capacitor case 1, the buffer layer 601 is closely attached to the filling sealing layer 7, the buffer layer 601 is made of an elastic material, and can buffer the pressure applied to the capacitor case 1 to protect the internal components of the capacitor case 1, the buffer layer 601 is internally provided with a plurality of vent holes 602 to enable the capacitor to dissipate heat, the filling sealing layer 7 is disposed inside the buffer layer 601, the capacitor core 8 is disposed inside the filling sealing layer 7, the positive lead 9 is disposed above the capacitor core 8, the positive protective case 10 is disposed outside the positive lead 9, the positive protective case 10 is hollow and cylindrical, and the vertical central axes of the positive protective case 10 and the positive lead 9 coincide with each other, the positive electrode protection shell 10 is used for protecting a positive electrode lead 9 from being bent or scratched during transportation and causing damage to a capacitor in different degrees, the positive electrode protection shell 10 rotates clockwise to be installed in a first installation groove 11 formed in a filling sealing layer 7, the first installation groove 11 is formed outside the positive electrode protection shell 10, the lower end of a capacitor core 8 is connected with two negative electrode leads 12, the two negative electrode leads 12 are symmetrically distributed in the middle axis of the capacitor core 8, the two negative electrode leads 12 are arranged and protected by a negative electrode protection shell 13 arranged outside the negative electrode leads 12, a second installation groove 14 is formed in the filling sealing layer 7, the filling sealing layer 7 plays a role in protecting and insulating the capacitor core 8, the negative electrode protection shell 13 is installed in a second installation groove 14 through clockwise rotation, the connection mode has stability, the negative electrode protection shell 13 is arranged outside the negative electrode lead 12, the negative electrode protective case 13 is provided at the outside thereof with a second mounting groove 14.

As shown in fig. 3, the outside of the cathode lead 12 is mounted with an insulator 15, the diameter of the insulator 15 is larger than that of the cathode lead 12, and the insulating piece 15 is arranged in a ring shape, the insulating piece 15 is sleeved outside the cathode lead 12, which has the function of supporting and protecting the cathode lead 12, and the end part of the cathode lead 12 is provided with a protective sleeve 16, two protective sleeves 16 are symmetrically arranged about the central point of the capacitor shell 1, the vertical central lines of the protective sleeve 16 and the connecting port 17 are coincident, the protective sleeve 16 is made of elastic material, which is hollow and cylindrical in shape, is mounted on the outside of the insulating element 15, the protective sheath 16 acting as a dust-proof for the connection port 17 when not in use, in use, the protective sleeve 16 is pulled away from the central cross-cut to expose the connecting port 17, the connecting port 17 is provided inside the protective sleeve 16, and the auxiliary member 18 is provided outside the insulating member 15.

In summary, the capacitor with the anti-collision structure for the new energy source is characterized in that four vertical protection pieces 2 are annularly distributed at equal intervals outside a capacitor housing 1, first mounting holes 3 formed in the capacitor housing are capable of being connected with other protection parts to prevent the capacitor from being collided, horizontal protection pieces 4 mounted at the upper end and the lower end of each vertical protection piece 2 and second mounting holes 5 formed in the vertical protection pieces are capable of playing a role in collision on the capacitor, a buffer layer 601 made of rubber is arranged in the capacitor housing 1 and capable of buffering pressure applied to the capacitor housing 1 to protect internal elements of the capacitor housing 1, a plurality of air holes 602 are formed in the buffer layer 601 to enable the capacitor to dissipate heat, a filling sealing layer 7 capable of buffering and insulating is arranged in the buffer assembly 6, the upper end and the lower end of a capacitor core 8 mounted in the buffer assembly are respectively connected with an anode lead 9 and two cathode leads 12, the positive protective housing 10 rotates clockwise, make it install in locating the first mounting groove 11 on filling the sealing layer 7, the effect of positive protective housing 10 is for protecting positive lead 9 not buckled or scratched when the transportation, cause the damage of different degree to the condenser, negative pole protective housing 13 is installed into second mounting groove 14 through the clockwise rotation of tendency needle equally, protect negative pole lead 12, can take off after positive protective housing 10 and negative pole protective housing 13 anticlockwise rotation, insulating part 15 is the rubber insulation layer, the cladding is in the outside of negative pole lead 12, make negative pole lead 12 not direct and capacitor case 1 direct contact, can play the guard action to negative pole lead 12, when using, pull open protective housing 16 from the cross draw mark department in center after taking off negative pole protective housing 13, connect after making connecting port 17 expose.

Claims (9)

1. The utility model provides a capacitor with anti-collision structure for new forms of energy, includes capacitor case (1) and horizontal protection piece (4), its characterized in that, the externally mounted of capacitor case (1) has vertical protection piece (2), and first mounting hole (3) have been seted up to the inside of vertical protection piece (2), horizontal protection piece (4) set up in the upper and lower end of vertical protection piece (2), and the inside of horizontal protection piece (4) has seted up second mounting hole (5), the inside of capacitor case (1) is provided with buffer assembly (6) that are used for the anticollision, and buffer assembly (6) include buffer layer (601) and bleeder vent (602), bleeder vent (602) have been seted up to the inside of buffer layer (601), the inside of buffer layer (601) is provided with packing sealing layer (7), and the internally mounted of packing sealing layer (7) has electric capacity core (8), positive pole lead wire (9) is installed to the top of electric capacity core (8), and the outside of positive pole lead wire (9) is provided with anodal protective housing (10), the outside of anodal protective housing (10) is provided with first mounting groove (11).

2. The capacitor with the collision avoidance structure for the new energy source according to claim 1, wherein the vertical protection members (2) are arranged in four annular distribution about the center point of the capacitor housing (1), and the vertical protection members (2) and the transverse protection members (4) are vertically distributed.

3. The capacitor with the anti-collision structure for the new energy source according to claim 1, wherein the length of the buffer layer (601) is the same as that of the capacitor shell (1), and the buffer layer (601) and the filling sealing layer (7) are tightly attached.

4. The capacitor with the anti-collision structure for the new energy source according to claim 1, wherein the positive electrode protection shell (10) is in a hollow cylindrical shape, and vertical central axes of the positive electrode protection shell (10) and the positive electrode lead (9) are coincident.

5. The capacitor with the anti-collision structure for the new energy source according to claim 1, wherein a negative lead (12) is connected to a lower end of the capacitor core (8), a negative protective shell (13) is arranged outside the negative lead (12), and a second mounting groove (14) is arranged outside the negative protective shell (13).

6. The capacitor with the anti-collision structure for the new energy source according to claim 5, wherein the number of the negative leads (12) is two, and the negative leads (12) are symmetrically distributed with respect to a central axis of the capacitor core (8).

7. The capacitor with the anti-collision structure for the new energy source according to claim 5, wherein an insulator (15) is mounted on the outside of the negative lead (12), a protective sleeve (16) is arranged at the end of the negative lead (12), a connection port (17) is arranged inside the protective sleeve (16), and an auxiliary component (18) is arranged on the outside of the insulator (15).

8. The capacitor with the anti-collision structure for the new energy source according to claim 7, wherein the diameter of the insulating member (15) is larger than that of the negative lead (12), and the insulating member (15) is provided in a circular ring shape.

9. The capacitor with the anti-collision structure for the new energy source according to claim 7, wherein two protective sleeves (16) are symmetrically arranged about the center point of the capacitor shell (1), and the vertical center lines of the protective sleeves (16) and the connecting ports (17) coincide.

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