JP2019135904A - Improved new energy charging pile device - Google Patents

Abstract

To disclose an improved new energy charging pile device.SOLUTION: A charging pile device includes: a charging pile; and a charging end which is connected with a new energy automobile, in which a base is integrally installed on the bottom of the charging pile, a rain-proof shelf is fixedly installed to an apex part of the charging pile, an installed type cavity is installed in a front side end face of the charging pile, an electric communication structure is installed in the installed type cavity, a circular head is fixedly installed at a rear side end of the electric communication structure, a vertically extending steering axis is fixedly installed in the circular head, an apex extension end of the steering axis is engaged and connected with an inner apex wall of the installed type cavity by rotation, a bottom extension end of the steering axis is engaged and connected with a first motor by power, an outer surface of the first motor is fixedly installed in an inner bottom wall of the installed type cavity, an insertion cavity is installed in a front side end face of the electric communication structure, and a first chute is installed in the electric communication structure on a rear side of the insertion cavity.SELECTED DRAWING: Figure 1

Description

The present invention takes up the field of new energy automobile technology, specifically an improved new energy charging pile device.

New energy vehicles are widely used to gradually replace traditional vehicles with many advantages such as energy saving and pollution free. Charging pile is an incidental facility for new energy vehicles and is a carrier for charging new energy vehicles, but the traditional charging pile setting mode is single and when charging end and charging end are inserted during charging The frictional force of the battery keeps it from moving, and the charging end may be accidentally touched or the charging line may be pulled off, causing the charging end to drop off. In this case, the electrically conductive sheet in the charging end is generally installed outside, and an electric shock is likely to occur after a person inadvertently touches, and there is a large hidden safety problem.

Chinese Patent Application No. 104253449

  The object of the present invention is to provide an improved new energy charging pile device, which can solve the problems in the above current technology.

An improved new energy charging pile device according to the present invention includes a charging pile and a charging end connected to a new energy vehicle, a base is integrally installed at the bottom of the charging pile, and a rainproof shelf at the top of the charging pile. Is installed in the front end face of the charging pile, an electrical communication structure is installed in the installation cavity, and an arc head is fixed at the rear end of the electrical communication structure, and the arc A razor removing shaft extending vertically is fixed in the head, a top extending end of the swag removing shaft is rotationally engaged with an inner top wall of the installation cavity, and a bottom extending end of the swag removing shaft is connected to a first extending end. An outer surface of the first motor is fixed in an inner bottom wall of the installation cavity, an insertion cavity is installed in a front end surface of the electrical communication structure, and the insertion cavity On the back side A first screw is installed in the electric communication structure, a first slide block is smoothly engaged and connected in the first chute, and a first screw is extended and installed in the first slide block. A bolt is engaged and connected, a front extension end of the first screw bolt is engaged and connected with a front inner wall of the first chute, and a rear extension end of the first screw bolt is engaged with a second motor by power. The second motor is connected and the second motor has an outer surface fixed in the rear inner wall of the first chute, and is extended in the front-rear direction in the electric communication structure on the left and right sides of the insertion cavity. The chute is installed symmetrically, the rear extended end of the second chute is installed in communication with the first chute, a third chute is installed on the side of the second chute away from the insertion cavity, A third slide block is smoothly engaged and connected in the chute, and a resilient sheet is crimped and connected in the third chute on the side away from the second chute of the third slide block. In each of the two chutes, a first slant chute that is installed in communication with the insertion cavity and the third chute is penetrated, and a slide bar that extends backward in the second chute is smoothly engaged. A second diagonal chute that is connected to the first diagonal chute is installed in the slide bar, and one end of the second diagonal chute passes through the first diagonal chute into the third chute. An oblique slide block to be inserted and fixedly engaged with the third slide block is smoothly engaged and connected, and the other end of the oblique slide block is connected The light display device is inserted into the insertion cavity through the first oblique chute and is provided at the charging end, and the light display device includes a sinking cavity and a strobe bulb.

A further technical plan, a blend stop is fixed on the rear inner wall of the installation cavity.

According to a further technical plan, a power supply sheet is fixed on the inner wall of the rear side of the insertion cavity.

According to a further technical plan, an insertion shaft that is engaged with and connected to the insertion cavity is fixed to a rear end of the charging end, and a locked groove that is engaged and connected to the oblique slide block is formed on both left and right end surfaces of the insertion shaft. An oblique slide head is fixedly installed at the rear end of the insertion shaft, and an electrical communication groove that is engaged with and connected to the power supply sheet is installed in the rear end face of the oblique slide head.

A further technical plan is that a lifting structure is installed in the inner bottom wall of the installation cavity on the right side of the squeezing shaft, and the lifting structure is in the bottom end surface of the electrical communication structure on the front side of the scouring shaft. A keyhole that is engaged and connected to the structure is installed, and a lifting groove in which the lifting structure is installed in the inner bottom wall of the installation cavity, and a lifting arm that is smoothly engaged and installed in the pushing groove A second screw bolt that extends downward is engaged and connected to the bottom end surface of the lifting arm, and a bottom extended end of the second screw bolt is engaged and connected to a third motor by power. The outer surface of the third motor is fixed in the inner bottom wall of the push groove, and the guide slide grooves are symmetrically installed on the right and left inner walls of the push groove, and the lifting arm is placed in the guide slide groove. Fixed engagement connected gas De slide block is smooth engagement connection.

In a further technical plan, the sinking cavity is installed in the top end surface of the charging end, and the strobe bulb is mounted in the sinking cavity.

The beneficial effects of the present invention are as follows: the structure of the present invention is simple, the operation is convenient, an insertion cavity is installed in the front end face of the electrical communication structure, and the insertion cavity is located behind the insertion cavity. A first screw bolt is installed in the electric communication structure, the first slide block is smoothly engaged and connected in the first chute, and is extended and installed in the first slide block. Are engaged and connected, the front extension end of the first screw bolt is engaged with the front inner wall of the first chute by rotation, and the rear extension end of the first screw bolt is engaged by power with the second motor. A second chute that is connected, the outer surface of the second motor is fixed in the rear inner wall of the first chute, and is extended and installed in the electrical communication structure on the left and right sides of the insertion cavity. Is symmetrical A rear extending end of the second chute is installed in communication with the first chute, a third chute is installed on a side of the second chute away from the insertion cavity, and a second chute is installed in the third chute. Three slide blocks are smoothly engaged and connected, and a resilient sheet is crimped and connected in the third chute on the side away from the second chute of the third slide block. The first oblique chute that is installed in communication with the insertion cavity and the third chute is penetrated, and a slide bar that is installed to extend rearward in the second chute is smoothly engaged and connected, A second diagonal chute that communicates with the first diagonal chute is installed in the slide bar, and one end of the second diagonal chute passes through the first diagonal chute. An oblique slide block inserted into the third chute and fixedly engaged with the third slide block is smoothly engaged and connected, and the other end of the oblique slide block is inserted through the first oblique chute. Inserting into the cavity, this realizes automatic control of the engagement and connection work of the charging end and the electrical communication structure, and at the same time realizes automatic control of storage and locking work of the electrical communication structure, charging safety and charging Significantly improve communication stability.

FIG. 1 is a schematic structural view of an improved new energy charging pile device of the present invention. FIG. 2 is a schematic structural diagram in the direction of the arrow in FIG. FIG. 3 is a schematic diagram of the entire structure of the charging end according to the present invention. FIG. 4 is a bottom view of the electrical communication structure of the present invention. FIG. 5 is a schematic diagram of the internal structure of the lifting structure of the present invention.

Hereinafter, the present invention will be described in detail with reference to FIGS.

As shown in FIGS. 1 to 5, an improved new energy charging pile device according to an embodiment of the present invention includes a charging pile 5 and a charging end 7 connected to a new energy vehicle, and a base 4 at the bottom of the charging pile 5. Are installed integrally, a rainproof shelf 500 is fixed to the top of the charging pile 5, an installation cavity 51 is installed in the front end face of the charging pile 5, and an electrical communication structure 6 is installed in the installation cavity 51. Is installed, a circular arc head 61 is fixed to the rear end of the electric communication structure 6, and a cradling shaft 610 extending vertically is fixed in the circular arc head 61, and The end is engaged and connected to the inner top wall of the installation cavity 51 by rotation, the bottom extension end of the razor removing shaft 610 is engaged and connected to the first motor 611 by power, and the outer surface of the first motor 611 is It is fixed in the inner bottom wall of the installation cavity 51, and is inserted into the front end face of the electrical communication structure 6. A cavity 62 is installed, a first chute 63 is installed in the electrical communication structure 6 on the rear side of the insertion cavity 62, and a first slide block 631 is smoothly engaged and connected in the first chute 63. The first screw bolt 632 extending and installed in the first slide block 631 is engaged and connected, and the front extended end of the first screw bolt 632 is rotated with the front inner wall of the first chute 63. Engaged, and the rear extension end of the first screw bolt 632 is engaged and connected to the second motor 633 by power, and the outer surface of the second motor 633 is in the rear inner wall of the first chute 63. A second chute 66 that is fixedly installed and extends in the front-rear direction in the electrical communication structure 6 on both the left and right sides of the insertion cavity 62 is symmetrically installed, and the rearward extension end of the second chute 66 is the first extension end. Installed in communication with one chute 63, before A third chute 64 is installed on the side away from the insertion cavity 62 of the second chute 66, and a third slide block 641 is smoothly engaged and connected in the third chute 64. In the third chute 64 on the side away from the second chute 66, a resilient sheet 642 is crimped and connected, and in the second chute 66, the insertion cavity 62 and the third chute 64 are respectively connected. The first oblique chute 65 installed in a communicating manner is penetrated, and a slide bar 661 extending and installed to the rear side in the second chute 66 is smoothly engaged and connected. A second oblique chute 662 communicating with the one oblique chute 65 is installed, and one end of the second oblique chute 662 is inserted into the third chute 64 through the first oblique chute 65 and the third shoe. An oblique slide block 643 fixedly engaged and connected to the id block 641 is smoothly engaged and connected, and the other end of the oblique slide block 643 is inserted into the insertion cavity 62 through the first oblique chute 65, and A light display device is provided at the charging end 7, and the light display device includes a sink cavity 78 and a strobe bulb 79.

As a useful example, a blend stop 510 is secured to the rear inner wall of the installation cavity 51.

As a useful example, a power supply sheet is fixed to the rear inner wall of the insertion cavity 62.

As shown in a useful example, an insertion shaft 71 engaged with and connected to the insertion cavity 62 is fixed to the rear end of the charging end 7, and the oblique slide block 643 is mounted on both left and right end surfaces of the insertion shaft 71. A locked groove 711 that is engaged and connected is installed symmetrically, an oblique slide head 712 is fixed to the rear end of the insertion shaft 71, and the power supply sheet is placed in the rear end face of the oblique slide head 712. An electrical communication groove 713 to be engaged and connected is installed, thereby providing convenience for quick gable connection work and at the same time improving stability of the gable connection.

As a useful example, a lifting structure 511 is installed in the inner bottom wall of the installation cavity 51 on the right side of the squeezing shaft 610, and the electrical communication structure 6 on the front side of the scouring shaft 610 is provided. A keyhole 67 that is engaged with and connected to the lifting structure 511 is installed in the bottom end surface of the bottom of the extrusion groove 5110 in which the lifting structure 511 is installed in the inner bottom wall of the installation cavity 51, and the extrusion A lifting arm 5111 that is smoothly engaged and connected in the groove 5110 is included, and a second screw bolt 5114 that extends downward is engaged and connected to the bottom end surface of the lifting arm 5111, and the second The bottom extension end of the screw bolt 5114 is engaged and connected to the third motor 5115 by power, and the outer surface of the third motor 5115 is fixed in the inner bottom wall of the extrusion groove 5110. Guide slide grooves 5112 are symmetrically installed on the inner walls on both sides, and the guide The lifting guide slide block 5113 to be fixed engagement connection with the arm 5111 into a ride groove 5112 is smooth engaging contact, thereby controlling the storage lock work automatically.

As a useful example, the sink cavity 78 is installed in the top end face of the charging end, the strobe bulb 79 is mounted in the sink cavity 78, and the strobe bulb 79 is connected to the charging end 7. It is used for warning of the electrical communication state.

In the initial state, the first slide block 631 is positioned at the foremost side of the first chute 63, and at this time, the first slide block 631 completely inserts the slide bar 661 into the second chute 66, and at the same time The second diagonal chute 662 is positioned at a position completely opposite to the first diagonal chute 65. At this time, the third slide block 641 receives pressure from the elastic sheet 642 and inserts the diagonal slide block 643 to the maximum extent. Insert the drive inside.

When charging, the charging end 7 is moved to the front side of the electrical communication structure 6, and at the same time, the insertion shaft 71 is moved to the relative position of the insertion cavity 62, and then the charging end 7 is moved to the rear side and gradually inserted into the insertion cavity 62. When the oblique slide head 712 is engaged and connected with the oblique slide block 643 in a crimping and smooth manner, the oblique slide block 643 causes the third slide block 641 to resist the pressure of the elastic sheet 642 and gradually increase. When inserted into the three chutes 64 and the insertion shaft 71 is completely inserted into the insertion cavity 62, at this time, the insertion shaft 71 drives the power supply sheet to fully engage and connect with the electric communication groove 713. The locked groove 711 is moved to the relative position of the oblique slide block 643. At this time, the third slide block 641 receives the pressure of the elastic sheet 642, and the third slide block 641 causes the oblique slide block 643 to move. Completely by inserting completed the engagement operation of connecting the charging terminals 7 into the locked groove 711, thereby realizing a lock charging connection work of new energy vehicles.

After the charging is completed, the second motor 633 drives the first screw bolt 632 to rotate, and the first screw bolt 632 gradually slides the first slide block 631 along the rear side of the first chute 63, At the same time, the slide bar 661 is gradually slid along the rear side of the second chute 66 by the first slide block 631, and at this time, the second diagonal chute 662 in the first slide block 631 is moved to the diagonal slide block 643. The diagonal slide block 643 drives the third slide block 641 to overcome the pressure of the elastic sheet 642 and gradually insert it into the third chute 64, and at the same time, the diagonal slide block 643 gradually At this time, it is only necessary to pull out the charging end 7 from the inside of the locked groove 711, and after pulling out the charging end 7, the first motor 611 rotates the scouring shaft 610, The rotating shaft 610 causes the arc head 61 and the electric communication structure 6 on the front side of the arc head 61 to rotate counterclockwise, and the electric communication structure 6 causes the charging end 7 to be gradually inserted into the installation cavity 51 for electric communication. When structure 6 comes into contact with blend stop 510, the first motor 611 stops rotating at this time, and at the same time, the keyhole 67 is positioned directly above the lifting structure 511. At this time, the second screw is driven by the third motor 5115. The bolt 5114 is rotated and the lifting arm 5111 is gradually slid along the top direction in the extrusion groove 5110 by the second screw bolt 5114, and at the same time, the top of the lifting arm 5111 is gradually inserted into the keyhole 67, As a result, the engagement connection work of the electrical communication structure 6 is completed, thereby preventing the occurrence of an electric shock accident for leakage to the outside.

An engineer in this field can clarify the case where it does not depart from the general spirit and idea of the present invention. Various modifications can be made to the above-described embodiments, and these modifications are all within the protection scope of the present invention. The protection scheme of the present invention should be based on the rights claim of the present invention.

The present invention takes up the field of new energy automobile technology, specifically an improved new energy charging pile device.

New energy vehicles are widely used to gradually replace traditional vehicles with many advantages such as energy saving and pollution free. Charging pile is an incidental facility for new energy vehicles and is a carrier for charging new energy vehicles, but the traditional charging pile setting mode is single and when charging end and charging end are inserted during charging The frictional force of the battery keeps it from moving, and the charging end may be accidentally touched or the charging line may be pulled off, causing the charging end to drop off. In this case, the electrically conductive sheet in the charging end is generally installed outside, and an electric shock is likely to occur after a person inadvertently touches, and there is a large hidden safety problem.

Chinese Patent Application No. 104253449

The object of the present invention is to provide an improved new energy charging pile device, which can solve the problems in the above current technology.

An improved new energy charging pile device according to the present invention includes a charging pile and a charging end installed in a new energy vehicle, wherein a base is integrally installed at the bottom of the charging pile, and a rainproof is provided at the top of the charging pile. A shelf is fixed, an installation cavity is installed in the front end face of the charging pile, an electrical communication structure is installed in the installation cavity, and an arc head is fixed to the rear end of the electrical communication structure, A razor shaft extending in the vertical direction is fixed in the arc head, and a top extending end of the razor shaft is rotationally engaged with an inner top wall of the installation cavity. The first motor is engaged and connected by power, the outer surface of the first motor is fixed in the inner bottom wall of the installation cavity, the insertion cavity is installed in the front end surface of the electrical communication structure, and the insertion Behind the cavity A first chute is installed in the electric communication structure, a first slide block is smoothly engaged and connected in the first chute, and a first chute is installed in the first slide block extending in the front-rear direction. A screw bolt is engaged and connected, a front extension end of the first screw bolt is engaged with a front inner wall of the first chute by rotation, and a rear extension end of the first screw bolt is driven by a second motor and power. Engaged and connected, the outer surface of the second motor is fixed in the rear inner wall of the first chute, and is extended and installed in the electrical communication structure on both the left and right sides of the insertion cavity. The two chutes are installed symmetrically, the rear extended end of the second shoot is installed in communication with the first chute, the third chute is installed on the side away from the insertion cavity of the second chute, A third slide block is smoothly engaged and connected in the three chutes, and an elastic sheet is crimped and connected in the third chute on the side away from the second chutes of the third slide block, In each of the second chutes, a first oblique chute that is installed in communication with the insertion cavity and the third chute is penetrated, and a slide bar that extends backward in the second chute is smooth. A second oblique chute that is engaged and connected and communicates with the first oblique chute is installed in the slide bar, and one end of the second oblique chute passes through the first oblique chute and enters the third chute. The other end of the oblique slide block is inserted into the third slide block and fixedly engaged with the third slide block. Is inserted into the insertion cavity through the first oblique chute, a light display device is provided at the charging end, and the light display device includes a sinking cavity and a strobe light bulb.

A further technical plan, a blend stop is fixed on the rear inner wall of the installation cavity.

According to a further technical plan, a power supply sheet is fixed on the inner wall of the rear side of the insertion cavity.

According to a further technical plan, an insertion shaft that is engaged with and connected to the insertion cavity is fixed to a rear end of the charging end, and a locked groove that is engaged and connected to the oblique slide block is formed on both left and right end surfaces of the insertion shaft. An oblique slide head is fixedly installed at the rear end of the insertion shaft, and an electrical communication groove that is engaged with and connected to the power supply sheet is installed in the rear end face of the oblique slide head.

A further technical plan is that a lifting structure is installed in the inner bottom wall of the installation cavity on the right side of the squeezing shaft, and the lifting structure is in the bottom end surface of the electrical communication structure on the front side of the scouring shaft. A keyhole that is engaged and connected to the structure is installed, and a lifting groove in which the lifting structure is installed in the inner bottom wall of the installation cavity, and a lifting arm that is smoothly engaged and installed in the pushing groove A second screw bolt that extends downward is engaged and connected to the bottom end surface of the lifting arm, and a bottom extended end of the second screw bolt is engaged and connected to a third motor by power. The outer surface of the third motor is fixed in the inner bottom wall of the push groove, and the guide slide grooves are symmetrically installed on the right and left inner walls of the push groove, and the lifting arm is placed in the guide slide groove. Fixed engagement connected gas De slide block is smooth engagement connection.

In a further technical plan, the sinking cavity is installed in the top end surface of the charging end, and the strobe bulb is mounted in the sinking cavity.

The beneficial effects of the present invention are as follows: the structure of the present invention is simple, the operation is convenient, an insertion cavity is installed in the front end face of the electrical communication structure, and the insertion cavity is located behind the insertion cavity. A first screw bolt is installed in the electric communication structure, the first slide block is smoothly engaged and connected in the first chute, and is extended and installed in the first slide block. Are engaged and connected, the front extension end of the first screw bolt is engaged with the front inner wall of the first chute by rotation, and the rear extension end of the first screw bolt is engaged by power with the second motor. A second chute that is connected, the outer surface of the second motor is fixed in the rear inner wall of the first chute, and is extended and installed in the electrical communication structure on the left and right sides of the insertion cavity. Is symmetrical A rear extending end of the second chute is installed in communication with the first chute, a third chute is installed on a side of the second chute away from the insertion cavity, and a second chute is installed in the third chute. Three slide blocks are smoothly engaged and connected, and a resilient sheet is crimped and connected in the third chute on the side away from the second chute of the third slide block. The first oblique chute that is installed in communication with the insertion cavity and the third chute is penetrated, and a slide bar that is installed to extend rearward in the second chute is smoothly engaged and connected, A second diagonal chute that communicates with the first diagonal chute is installed in the slide bar, and one end of the second diagonal chute passes through the first diagonal chute. An oblique slide block inserted into the third chute and fixedly engaged with the third slide block is smoothly engaged and connected, and the other end of the oblique slide block is inserted through the first oblique chute. Inserting into the cavity, this realizes automatic control of the engagement and connection work of the charging end and the electrical communication structure, and at the same time realizes automatic control of storage and locking work of the electrical communication structure, charging safety and charging Significantly improve communication stability.

FIG. 1 is a schematic structural view of an improved new energy charging pile device of the present invention. FIG. 2 is a schematic structural diagram in the direction of the arrow in FIG. FIG. 3 is a schematic diagram of the entire structure of the charging end according to the present invention. FIG. 4 is a bottom view of the electrical communication structure of the present invention. FIG. 5 is a schematic diagram of the internal structure of the lifting structure of the present invention.

Hereinafter, the present invention will be described in detail with reference to FIGS.

As shown in FIGS. 1 to 5, an improved new energy charging pile device according to an embodiment of the present invention includes a charging pile 5 and a charging end 7 installed in a new energy vehicle, and a base at the bottom of the charging pile 5. 4 is installed integrally, a rainproof shelf 500 is fixed to the top of the charging pile 5, an installation cavity 51 is installed in the front end face of the charging pile 5, and an electrical communication structure is installed in the installation cavity 51. 6 is installed, a circular arc head 61 is fixed to the rear end of the electrical communication structure 6, and a cradling shaft 610 extending in the vertical direction is fixed in the circular arc head 61. The extension end is rotationally engaged with the inner top wall of the installation cavity 51, the bottom extension end of the razor shaft 610 is engaged with the first motor 611, and the outer surface of the first motor 611 is Fixed in the inner bottom wall of the installation cavity 51, in the front end surface of the electrical communication structure 6 An insertion cavity 62 is installed, a first chute 63 is installed in the electrical communication structure 6 on the rear side of the insertion cavity 62, and a first slide block 631 is smoothly engaged in the first chute 63. A first screw bolt 632 that is connected and extended in the front-rear direction in the first slide block 631 is engaged and connected, and a front extension end of the first screw bolt 632 rotates with a front inner wall of the first chute 63 And the rear extension end of the first screw bolt 632 is engaged and connected to the second motor 633 by power, and the outer surface of the second motor 633 is located in the rear inner wall of the first chute 63. The second chute 66 is installed symmetrically in the electrical communication structure 6 on both the left and right sides of the insertion cavity 62, and the rear extended end of the second chute 66 is the rear extended end. Installed in communication with the first chute 63, A third chute 64 is installed on the side away from the insertion cavity 62 of the second chute 66, and a third slide block 641 is smoothly engaged and connected in the third chute 64, and the third slide block 641 In the third chute 64 on the side away from the second chute 66, a resilient sheet 642 is press-fitted and connected, and in the second chute 66, the insertion cavity 62 and the third chute 64 are respectively connected. The first oblique chute 65 that is installed in communication with the slide bar 661 is installed in a penetrating manner, and a slide bar 661 extending and installed rearward in the second chute 66 is smoothly engaged and connected. A second oblique chute 662 communicating with the first oblique chute 65 is installed, and one end of the second oblique chute 662 is inserted into the third chute 64 through the first oblique chute 65 and the third chute 652. An oblique slide block 643 fixedly engaged with the ride block 641 is smoothly engaged and connected, and the other end of the oblique slide block 643 is inserted into the insertion cavity 62 through the first oblique chute 65, A light display device is provided at the charging end 7, and the light display device includes a sink cavity 78 and a strobe bulb 79.

As a useful example, a blend stop 510 is secured to the rear inner wall of the installation cavity 51.

As a useful example, a power supply sheet is fixed to the rear inner wall of the insertion cavity 62.

As shown in a useful example, an insertion shaft 71 engaged with and connected to the insertion cavity 62 is fixed to the rear end of the charging end 7, and the oblique slide block 643 is mounted on both left and right end surfaces of the insertion shaft 71. A locked groove 711 that is engaged and connected is installed symmetrically, an oblique slide head 712 is fixed to the rear end of the insertion shaft 71, and the power supply sheet is placed in the rear end face of the oblique slide head 712. An electrical communication groove 713 to be engaged and connected is installed, thereby providing convenience for quick gable connection work and at the same time improving stability of the gable connection.

As a useful example, a lifting structure 511 is installed in the inner bottom wall of the installation cavity 51 on the right side of the squeezing shaft 610, and the electrical communication structure 6 on the front side of the scouring shaft 610 is provided. A keyhole 67 that is engaged with and connected to the lifting structure 511 is installed in the bottom end surface of the bottom of the extrusion groove 5110 in which the lifting structure 511 is installed in the inner bottom wall of the installation cavity 51, and the extrusion A lifting arm 5111 that is smoothly engaged and connected in the groove 5110 is included, and a second screw bolt 5114 that extends downward is engaged and connected to the bottom end surface of the lifting arm 5111, and the second The bottom extension end of the screw bolt 5114 is engaged and connected to the third motor 5115 by power, and the outer surface of the third motor 5115 is fixed in the inner bottom wall of the extrusion groove 5110. Guide slide grooves 5112 are symmetrically installed on the inner walls on both sides, and the guide The lifting guide slide block 5113 to be fixed engagement connection with the arm 5111 into a ride groove 5112 is smooth engaging contact, thereby controlling the storage lock work automatically.

As a useful example, the sink cavity 78 is installed in the top end face of the charging end, the strobe bulb 79 is mounted in the sink cavity 78, and the strobe bulb 79 is connected to the charging end 7. It is used for warning of the electrical communication state.

In the initial state, the first slide block 631 is positioned at the foremost side of the first chute 63, and at this time, the first slide block 631 completely inserts the slide bar 661 into the second chute 66, and at the same time The second diagonal chute 662 is positioned at a position completely opposite to the first diagonal chute 65. At this time, the third slide block 641 receives pressure from the elastic sheet 642 and inserts the diagonal slide block 643 to the maximum extent. Insert the drive inside.

When charging, the charging end 7 is moved to the front side of the electrical communication structure 6, and at the same time, the insertion shaft 71 is moved to the relative position of the insertion cavity 62, and then the charging end 7 is moved to the rear side and gradually inserted into the insertion cavity 62. When the oblique slide head 712 is engaged and connected with the oblique slide block 643 in a crimping and smooth manner, the oblique slide block 643 causes the third slide block 641 to resist the pressure of the elastic sheet 642 and gradually increase. When inserted into the three chutes 64 and the insertion shaft 71 is completely inserted into the insertion cavity 62, at this time, the insertion shaft 71 drives the power supply sheet to fully engage and connect with the electric communication groove 713. The locked groove 711 is moved to the relative position of the oblique slide block 643. At this time, the third slide block 641 receives the pressure of the elastic sheet 642, and the third slide block 641 causes the oblique slide block 643 to move. Completely by inserting completed the engagement operation of connecting the charging terminals 7 into the locked groove 711, thereby realizing a lock charging connection work of new energy vehicles.

After the charging is completed, the second motor 633 drives the first screw bolt 632 to rotate, and the first screw bolt 632 gradually slides the first slide block 631 along the rear side of the first chute 63, At the same time, the slide bar 661 is gradually slid along the rear side of the second chute 66 by the first slide block 631, and at this time, the second diagonal chute 662 in the first slide block 631 is moved to the diagonal slide block 643. The diagonal slide block 643 drives the third slide block 641 to overcome the pressure of the elastic sheet 642 and gradually insert it into the third chute 64, and at the same time, the diagonal slide block 643 gradually At this time, it is only necessary to pull out the charging end 7 from the inside of the locked groove 711, and after pulling out the charging end 7, the first motor 611 rotates the scouring shaft 610, The rotating shaft 610 causes the arc head 61 and the electric communication structure 6 on the front side of the arc head 61 to rotate counterclockwise, and the electric communication structure 6 causes the charging end 7 to be gradually inserted into the installation cavity 51 for electric communication. When structure 6 comes into contact with blend stop 510, the first motor 611 stops rotating at this time, and at the same time, the keyhole 67 is positioned directly above the lifting structure 511. At this time, the second screw is driven by the third motor 5115. The bolt 5114 is rotated and the lifting arm 5111 is gradually slid along the top direction in the extrusion groove 5110 by the second screw bolt 5114, and at the same time, the top of the lifting arm 5111 is gradually inserted into the keyhole 67, As a result, the engagement connection work of the electrical communication structure 6 is completed, thereby preventing the occurrence of an electric shock accident for leakage to the outside.

An engineer in this field can clarify the case where it does not depart from the general spirit and idea of the present invention. Various modifications can be made to the above-described embodiments, and these modifications are all within the protection scope of the present invention. The protection scheme of the present invention should be based on the rights claim of the present invention.

Claims (1)

The improved new energy charging pile device includes a charging pile and a charging end connected to a new energy vehicle, a base is integrally installed at the bottom of the charging pile, and a rainproof shelf is fixed at the top of the charging pile. An installation cavity is installed in the front end face of the charging pile, an electrical communication structure is installed in the installation cavity, an arc head is fixed to the rear end of the electrical communication structure, and the arc head And a top extension end of the stake removal shaft is engaged with the inner top wall of the installation cavity by rotation, and a bottom extension end of the sledge removal shaft is connected to the first motor. Engaged and connected by power, an outer surface of the first motor is fixed in an inner bottom wall of the installation cavity, an insertion cavity is installed in a front end surface of the electrical communication structure, and a rear side of the insertion cavity Said electric ream A first chute is installed in the structure, a first slide block is smoothly engaged and connected in the first chute, and a first screw bolt that is extended and installed in the first slide block is engaged. And the front extension end of the first screw bolt is engaged with the front inner wall of the first chute by rotation, and the rear extension end of the first screw bolt is engaged and connected by power to the second motor. The outer surface of the second motor is fixed in the rear inner wall of the first chute, and the second chute extended symmetrically in the electric communication structure on the left and right sides of the insertion cavity is symmetrical. And the rear extended end of the second chute is installed in communication with the first chute, a third chute is installed on the side of the second chute away from the insertion cavity, The third slide block is smoothly engaged and connected, and a resilient sheet is press-fitted and connected in the third chute on the side away from the second chute of the third slide block. A first oblique chute that is installed in communication with the insertion cavity and the third chute is installed therethrough, and a slide bar that is installed extending rearward in the second chute is smoothly engaged and connected. A second diagonal chute that communicates with the first diagonal chute is installed in the slide bar, and one end of the second diagonal chute is inserted into the third chute through the first diagonal chute and An oblique slide block fixedly engaged and connected to the third slide block is smoothly engaged and connected, and the other end of the oblique slide block is connected to the first oblique block. Inserted into the insertion cavity through a chute, a light display device is provided at the charging end, the light display device includes a sink cavity and a strobe light bulb, and a blend stop is fixed to a rear inner wall of the installation cavity; A power supply sheet is fixed to the rear inner wall of the insertion cavity, an insertion shaft that is engaged with and connected to the insertion cavity is fixed to a rear end of the charging end, and the oblique slide is formed on both left and right end surfaces of the insertion shaft. Locked grooves to be engaged and connected to the block are installed symmetrically, an oblique slide head is fixed to the rear end of the insertion shaft, and the power supply sheet is engaged and connected to the rear end surface of the oblique slide head. An electrical communication groove is installed, and a lifting structure is installed in the inner bottom wall of the installation cavity on the right side of the razor shaft, A keyhole that is engaged with and connected to the lifting structure is installed in the bottom end face of the electrical communication structure on the front side of the shaft, and the lifting structure is installed in the inner bottom wall of the installation cavity. An extrusion groove and a lifting arm that is smoothly engaged and installed in the extrusion groove, and a second screw bolt that extends downward is engaged and connected in the bottom end surface of the lifting arm, The bottom extension end of the second screw bolt is engaged and connected to the third motor by power, and the outer surface of the third motor is fixed in the inner bottom wall of the push groove, and is attached to the left and right inner walls of the push groove. A guide slide groove is installed symmetrically, a guide slide block fixedly engaged and connected to the lifting arm is smoothly engaged and connected in the guide slide groove, and the sinking cavity is in the top end surface of the charging end. Installed, The strobe bulb is mounted in the Kishizumi cavity.

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