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CN-122008929-A - Electric automobile fills electric pile of high-efficient heat dissipation

CN122008929ACN 122008929 ACN122008929 ACN 122008929ACN-122008929-A

Abstract

The invention provides an electric vehicle charging pile with high-efficiency heat dissipation, which relates to the technical field of electric vehicle charging piles and comprises an electric vehicle charging pile main body, an adjustable protection mechanism, a control panel, an electric telescopic rod, a movable heat dissipation mechanism, a control mechanism and a position recognition mechanism, wherein the adjustable protection mechanism is arranged on the electric vehicle charging pile main body; the adjustable protection mechanism is arranged outside the charging pile main body of the electric automobile, four electric telescopic rods are arranged in total and fixedly arranged on the charging pile main body of the electric automobile, the movable heat dissipation mechanism is arranged on output shafts of the four electric telescopic rods, and the position identification mechanism is arranged on the front side of the adjustable protection mechanism. This high-efficient radiating electric automobile fills electric pile, outside air enters into rectangle frame B and rectangle activity cover through round rectangle inlet port, later discharges through eight arc exhaust holes, has played abundant radiating effect to the outside of electric automobile fills electric pile main part.

Inventors

  • GAO ZHANQIU
  • LU WANLI

Assignees

  • 西安炽云老虎充电科技有限公司

Dates

Publication Date
20260512
Application Date
20260413

Claims (10)

  1. 1. The electric automobile charging pile is characterized in that the adjustable protection mechanism (200) is arranged outside the electric automobile charging pile body (100), the control panel (300) is arranged on the right side of the adjustable protection mechanism (200), the control panel (300) is electrically connected with the electric automobile charging pile body (100), four electric telescopic rods (400) are arranged in total, the four electric telescopic rods (400) are fixedly arranged on the electric automobile charging pile body (100), and the four electric telescopic rods (400) are electrically connected with the control panel (300); The movable heat dissipation mechanism (500) is arranged on output shafts of the four electric telescopic rods (400), the movable heat dissipation mechanism (500) is used for cooling the electric automobile charging pile main body (100), the control mechanism (600) is arranged on the adjustable protection mechanism (200), the control mechanism (600) is used for detecting the temperature outside the electric automobile charging pile main body (100), the control mechanism (600) is also used for controlling the movable heat dissipation mechanism (500), the position identification mechanism (700) is arranged on the front side of the adjustable protection mechanism (200), and the position identification mechanism (700) is used for identifying the parking position of the electric automobile.
  2. 2. The electric vehicle charging pile with efficient heat dissipation according to claim 1 is characterized in that the adjustable protection mechanism (200) comprises a rectangular frame A (201), a rectangular frame B (202) and round mounting shafts (203), wherein the rectangular frame A (201) is fixedly mounted on an electric vehicle charging pile body (100), the rectangular frame B (202) is slidably mounted inside the rectangular frame A (201), four round mounting shafts (203) are arranged in total, and the four round mounting shafts (203) are fixedly mounted on the rectangular frame A (201).
  3. 3. The electric automobile charging pile with efficient heat dissipation according to claim 2, wherein a row of heat dissipation slots (2001) are respectively formed in the front side and the rear side of the rectangular frame A (201) and the rectangular frame B (202), four arc-shaped air vents (2002) are respectively formed in the bottoms of the rectangular frame A (201) and the rectangular frame B (202), and when the four arc-shaped air vents (2002) in the rectangular frame A (201) are aligned with the four arc-shaped air vents (2002) in the rectangular frame B (202), two rows of heat dissipation slots (2001) in the rectangular frame A (201) are staggered with two rows of heat dissipation slots (2001) in the rectangular frame B (202).
  4. 4. The electric automobile charging pile with efficient heat dissipation according to claim 2, wherein the adjustable protection mechanism (200) further comprises two rectangular connecting plates (204) and four spiral springs A (205), the rectangular connecting plates (204) are arranged at the left side and the right side of the rectangular frame B (202) in a fixed mode, the two rectangular connecting plates (204) are further connected with four circular mounting shafts (203) in a sliding mode, the four spiral springs A (205) are arranged in a total mode, the four spiral springs A (205) are sleeved outside the four circular mounting shafts (203), and the four spiral springs A (205) are located below the two rectangular connecting plates (204).
  5. 5. The electric automobile charging pile with efficient heat dissipation according to claim 2 is characterized in that the movable heat dissipation mechanism (500) comprises a connecting support (501), a rectangular movable cover (502) and a circular installation top cover (503), wherein the connecting support (501) is fixedly installed on output shafts of four electric telescopic rods (400), the rectangular movable cover (502) is fixedly installed on the connecting support (501), the circular installation top cover (503) is fixedly installed on the top of the rectangular movable cover (502), and a circle of rectangular air inlets (5031) are formed in the circular installation top cover (503).
  6. 6. The electric automobile charging pile with efficient heat dissipation as defined in claim 5, wherein the movable heat dissipation mechanism (500) further comprises a motor (504) and a heat dissipation impeller (505), the motor (504) is fixedly arranged on the top of the circular mounting top cover (503) and is further electrically connected with the control panel (300), the heat dissipation impeller (505) is fixedly arranged on an output shaft of the motor (504), and the heat dissipation impeller (505) is located below a circle of rectangular air inlet holes (5031).
  7. 7. The electric vehicle charging pile with efficient heat dissipation according to claim 6, wherein the control mechanism (600) comprises a temperature sensor (601) and a control switch (602), the temperature sensor (601) is fixedly arranged on the inner wall of the rectangular frame B (202), the control switch (602) is fixedly arranged in the rectangular frame B (202), when the temperature sensor (601) detects that the temperature is higher than a preset temperature value, the control panel (300) controls the output shafts of the four electric telescopic rods (400) to shrink, when the output shafts of the four electric telescopic rods (400) are all shrunk, the control switch (602) is in a pressing state, and when the control switch (602) is in the pressing state, the control panel (300) controls the motor (504) to work.
  8. 8. The electric automobile charging pile with efficient heat dissipation according to claim 2 is characterized in that the position recognition mechanism (700) comprises a U-shaped mounting seat (701), a round limiting block (702) and a rectangular movable plate (703), wherein the U-shaped mounting seat (701) is fixedly arranged on the front side of the rectangular frame A (201), the round limiting block (702) is slidably arranged on the U-shaped mounting seat (701), and the rectangular movable plate (703) is fixedly arranged outside the round limiting block (702).
  9. 9. The electric vehicle charging pile with efficient heat dissipation according to claim 8, wherein the position recognition mechanism (700) further comprises a position recognition frame (704) and sponge protection sleeves (705), the position recognition frame (704) is fixedly arranged on the front side of the rectangular movable plate (703), two sponge protection sleeves (705) are arranged in total, and the two sponge protection sleeves (705) are fixedly arranged at two ends of the position recognition frame (704).
  10. 10. The electric vehicle charging pile with efficient heat dissipation according to claim 9, wherein the position recognition mechanism (700) further comprises a coil spring B (706) and a radar ranging probe (707), wherein the coil spring B (706) is provided with two coil springs, the two coil springs B (706) are mounted inside the rectangular movable plate (703) and rear ends of the two coil springs B (706) are in contact with the U-shaped mounting seat (701), the radar ranging probe (707) is provided with two in total, the two radar ranging probe (707) are fixedly mounted inside the rectangular movable plate (703) and the two radar ranging probe (707) are further electrically connected with the control panel (300), when the distance values detected by the two radar ranging probe (707) are within a set range, the charging gun on the electric vehicle charging pile body (100) is switched to an on state, and the buzzer in the control panel (300) works, and when the distance value detected by one or the two radar ranging probe (707) is/are not within the set range, the charging gun (707) on the electric vehicle charging pile body is in the off state.

Description

Electric automobile fills electric pile of high-efficient heat dissipation Technical Field The invention relates to the technical field of electric vehicle charging piles, in particular to an electric vehicle charging pile with efficient heat dissipation. Background The electric automobile charging pile is an infrastructure for supplying electric energy for new energy vehicles, and is mainly divided into two types of alternating current slow charging and direct current fast charging, and along with popularization of new energy vehicles, the charging pile is developed towards the high-power, intelligent and sharing directions and is combined with photovoltaic energy storage to construct a green energy ecological system. The electric automobile fills electric pile that uses at present still has following not enough: 1. When the electric automobile charging pile dissipates heat, the fan generally dissipates heat only at a local position and cannot sufficiently dissipate heat outside the electric automobile charging pile, so that the heat dissipation effect of the electric automobile charging pile is reduced; 2. When the electric automobile is greatly inclined after parking, the electric automobile can be normally charged, workers cannot be prompted to adjust the electric automobile neatly, and use of other people is easy to influence. Therefore, we propose an electric car charging pile with high-efficiency heat dissipation to solve the above problems. Disclosure of Invention The invention aims to make up the defects of the prior art, provides an electric vehicle charging pile capable of efficiently radiating, external air enters a rectangular frame B and a rectangular movable cover through a circle of rectangular air inlet holes and is discharged through eight arc-shaped air outlet holes, so that a sufficient radiating effect is achieved on the outside of a main body of the electric vehicle charging pile, the electric vehicle charging pile is beneficial to complete discharge of heat, and the electric vehicle charging pile can be normally charged only when a vehicle is stopped at a specified position and two radar ranging probes are qualified in detection, so that the phenomenon that the electric vehicle is stopped and placed in disorder and other people are influenced is avoided, and the problems that a fan generally only can radiate heat at a local position and can not prompt workers to adjust the electric vehicle in order are solved. The invention provides a technical scheme for solving the technical problems, which comprises an electric automobile charging pile body, an adjustable protection mechanism, a control panel, an electric telescopic rod, a movable heat dissipation mechanism, a control mechanism and a position identification mechanism, wherein the electric automobile charging pile body is capable of efficiently dissipating heat; the electric telescopic rods are provided with four electric telescopic rods, the four electric telescopic rods are fixedly arranged on the electric vehicle charging pile body, and the four electric telescopic rods are electrically connected with the control panel; The movable heat dissipation mechanism is arranged on output shafts of the four electric telescopic rods and used for cooling the electric vehicle charging pile main body, the control mechanism is arranged on the adjustable protection mechanism and used for detecting the temperature outside the electric vehicle charging pile main body and controlling the movable heat dissipation mechanism, and the position identification mechanism is arranged on the front side of the adjustable protection mechanism and used for identifying the parking position of the electric vehicle. Further, the adjustable protection mechanism comprises a rectangular frame A, a rectangular frame B and round mounting shafts, wherein the rectangular frame A is fixedly arranged on an electric vehicle charging pile main body, the rectangular frame B is slidably arranged in the rectangular frame A, four round mounting shafts are arranged in total, and the four round mounting shafts are fixedly arranged on the rectangular frame A. Further, a row of heat dissipation slots are respectively formed in the front side and the rear side of the rectangular frame A and the rectangular frame B, four arc-shaped exhaust holes are respectively formed in the bottoms of the rectangular frame A and the rectangular frame B, and when the four arc-shaped exhaust holes on the rectangular frame A are aligned with the four arc-shaped exhaust holes on the rectangular frame B, two rows of heat dissipation slots on the rectangular frame A are staggered with the two rows of heat dissipation slots on the rectangular frame B. The adjustable protection mechanism further comprises two rectangular connecting plates and four spiral springs A, wherein the two rectangular connecting plates are fixedly arranged on the left side and the right side of the rectangular frame B and are in s