CN114559841B - New energy automobile fills electric pile based on thing networking - Google Patents

Abstract

The invention relates to the field of charging piles, in particular to a new energy automobile charging pile based on the Internet of things, which comprises a chassis, wherein an upward bulge shell is arranged at the bottom of the chassis, an exhaust shell and an air inlet are arranged on the surface of the bulge shell, a filter disc is rotated on the bottom surface of the bulge shell, the exhaust shell, the air inlet and the filter disc are in staggered correspondence, an air pump is arranged in the chassis, an air inlet end of the air pump is connected with an air suction assembly through an air exhaust hose, a rotary valve is connected between the air outlet end of the air pump and the exhaust shell, and the rotary valve is connected with a rotating shaft of the filter disc.

Description

New energy automobile fills electric pile based on thing networking

Technical Field

The invention relates to the field of charging piles, in particular to a new energy automobile charging pile based on the Internet of things.

Background

Along with the continuous popularization of electric vehicles, facilities matched with the electric vehicles are also put into construction in a large quantity, wherein a charging pile is an important matched facility, and the Internet of things technology is used for the charging pile, so that charging service for the electric vehicles is greatly and conveniently carried out.

The charging pile can be divided into a public charging pile and a special charging pile according to the installation site, the public charging pile is a charging pile which is built in a public parking lot and combined with a parking berth to provide public charging service for social vehicles, the special charging pile is a charging pile which is built in an enterprise personal parking position and is used for personnel or individuals in the enterprise, and dust prevention measures are needed to be made when the heat dissipation of the charging pile is guaranteed.

The existing charging pile adopts fan equipment arranged inside, achieves inside and outside air replacement, achieves the purpose of heat dissipation, and greatly improves heat dissipation efficiency by arranging exhaust gaps on the surface of the equipment so as to enable the exhaust gaps to be too dispersed, so that high-efficiency dustproof effect is difficult to achieve, the failure rate of the equipment is increased, in addition, the existing charging pile adopts a filter screen for dust prevention, but after long-term use, more dust accumulated at a filtering part influences air circulation, and heat dissipation efficiency is reduced.

Disclosure of Invention

The invention aims to solve the following problems in the prior art: the existing charging pile adopts fan equipment arranged inside, achieves inside and outside air replacement, achieves the purpose of heat dissipation, and greatly improves heat dissipation efficiency by arranging exhaust gaps on the surface of the equipment so as to enable the exhaust gaps to be too dispersed, so that high-efficiency dustproof effect is difficult to achieve, the failure rate of the equipment is increased, in addition, the existing charging pile adopts a filter screen for dust prevention, but after long-term use, more dust accumulated at a filtering part influences air circulation, and heat dissipation efficiency is reduced.

In order to solve the problems in the prior art, the invention provides a new energy automobile charging pile based on the Internet of things, which comprises a case, wherein an upward bulge shell is arranged at the bottom of the case, an exhaust shell and an air inlet are arranged on the surface of the bulge shell, a filter disc rotates on the bottom surface of the filter disc, the exhaust shell, the air inlet and the filter disc are in staggered position, an air pump is arranged in the case, an air inlet end of the air pump is connected with an air suction assembly through an air suction hose, a rotary valve is connected between the air outlet end of the air pump and the exhaust shell, the rotary valve is connected with a rotating shaft of the filter disc, the case is matched with a case door to form a sealing structure, dust is prevented from entering the inside, the air pump is started to work, air with heat in the case is conducted to the air outlet shell through the air suction assembly to be discharged, air pressure balance is formed in the case through the air inlet, dust is removed and filtered by the filter disc, the dust is accumulated on the outer surface of the filter disc, the air flow discharged by the air pump acts on the rotary valve, the filter disc is driven to rotate, the part with dust is gradually rotated to the lower part of the exhaust shell, and the dust is cleaned outside the filter disc through the air discharged from the air outlet shell.

Preferably, the rotary valve comprises a round shell, the round shell is sealed at the center of the top of the capacity-expanding shell, a rotary shaft of the filter disc penetrates into the round shell to be fixedly provided with a rolling wheel, the edge of the rolling wheel is in clearance fit with the inner wall of the round shell, an air inlet pipe is connected with the air exhaust end of the air pump in the tangential direction, the air exhaust shell is connected with the edge of the round shell through an air outlet pipe, air exhausted by the air pump enters the round shell along the tangential direction through the air inlet pipe, the air impacts the surface of the rolling wheel to enable the rolling wheel to rotate, and the air in the round shell is guided into the air exhaust shell through the air outlet pipe to be exhausted.

Preferably, the filter plate comprises a filter plate, the filter plate is in a circular shape, the filter plate rotates at the bottom of the expansion shell, the bottom surface of the filter plate is sequentially provided with air guide rings from the center to the outside, gaps guiding the edges of the filter plate are formed between the air guide rings, the filter plate is used for filtering dust in air, and the inclined channel formed by the air guide rings is used for separating inlet and outlet air flows of the exhaust shell and the air inlet, so that heat is prevented from following air circulation conduction, and dust secondary absorption at the lower part of the air inlet is reduced.

Preferably, the exhaust shell and the air inlet are symmetrically arranged at two sides of the rotation position of the filter plate, and the air inlet and the air outlet are separated to the greatest extent.

Preferably, the subassembly of breathing in includes U type frame, parallel arrangement is a plurality of violently manage between the U type frame, violently manage both ends and U type frame horizontal sliding connection, violently the bottom of managing is fixed with the breathing pipe, the surface equidistance of breathing pipe sets up a plurality of suction holes, the breathing pipe passes through air guide hose intercommunication, air guide hose and exhaust hose intercommunication, a plurality of parallelly sliding violently manage along U type frame to one side slide pile up for open space convenience and install the equipment in the quick-witted incasement, maintain, when violently managing evenly to expand, make breathing pipe evenly distributed, form the face of breathing in of even array, be used for covering the part position that generates heat, in the accurate, the efficient heat with the part that generates is inhaled the breathing pipe, again through the conduction of air guide hose to exhaust hose in the exhaust hose discharge.

Preferably, the bottom of each horizontal pipe is fixed with two parallel air suction pipes, the two air suction pipes at the bottom of each horizontal pipe are respectively connected with two air guide hoses, the two air guide hoses are connected with adjusting components, the air discharge hoses are connected with the adjusting components, the two air guide hoses are connected with two groups of air suction pipes of uniform arrays, and one group of air suction arrays can be controlled to work or two groups of air suction arrays can work simultaneously through the adjusting components, so that the adjustment of heat dissipation intensity is realized.

Preferably, the adjusting part comprises an adjusting cylinder, the adjusting cylinder is fixedly connected with the U-shaped frame, two air guide hoses are communicated with the side face of the adjusting cylinder in a staggered mode, an exhaust hose is connected with the side face of the adjusting cylinder, a valve block is slidably arranged in the air guide hose, one end of the valve block is fixedly provided with a push rod, the end portion of the push rod, which is slidably penetrated out of the adjusting cylinder, is connected with the temperature sensing part, the exhaust hose is communicated with the inside of the adjusting cylinder, an air suction pipe connected with one air guide hose is communicated with the inside of the adjusting cylinder, the other air suction pipe communicated with the other air guide hose is blocked by the valve block and used for low-power heat dissipation, when the temperature sensing part monitors high temperature, the push rod is pushed to enable the valve block to move in the adjusting cylinder, and the blocking of one air guide hose is relieved, and at the moment, the two air guide hoses are simultaneously communicated with the exhaust hose and used for high-power heat dissipation.

Preferably, the temperature sensing assembly comprises a valve barrel, the valve barrel is axially aligned with the adjusting barrel, a piston block is slidably matched in the valve barrel, the push rod is slidably penetrated into the valve barrel and fixedly connected with the piston block, the piston block is fixedly connected with the valve barrel through a spring, one end, far away from the adjusting barrel, of the valve barrel is connected with a temperature sensing hose, the transverse tube is made of copper materials, the interior of the transverse tube is in a sealed hollow shape, the temperature sensing hose is communicated with the interior of the transverse tube, the array distributed transverse tube absorbs ambient temperature, the temperature rises to increase the air pressure in the transverse tube, a through space is formed between the valve barrel and the transverse tube through the temperature sensing hose, and the increased air pressure can push the piston block to overcome the spring force for moving, so that the position of the valve block is adjusted.

Preferably, a wire rail is fixed at one side of the inside of the case, the air suction assembly is provided with a plurality of groups, the air suction assembly is fixed with a sliding block, the sliding block is in sliding connection with the wire rail, a screw in extrusion contact with the wire rail is arranged on the surface thread of the sliding block, the sliding block vertically slides along the wire rail through the sliding block, and the positioning of the sliding block is matched with the screw for adjusting the height of the air suction assembly, so that the air suction assembly can be accurately aligned with a heat dissipation part, and efficient heat dissipation is maintained.

Compared with the related art, the new energy automobile charging pile based on the Internet of things has the following beneficial effects:

1. the invention concentrates the air inlet and outlet parts of the case at the bottom, adopts the circular rotary filter disc to package and filter, and the heat-dissipating circulating air flow drives the filter disc to rotate through the rotary valve, so that dust accumulated on the air inlet part of the filter disc reaches the air outlet part to be cleaned in time, thereby realizing the automatic cleaning of the filter disc and keeping high permeability;

2. the invention adopts the uniformly arranged air suction pipes to form a face type air suction structure, and is matched with the left-right sliding adjustment of the air suction pipes and the up-down adjustment of the whole air suction assembly for accurately radiating the heat of the heating component;

3. the invention adopts two groups of air guide hoses to connect two arrays of air suction components, and the change of ambient temperature is sensed by the arranged transverse pipes, so that the internal air pressure is changed, and the single-stage heat dissipation or the double-stage heat dissipation can be automatically adjusted according to the temperature by matching with the adjustment of the adjusting component and the temperature sensing component.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a second schematic diagram of the overall structure of the present invention;

FIG. 3 is a third schematic diagram of the overall structure of the present invention;

FIG. 4 is a schematic view of a containment vessel mounting structure of the present invention;

FIG. 5 is a schematic view of a filter tray mounting structure of the present invention;

FIG. 6 is a schematic diagram of a rotary valve according to the present invention;

FIG. 7 is a schematic view of a filter tray structure according to the present invention;

FIG. 8 is a schematic top view of a getter assembly according to the present invention;

FIG. 9 is a schematic view of the bottom structure of the getter assembly of the invention;

FIG. 10 is a schematic diagram of the structure of the adjusting assembly and the temperature sensing assembly of the present invention.

Reference numerals in the drawings: 1. a chassis; 2. an air pump; 3. expanding the capacity of the shell; 31. an exhaust case; 32. an air inlet; 4. a suction assembly; 41. a U-shaped frame; 42. a transverse tube; 43. an air suction pipe; 44. an adjustment cylinder; 45. a valve cylinder; 46. a piston block; 47. a valve block; 48. a temperature-sensing hose; 49. an air guide hose; 410. a push rod; 5. an exhaust hose; 6. a filter tray; 61. a filter plate; 62. an air guide ring; 7. rotating the valve; 71. a round shell; 72. a reel; 73. an air inlet pipe; 74. an air outlet pipe; 8. a slide block; 9. and a wire rail.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

Example 1

The utility model provides a new energy automobile fills electric pile based on thing networking, includes quick-witted case 1, and the inside sealed space of machine case 1 only passes through air inlet 32, exhaust shell 31 and gives vent to anger, filters the dust in the air through filter disc 6, carries out self-cleaning to filter disc 6 simultaneously, and concrete operation is as follows:

as shown in fig. 1-6, the capacity-expanding shell 3 is fixed at the bottom of the chassis 1 and bulges upwards, the air-discharging shell 31 and the air inlet 32 are symmetrically arranged on the surface of the capacity-expanding shell 3, the air-discharging shell 31 and the air inlet 32 penetrate through two sides of the capacity-expanding shell 3, the filter disc 6 is attached to the bottoms of the air-discharging shell 31 and the air inlet 32 and is rotationally connected to the center of the filter disc 6, the rotary valve 7 comprises a round shell 71, the round shell 71 is sealed at the center of the top of the capacity-expanding shell 3, the rolling wheel 72 is arranged in the round shell 71 in a matched manner and is fixedly connected with a rotating shaft of the filter disc 6, the edge of the rolling wheel 72 is in clearance fit with the inner wall of the round shell 71, the air inlet pipe 73 is communicated with the round shell 71 along the tangential direction of the round shell 71, the air outlet pipe 74 is connected to the other side of the round shell 71, the air pump 2 is arranged in the chassis 1, the air outlet end of the air pump 2 is connected with the air inlet pipe 73, the air-discharging shell 31 is connected with the air outlet pipe 74, the air outlet hose 5 is connected with the air inlet end of the air pump 2, and the other end of the air pump 5 is connected with the air inlet component 4;

the machine case 1 cooperates the chamber door to form seal structure, avoid dust to get into inside, open the work of air pump 2, air conduction to exhaust shell 31 discharge with the inside heat that has of machine case 1 through the subassembly 4 of breathing in, and outside air forms the atmospheric pressure balance through air inlet 32 entering machine case 1, filter disc 6 is dust removal filtration to the air that gets into air inlet 32, the dust is piled up at the surface of filter disc 6, air pump 2 exhaust air current gets into in the circle shell 71 along tangential direction through intake pipe 73, the surface of gas impact reel 72 makes reel 72 rotatory, be used for driving filter disc 6 rotation, and the gas in the circle shell 71 is led into exhaust shell 31 through outlet duct 74 and is discharged, the position that the surface of filter disc 6 has the dust rotates gradually to exhaust shell 31 lower part, the gas clearance to the outside dust of filter disc 6 through exhaust shell 31, make filter disc 6 keep high permeability.

As shown in fig. 5 and 7, the filter disc 6 comprises a circular filter plate 61, the filter plate 61 rotates at the bottom of the expansion shell 3, a plurality of air guide rings 62 with gradually changed diameters are concentrically fixed at the bottom surface of the filter plate 61, and gaps guiding to the edges of the filter plate 61 are formed between the air guide rings 62;

the filter plate 61 is used for filtering dust in air, and the inclined channel formed by the air guide ring 62 is used for separating the inlet and outlet air flows of the exhaust shell 31 and the air inlet 32, so that heat is prevented from being conducted along with air circulation, and secondary adsorption of dust on the lower part of the air inlet 32 is reduced.

Example two

The heating component is subjected to heat dissipation by adopting a surface type air suction mode, and the specific operation is as follows:

as shown in fig. 8 and 9, the air suction assembly 4 comprises a U-shaped frame 41, a plurality of parallel transverse pipes 42 are arranged between the U-shaped frames 41, two ends of each transverse pipe 42 are horizontally and slidably connected with the U-shaped frame 41, an air suction pipe 43 is fixed at the bottom of each transverse pipe 42, a plurality of air suction holes are equidistantly arranged on the surface of each air suction pipe 43, an air guide hose 49 is communicated with the end part of each air suction pipe 43, and the air guide hose 49 is communicated with an air exhaust hose 5;

the plurality of parallel sliding transverse pipes 42 are piled up along the U-shaped frame 41 in a sliding way to one side, are used for opening a space to facilitate the installation and maintenance of equipment in the chassis 1, and when the transverse pipes 42 are evenly unfolded, the air suction pipes 43 are evenly distributed to form an evenly-arrayed air suction surface for covering the positions of heating components, and the heat generated by the heating components is accurately and efficiently sucked into the air suction pipes 43 and then is conducted into the exhaust hose 5 through the air guide hose 49 to be discharged.

By sensing the temperature of the heat dissipation part, the automatic adjustment of heat dissipation efficiency is realized, and the specific operation is as follows:

as shown in fig. 8, 9 and 10, two parallel air suction pipes 43 are fixed at the bottom of each transverse pipe 42, two air guide hoses 49 are provided, two air suction pipes 43 at the bottom of each transverse pipe 42 are respectively connected with two air guide hoses 49, two air guide hoses 49 are connected with an adjusting assembly, the adjusting assembly comprises an adjusting cylinder 44 fixedly connected with a U-shaped frame 41, the two air guide hoses 49 are communicated with the side face of the adjusting cylinder 44, the communicating positions of the two air guide hoses 49 are arranged along the axial direction of the adjusting cylinder 44, an air discharge hose 5 is connected with the side face of the adjusting cylinder 44, a valve block 47 is adapted to slide inside the air guide hose 49, a push rod 410 is fixedly connected with the valve block 47 by sliding one end of the push rod 410 into the adjusting cylinder 44, and the other end of the push rod 410 is connected with a temperature sensing assembly;

the two air guide hoses 49 are connected with two groups of air suction pipes 43 which are uniformly arrayed, the air adjusting and exhausting hose 5 is communicated with the inside of the adjusting cylinder 44, when the air suction pipe 43 connected with one group of air guide hoses 49 is communicated with the inside of the adjusting cylinder 44, the air suction pipe 43 communicated with the other group of air guide hoses 49 is blocked by the valve block 47 for low-power heat dissipation, when the temperature sensing assembly monitors high temperature, the push rod 410 is pushed to enable the valve block 47 to move in the adjusting cylinder 44, the blocking of one group of air guide hoses 49 is relieved, and at the moment, the two air guide hoses 49 are communicated with the air exhausting hose 5 at the same time for high-power heat dissipation;

as shown in fig. 8, 9 and 10, the temperature sensing assembly comprises a valve cylinder 45, the valve cylinder 45 is axially aligned with an adjusting cylinder 44, a piston block 46 is slidably matched inside the valve cylinder 45, a push rod 410 is slidably inserted into the valve cylinder 45 and fixedly connected with the piston block 46, the piston block 46 is fixedly connected with the valve cylinder 45 through a spring, one end of the valve cylinder 45 far away from the adjusting cylinder 44 is connected with a temperature sensing hose 48, a transverse tube 42 is made of copper materials, the interior of the transverse tube 42 is in a sealed hollow shape, and the temperature sensing hose 48 is communicated with the interior of the transverse tube 42;

the array distributed transverse pipes 42 absorb ambient temperature, the temperature rises to increase the air pressure in the transverse pipes 42, the interior of the valve cylinder 45 and the transverse pipes 42 form a through space through the temperature sensing hose 48, and the increased air pressure can push the piston blocks 46 to overcome the elastic force of the springs and move so as to adjust the positions of the valve blocks 47.

As shown in fig. 2 and 8, a wire rail 9 is fixed on one side of the interior of the chassis 1, the air suction assembly 4 is provided with a plurality of groups, the air suction assembly 4 is fixedly connected with a sliding block 8, the sliding block 8 is in sliding connection with the wire rail 9, a screw is installed on the surface of the sliding block 8 through threads, the screw is in extrusion contact with the wire rail 9, the sliding block 8 slides up and down along the wire rail 9, and the positioning of the sliding block 8 is matched with the screw for adjusting the height of the air suction assembly 4, so that the air suction assembly 4 can be precisely aligned with a heat dissipation part, and efficient heat dissipation is maintained.

Claims (5)

1. The utility model provides a new energy automobile fills electric pile based on thing networking, including quick-witted case (1), a serial communication port, the bottom of machine case (1) has expansion shell (3) of upwards uplifting, the surface symmetry of expansion shell (3) is provided with exhaust shell (31) and air inlet (32), exhaust shell (31) and air inlet (32) link up expansion shell (3) both sides, the concentric rotation in bottom surface of expansion shell (3) is provided with filter disc (6), filter disc (6) laminating is in exhaust shell (31) and air inlet (32) bottom, exhaust shell (31), air inlet (32) correspond with filter disc (6) position respectively, be provided with air pump (2) in machine case (1), the inlet end of air pump (2) is connected with subassembly (4) of breathing in through exhaust hose (5), be connected with rotary valve (7) between the exhaust end of air pump (2) and exhaust shell (31), rotary valve (7) are connected with the pivot of filter disc (6).

The rotary valve (7) comprises a round shell (71), the round shell (71) is sealed at the center of the top of the capacity-expanding shell (3), a rotating shaft of the filter disc (6) penetrates into the round shell (71) and is fixedly provided with a rolling wheel (72), the edge of the rolling wheel (72) is in clearance fit with the inner wall of the round shell (71), an air inlet pipe (73) is connected in the tangential direction of the edge of the round shell (71), the air inlet pipe (73) is connected with the air outlet end of the air pump (2), and the air outlet shell (31) is connected with the edge of the round shell (71) through an air outlet pipe (74);

the filter disc (6) comprises filter plates (61), wherein the filter plates (61) are circular, the filter plates (61) rotate at the bottom of the expansion shell (3), air guide rings (62) are sequentially fixed on the bottom surface of the filter plates (61) from the center to the outside, and gaps for guiding the edges of the filter plates (61) are formed between the air guide rings (62);

the exhaust shell (31) and the air inlet (32) are symmetrically arranged at two sides of the rotation position of the filter plate (61);

the air suction assembly (4) comprises a U-shaped frame (41), a plurality of transverse pipes (42) are arranged between the U-shaped frames (41) in parallel, two ends of each transverse pipe (42) are horizontally and slidably connected with the U-shaped frames (41), an air suction pipe (43) is fixed at the bottom of each transverse pipe (42), a plurality of air suction holes are formed in the surface of each air suction pipe (43) at equal intervals, each air suction pipe (43) is communicated through an air guide hose (49), and the air guide hose (49) is communicated with an air exhaust hose (5).

2. The new energy automobile fills electric pile based on thing networking of claim 1, characterized in that, the bottom of each horizontal pipe (42) is fixed two parallel breathing pipes (43), air guide hose (49) have two, two breathing pipes (43) of horizontal pipe (42) bottom are connected with two air guide hose (49) respectively, two air guide hose (49) are connected with adjusting part, exhaust hose (5) are connected with adjusting part.

3. The new energy automobile fills electric pile based on thing networking of claim 2, wherein, adjusting component includes an adjusting cylinder (44), adjusting cylinder (44) and U type frame (41) fixed connection, two air guide hose (49) dislocation intercommunication are in the side of adjusting cylinder (44), and exhaust hose (5) are connected in the side of adjusting cylinder (44), and the inside slip of air guide hose (49) is fit with valve piece (47), and the one end of valve piece (47) is fixed with push rod (410), and the end connection that push rod (410) slided out adjusting cylinder (44) has the temperature sensing subassembly.

4. The new energy automobile fills electric pile based on thing networking of claim 3, wherein, temperature sensing subassembly includes valve section of thick bamboo (45), and valve section of thick bamboo (45) are in axial alignment with adjusting cylinder (44), and sliding fit has piston block (46) in valve section of thick bamboo (45), push rod (410) slide penetrate in valve section of thick bamboo (45) with piston block (46) fixed connection, piston block (46) pass through spring and valve section of thick bamboo (45) fixed connection, and valve section of thick bamboo (45) keep away from adjusting cylinder (44) one end is connected with temperature sensing hose (48), horizontal pipe (42) adopt copper material to make, and horizontal pipe (42) are inside to be sealed hollow form, temperature sensing hose (48) and horizontal pipe (42) inside intercommunication.

5. The new energy automobile fills electric pile based on thing networking of claim 1, characterized in that, line rail (9) are fixed to the inside one side of quick-witted case (1), subassembly (4) of breathing in have the multiunit, and subassembly (4) of breathing in is fixed with slider (8), slider (8) and line rail (9) sliding connection, and the screw of the surface screw thread installation and line rail (9) extrusion contact of slider (8).