CN111572391A

CN111572391A - Multifunctional charging pile

Info

Publication number: CN111572391A
Application number: CN202010479534.2A
Authority: CN
Inventors: 高志武
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-29
Filing date: 2020-05-29
Publication date: 2020-08-25

Abstract

The invention discloses a multifunctional charging pile, which structurally comprises a charging pile, a charging gun, a suspension block, a base and a control panel, wherein the charging gun is electrically connected with the charging pile, the suspension block is welded with the charging pile, the control panel is fixedly embedded and connected with the charging pile, the base is arranged at the bottom of the charging pile, by introducing the force of vibration, the stress plate can swing along the direction of the vibration along the buffer mechanism under the coordination of the stress plate, thereby effectively buffering and consuming the vibration force led in from the outside, when the stress plate swings due to large-amplitude vibration, the lower pressure plate on the stress plate can buffer the force of the stress plate impacting the buffer mechanism, when the stress plate impacts the side surface of the buffer mechanism, the lower pressing plate can slide and contract downwards along the frame body through the reverse thrust generated by the side surface of the buffer mechanism to the lower pressing plate, thereby make the piece that resets can cushion the reaction force that the atress board striking buffer gear side produced.

Description

Multifunctional charging pile

Technical Field

The invention relates to the field of charging piles, in particular to a multifunctional charging pile.

Background

The utility model discloses a multifunctional automobile fills electric pile mainly used carries out the equipment that promptly charges to trip electric automobile, can charge mouthful butt joint through charging the rifle with electric automobile to inside making the rifle that charges can will fill electric pile inside current input car battery through the conductor wire, greatly made things convenient for electric automobile's outdoor trip, based on the above-mentioned description the inventor discovers that present multifunctional charging pile mainly has following not enough, for example:

because the inside part and the circuit arrangement of multi-function vehicle charging pile are comparatively accurate, and multi-function vehicle charging pile installs usually in the road both sides and makes things convenient for electric automobile to carry out emergent charging, if multi-function vehicle charging pile installs in large-scale truck through the many road both sides of number of times, then can make inside part and circuit take place the phenomenon of skew because of the vibration that large truck produced through ground for a long time.

Disclosure of Invention

Aiming at the problems, the invention provides a multifunctional charging pile.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a multi-functional electric pile that fills, its structure is including filling electric pile, the rifle that charges, hanging piece, base, control panel, the rifle that charges with fill electric pile electricity and be connected, hang the piece and weld with the stake that charges mutually, control panel with fill electric pile and inlay solid and be connected, the pedestal mounting is in the bottom position of filling electric pile.

As a further optimization of the invention, the base comprises a buffer mechanism, an outer frame, an elastic strip and a stress plate, the buffer mechanism is fixedly connected with the outer frame, the elastic strip is arranged between the outer frame and the stress plate, the stress plate is hinged with the buffer mechanism, and the stress plate is in an arc structure.

As a further optimization of the invention, the buffer mechanism comprises a combination plate, an elastic strip, a linkage plate, a guide frame, a rebound strip, a linking ball and a sliding block, wherein the combination plate is in clearance fit with the linkage plate, the elastic strip is arranged inside the linkage plate, the guide frame and the linkage plate are of an integrated structure, the rebound strip is arranged at the outer surface position of the sliding block, the linking ball is fixedly embedded between the two sliding blocks, the sliding block is movably clamped with the guide frame, and the combination plate is connected with the bottom of the mechanism.

As a further optimization of the invention, the connecting ball comprises a block body, a contraction block, an opening plate, a rebound ring and a bearing block, wherein the contraction block is movably clamped with the block body, the opening plate is hinged with the bearing block through the rebound ring, the bearing block and the block body are of an integrated structure, and the opening plate is provided with four opening plates, two opening plates are uniformly distributed on the left side and the right side of the bearing block in a group and are symmetrical.

As a further optimization of the invention, the stress plate comprises a lower pressing plate, a reset block and a frame body, wherein the lower pressing plate is movably clamped with the frame body, the reset block is arranged between the lower pressing plate and the frame body, and the reset block is made of polyether sponge with high density.

As a further optimization of the invention, the lower pressing plate comprises a touch reduction surface and a plate surface, the touch reduction surface and the plate surface are of an integrated structure, and the touch reduction surface is of an arc concave surface structure.

As a further optimization of the invention, the touch reducing surface comprises a contact point, an elastic membrane, a shell and a boosting strip, wherein the contact point is arranged on the upper surface of the elastic membrane, the elastic membrane is fixedly embedded with the shell, the boosting strip is hinged with the contact point, and the elastic membrane is made of natural latex with strong elasticity.

The invention has the following beneficial effects:

1. when the outside vibration of filling electric pile is led in through the base, through the power of leading-in vibration, can make the direction that the atress board followed the vibration under the cooperation of stress board to effectual vibration power to the outside leading-in cushions the consumption, has avoided the easy phenomenon because of the vibration emergence skew of the internals and the circuit of filling electric pile.

2. When the stress plate encounters large-amplitude vibration to swing, the lower pressing plate on the stress plate can buffer the force generated by the stress plate impacting the buffer mechanism, when the stress plate impacts the side face of the buffer mechanism, the side face of the buffer mechanism can generate reverse thrust to the lower pressing plate, the lower pressing plate can slide downwards along the frame body to shrink, and therefore the reset block can buffer the reverse thrust generated by the side face of the stress plate impacting the buffer mechanism.

Drawings

Fig. 1 is a schematic structural diagram of a multifunctional charging pile according to the present invention.

FIG. 2 is a front half-section structural diagram of the base of the present invention.

FIG. 3 is a front half-sectional view of the buffering mechanism of the present invention.

FIG. 4 is a schematic structural view of a front cross section of a connection ball according to the present invention.

Fig. 5 is a schematic structural view of a front half section of the stress plate of the invention.

FIG. 6 is a front half-section schematic view of the lower platen according to the present invention.

FIG. 7 is a schematic structural diagram of a front cross-section of a contact reducing surface according to the present invention.

In the figure: charging pile-1, charging gun-2, hanging block-3, base-4, control panel-5, buffer mechanism-41, outer frame-42, elastic strip-43, stress plate-44, combination plate-a 1, elastic strip-a 2, linkage plate-a 3, guide frame-a 4, rebound strip-a 5, engaging ball-a 6, sliding block-a 7, block-a 61, contraction block-a 62, opening plate-a 63, rebound ring-a 64, receiving block-a 65, pressing plate-b 1, reset block-b 2, frame-b 3, contact reducing surface-b 11, plate-b 12, contact point-c 1, elastic film-c 2, shell-c 3 and boosting strip-c 4.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1-4:

the invention provides a multifunctional charging pile, which structurally comprises a charging pile 1, a charging gun 2, a suspension block 3, a base 4 and a control panel 5, wherein the charging gun 2 is electrically connected with the charging pile 1, the suspension block 3 is welded with the charging pile 1, the control panel 5 is fixedly embedded with the charging pile 1, and the base 4 is installed at the bottom of the charging pile 1.

The base 4 comprises a buffer mechanism 41, an outer frame 42, an elastic strip 43 and a stress plate 44, the buffer mechanism 41 is fixedly connected with the outer frame 42, the elastic strip 43 is installed between the outer frame 42 and the stress plate 44, the stress plate 44 is hinged with the buffer mechanism 41, the stress plate 44 is of an arc-shaped structure, and can swing along the stress plate 44 along with the vertical vibration generated from the outside through the cooperation of the elastic strip 43.

Wherein, the buffer mechanism 41 comprises a combination plate a1, an elastic strip a2, a linkage plate a3, a guide frame a4, a rebound strip a5, an engaging ball a6 and a sliding block a7, the combination board a1 is in clearance fit with the linkage board a3, an elastic strip a2 is arranged inside the linkage board a3, the guide frame a4 and the linkage plate a3 are of an integral structure, the resilient strip a5 is arranged at the position of the outer surface of the sliding block a7, the joint ball a6 is embedded between two sliding blocks a7, the sliding block a7 is movably clamped with the guide frame a4, the combination plate a1 is connected with the bottom of the mechanism, the slider a7 can be synchronously extended and contracted along the guide frame a4 by the external left and right vibration, therefore, the force of the left and right vibration introduced from the outside can be consumed, and the elastic strip a2 can synchronously slide along the coupling plate a1 along the direction of the vibration, so that the buffering effect of the mechanism on the external vibration can be further enhanced.

The engagement ball a6 comprises a block body a61, a contraction block a62, an opening plate a63, a rebound ring a64 and a receiving block a65, wherein the contraction block a62 is movably engaged with the block body a61, the opening plate a63 is hinged with the receiving block a65 through a rebound ring a64, the receiving block a65 and the block body a61 are in an integrated structure, four opening plates a63 are arranged, the two opening plates are uniformly distributed on the left side and the right side of the receiving block a65 in a symmetrical mode, inward thrust of an object on the contraction block a62 can enable the contraction block a62 to slide and contract inwards along the block body a61, and the contraction block a62 can push the opening plate a63 to unfold along the rebound ring a64, so that the contraction block a62 can be consumed and released by force.

The detailed use method and action of the embodiment are as follows:

in the invention, because the internal parts and the lines of the charging pile 1 are arranged precisely, and the charging pile 1 is usually arranged at two sides of a road to facilitate the emergency charging of the electric automobile, if the charging pile 1 is arranged at two sides of a road with a large number of times of passing of a large-sized truck, the internal parts and lines can deviate due to the vibration of the large-sized truck passing through the ground for a long time, the problems can be effectively solved through the matching of the stress plate 44 on the base 4 and the buffer mechanism 41, when the vibration generated by the large-sized truck outside the charging pile 1 is guided into the base 4 through the bottom surface, the stress plate 44 can swing along the direction of the vibration of the buffer mechanism 41 under the matching of a43 by guiding the force of vertical vibration, when the stress plate 44 swings to impact the side surface of the buffer mechanism 41, the force can be transmitted to the buffer mechanism 41, the combination plate a1 on the buffer mechanism 41 is fixedly connected with the bottom of the charging pile 1, so that the linkage plate a3 can slide along the combination plate a1 along the force transmitted by the impact of the force-bearing plate 44, the sliding block a7 can slide along the guide frame a4 along the force transmitted by the force-bearing plate 44, the buffer of the elastic strip a2 and the rebound strip a5 on the linkage plate a3 and the sliding block a7 is matched, the force transmitted by the force-bearing plate 44 can be consumed, so that the vibration force led from the outside can be effectively buffered and consumed, the phenomenon that the internal parts and the circuit of the charging pile 1 are easy to deviate due to vibration is avoided, when the sliding block a7 on one side slides inwards to the bottom along the guide frame a4, the impact force generated by the sliding block a7 on the other side on the ball a6 can make the contraction block a62 on the ball a6 slide along the block a61 to the middle, so that the contraction block a62 sliding to the middle part can push the opening plate 63 to swing and open, therefore, the impact force generated by the slide block a7 on the engaging ball a6 can be buffered, the impact of the slide block a7 on the engaging ball a6 is avoided, the engaging ball a6 is damaged for a long time, and the slide blocks a7 on the two sides cannot be engaged continuously.

Example 2

As shown in fig. 5-7:

the stress plate 44 comprises a lower pressing plate b1, a reset block b2 and a frame b3, wherein the lower pressing plate b1 is movably clamped with the frame b3, the reset block b2 is installed between a lower pressing plate b1 and the frame b3, the reset block b2 is made of polyether sponge with high density, when the frame b3 swings along with a vibrating arrow key, the reset block b2 can buffer the lower pressing plate b1 impacting the surface of an object, and the situation that the lower pressing plate b1 is damaged after long-term impact is avoided.

The lower pressing plate b1 comprises a contact reduction surface b11 and a plate surface b12, the contact reduction surface b11 and the plate surface b12 are of an integrated structure, and the contact reduction surface b11 is of an arc concave structure, so that the plate surface b12 can be prevented from being attached to the surface of an object due to static electricity.

The contact reducing surface b11 comprises a contact point c1, an elastic membrane c2, an outer shell c3 and a boosting strip c4, the contact point c1 is installed at the upper surface position of the elastic membrane c2, the elastic membrane c2 is fixedly connected with the outer shell c3, the boosting strip c4 is hinged to the contact point c1, the elastic membrane c2 is made of natural latex with strong elasticity, the contact point c1 can push the elastic membrane c2 to deform and protrude towards the inside of the outer shell c3 through extrusion force generated by an object on the contact point c1, and when the outer shell c3 loses external force to push, the outer shell c3 can be quickly pushed to be separated from the surface of the object through the elastic membrane c 2.

The detailed use method and action of the embodiment are as follows:

in the invention, because the stress plate 44 can impact the buffer mechanism 41 to transmit force when swinging, if the amplitude of vibration is large, the stress plate 44 can be damaged and broken when impacting, so that the stress plate 44 can not work normally, the problem can be effectively solved through the matching of the lower pressing plate b1 on the stress plate 44 and the reset block b2, when the stress plate 44 impacts the side surface of the buffer mechanism 41, the lower pressing plate b1 can slide and contract downwards along the frame b3 through the counter thrust generated by the side surface of the buffer mechanism 41 to the lower pressing plate b1, so that the reset block b2 can buffer the lower pressing plate b1 which slides and contracts downwards, so that the reset block b2 can buffer the counter thrust transmitted from the buffer mechanism 41 to the stress plate 44, and the situation that the stress plate 44 can be damaged and broken due to long-term impact on the side surface of the buffer mechanism 41 can be effectively avoided, the contact area between the lower pressing plate b1 and the side surface of the buffer mechanism 41 can be reduced through the contact reducing surface b11, the condition that the lower pressing plate b1 is attached to the side edge of the buffer mechanism 41 when static electricity generated inside the charging pile 1 stays on the buffer mechanism 41 during operation is avoided, the contact point c1 can push the elastic film c2 to deform and protrude towards the inside of the shell c3 through the reverse thrust generated by the side surface of the buffer mechanism 41 to the contact point c1 on the contact reducing surface b11, so that the boosting strip c4 can be unfolded along the bottom of the inner wall of the shell c3, when the stress plate 44 loses external thrust, the elastic film c2 is matched with the boosting strip c4 to be quickly reset, the contact point c1 can generate reverse thrust to the side surface of the buffer mechanism 41, so that the lower pressing plate b1 can be quickly separated from the side surface of the buffer mechanism 41, and the static electricity on the buffer mechanism 41 is effectively avoided from being too large, the lower platen b1 is not easily separated from the side surface of the shock absorbing mechanism 41.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a multi-functional electric pile that fills, its structure is including filling electric pile (1), rifle (2) charge, hang piece (3), base (4), control panel (5), rifle (2) that charges with fill electric pile (1) electricity and be connected, hang piece (3) and fill electric pile (1) and weld mutually, control panel (5) with fill electric pile (1) and inlay solid being connected its characterized in that: the base (4) is installed at the bottom of the charging pile (1).

2. The multifunctional charging pile of claim 1, wherein: the base (4) comprises a buffer mechanism (41), an outer frame (42), an elastic strip (43) and a stress plate (44), the buffer mechanism (41) is fixedly connected with the outer frame (42), the elastic strip (43) is installed between the outer frame (42) and the stress plate (44), and the stress plate (44) is hinged with the buffer mechanism (41).

3. The multifunctional charging pile of claim 2, characterized in that: buffer gear (41) include combination board (a1), elastic strip (a2), linkage board (a3), guide frame (a4), resilience strip (a5), linking ball (a6), slider (a7), combination board (a1) and linkage board (a3) clearance fit, linkage board (a3) inside is equipped with elastic strip (a2), guide frame (a4) and linkage board (a3) are integrated structure, resilience strip (a5) is installed in the surface position of slider (a7), it inlays between two sliders (a7) to link ball (a6), slider (a7) and guide frame (a4) activity block.

4. The multifunctional charging pile of claim 3, wherein: the joint ball (a6) comprises a block body (a61), a contraction block (a62), an opening plate (a63), a rebound ring (a64) and a bearing block (a65), wherein the contraction block (a62) is movably clamped with the block body (a61), the opening plate (a63) is hinged with the bearing block (a65) through the rebound ring (a64), and the bearing block (a65) and the block body (a61) are of an integrated structure.

5. The multifunctional charging pile of claim 2, characterized in that: the stress plate (44) comprises a lower pressing plate (b1), a reset block (b2) and a frame body (b3), wherein the lower pressing plate (b1) is movably clamped with the frame body (b3), and the reset block (b2) is installed between the lower pressing plate (b1) and the frame body (b 3).

6. The multifunctional charging pile of claim 5, wherein: the lower pressing plate (b1) comprises a contact reduction surface (b11) and a plate surface (b12), and the contact reduction surface (b11) and the plate surface (b12) are of an integrated structure.

7. The multifunctional charging pile of claim 6, characterized in that: the contact reducing surface (b11) comprises a contact point (c1), an elastic film (c2), a shell (c3) and a boosting strip (c4), wherein the contact point (c1) is installed on the upper surface of the elastic film (c2), the elastic film (c2) is fixedly connected with the shell (c3), and the boosting strip (c4) is hinged with the contact point (c 1).