CN114834323B - New energy automobile heating system and new energy automobile - Google Patents

Abstract

The invention discloses a new energy automobile heating system and a new energy automobile, which comprise a base plate, wherein the bottom of the base plate is provided with a mounting groove, two sides of the base plate are provided with working grooves, a plurality of opening and closing components are arranged in the working grooves, the upper side of the base plate is provided with a heating component and a power supply component, the power supply component is arranged on the outer side of the new energy automobile, two ends of the base plate are provided with two adjusting components, when the new energy automobile is charged outdoors in winter, an external power supply supplies power and supplies heat to a battery, the heating efficiency is automatically adjusted to enable the temperature of the battery to be proper, the problem that the battery cannot normally store electricity due to too low temperature is avoided, the problem that the normal operation is influenced by too low temperature of a driver foot when the new energy automobile normally runs is solved, the problem that the normal power supply is influenced by too low temperature of the battery is solved, and the problem that the normal power supply is influenced by too low temperature of the battery is solved.

Description

New energy automobile heating system and new energy automobile

Technical Field

The invention relates to the technical field of new energy automobiles, in particular to a new energy automobile heating system and a new energy automobile.

Background

With the gradual withering of petroleum resources and the gradual aggravation of air pollution, the society has stronger and stronger call for new energy automobiles, including pure electric vehicles, hybrid power vehicles, plug-in vehicles, fuel cells and other types of automobiles, and the new energy automobiles greatly reduce the dependence on petroleum and the atmospheric pollution. Compared with the traditional internal combustion engine automobile, the new energy automobile has different energy supply forms, and is greatly changed in the overall arrangement mode of the whole automobile or the driving system assembly, wherein the driving system assembly is very important for the whole automobile, and not only bears the bearing function and the driving function, but also directly determines the safety and comfort performance of the whole automobile.

New energy automobile uses battery and motor to replace traditional oil tank and engine to drive, the battery need carry out charge and discharge, but when the temperature is low excessively, the inside electrolyte of battery can become to glue at low temperature and condense even, the activity that leads to electrically conductive lithium salt in the inside receives the restriction greatly, like this charge can be obstructed, influence the electric power storage and the power supply ability of battery, and new energy automobile lacks the equipment to the heating of battery when charging, often can't be full of when outdoor charging in winter, and then influence and normally travel, for this we propose new energy automobile heating system and new energy automobile.

Disclosure of Invention

The invention aims to provide a new energy automobile heating system and a new energy automobile, which can heat a new energy automobile battery in a low-temperature environment and avoid the problem that the new energy automobile cannot normally store electricity due to too low temperature, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

new energy automobile heating system and new energy automobile, including the bed plate, open the bed plate bottom has the mounting groove, open the bed plate both sides has work groove, it is equipped with a plurality of subassemblies that open and shut to work the inslot, the bed plate upside is equipped with heating subassembly, the power supply unit spare, the new energy automobile outside is located to the power supply unit spare, the bed plate both ends are equipped with two adjusting part.

Preferably, the subassembly that opens and shuts includes two initiative electro-magnets, two the initiative electro-magnet is fixed in respectively work groove both ends, work groove both ends are fixed with two fixed blocks, work inslot portion sliding connection has two passive pieces, the passive piece outside is equipped with the cylinder that opens and shuts, the fixed block open have with cylinder sliding connection's through-hole opens and shuts, the cylinder distal end that opens and shuts be equipped with sliding connection in work inslot portion's open and shut board, the cylinder outside that opens and shuts is equipped with the switching spring, the spring both ends that open and shut are connected fixedly with open and shut board and fixed block respectively, work inslot portion is equipped with synchronous component, and the circular telegram of initiative electro-magnet is carried out magnetism to passive piece, can make passive piece adsorbed in work groove both ends, and the switching spring is compressed.

Preferably, the synchronizing assembly includes two synchronizing levers, two synchronizing lever one end is fixed in two respectively the open-close plate outside, work inslot portion rotates and is connected with synchronizing gear, two the synchronizing lever distal end be equipped with synchronizing gear engaged with gear structure, through synchronizing gear to gear structure's meshing effect, can control two open-close plates and carry out the synchro-separation and be close to, and then control the synchro-separation of passive piece and be close to.

Preferably, heating assembly includes the heating board, the inside heating plate that is equipped with of heating board, four ends of heating board rotate respectively and are connected with a plurality of bracing pieces, the bracing piece distal end rotate connect in passive piece upside generates heat through supplying power to the heating plate, can heat, and the rising and the decline of heating board can be controlled under the promotion effect of passive piece to the bracing piece simultaneously.

Preferably, the adjusting assembly comprises a sliding rheostat, the sliding rheostat is fixed on the outer side of a base plate, control grooves are formed in two ends of the base plate, control holes communicated with the control grooves are formed in two ends of the base plate, control tubes are arranged on the outer sides of the control holes, control frames are arranged at two ends of the base plate, the far ends of the control tubes are connected with the control frames, an adjusting plate is connected inside the control frames in a sliding mode, an adjusting cylinder is arranged on the outer side of the adjusting plate, the far ends of the adjusting cylinder are fixedly connected with the adjusting ends of the sliding rheostat, the sliding rheostat of the two adjusting assemblies are respectively connected with the active electromagnet and the heating plate, air inside the control grooves is influenced by the temperature of the batteries fixed inside the accommodating grooves, when the temperature of the batteries is high, the air inside of the control grooves expands to push the adjusting plate to move, and then the adjusting ends of the sliding rheostat are driven to move so as to change the power supply of the active electromagnet and the heating plate, and change the suction force and the heat supply efficiency of the active electromagnet.

Preferably, the power supply subassembly includes power supply piece and power supply frame, power supply frame inside be equipped with new energy automobile battery with the circular telegram piece that the heating plate links to each other, power supply piece distal end is opened there is the circular telegram groove of laminating mutually with circular telegram piece, power supply frame one side is equipped with the outage subassembly, inserts the inside circular telegram piece entering circular telegram inslot of power supply frame with the power supply piece when charging inside, can charge to the battery, energizes the heating plate simultaneously, adjusts the heating plate through a slide rheostat when low temperature environment for the heating plate heats the battery and makes battery temperature suitable, avoids the temperature to hang down and causes the decline of battery storage capacity.

Preferably, the outage subassembly includes the outage board, outage board one side is rotated and is connected in power supply frame one side, power supply frame one side is opened there is the upset mouth, the inside upset spring that is equipped with of upset mouth, upset spring distal end is connected fixedly with outage board one side, outage board distal end is equipped with the pole that leads to, power supply frame both sides open respectively have two with the upset groove of pole both ends sliding connection that leads to, the upset groove lower extreme is equipped with the outage piece of laminating with the pole both ends that leads to, and outage piece links to each other with the pole that leads to when not charging for the battery supplies power to initiative electro-magnet and heating plate, can control the heating plate and heat new energy automobile cabin bottom, and another slip rheostat control initiative electro-magnet adjusts, makes initiative electro-magnet suction descend when the battery temperature is low, and the heating plate is close to the battery and heats for the battery temperature suits, avoids the unable normal power supply of battery.

Preferably, the contact surface of the power supply frame and the power supply block is a frosted surface, so that the stability of the power supply block fixed in the power supply frame during charging is improved.

Compared with the prior art, the invention has the beneficial effects that:

when new energy automobile charges outdoors in winter, external power source supplies power and heats the battery, automatically regulated heating efficiency makes the battery temperature suitable, avoids the temperature to hang down excessively to cause the unable normal electric power storage of battery, heats the cabin bottom when normally traveling, avoids the temperature to hang down the low influence normal operation of driver foot temperature excessively, and can heat the battery, avoids the battery temperature to hang down the influence normal power supply excessively.

Drawings

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a bottom view of the present invention;

FIG. 3 is a schematic view of the present invention showing the two ends of the axle body being lifted to accommodate road bumps;

FIG. 4 is a schematic view of the interior of the elevator chute of the present invention;

FIG. 5 is an internal view of the clamping assembly of the present invention;

FIG. 6 is an enlarged view of area A of FIG. 1;

FIG. 7 is an enlarged view of area B of FIG. 1;

fig. 8 is an enlarged view of region C in fig. 2.

In the figure: 1-a base plate; 2-mounting grooves; 3, a working groove; 4-an opening and closing assembly; 5-a heating component; 6-a power-off block; 7-a power supply component; 8-a regulating component; 9-active electromagnet; 10-fixing blocks; 11-a passive block; 12-an opening and closing cylinder; 13-a plywood; 14-a synchronization component; 15-a synchronization rod; 16-a synchronizing gear; 17-a gear structure; 18-a heating panel; 19-a heating plate; 20-a support bar; 21-a sliding varistor; 22-a control slot; 23-a control hole; 24-a control tube; 25-a control frame; 26-adjusting plate; 27-adjusting the cylinder; 28-a power supply block; 29-a power supply rack; 30-electrifying block; 31-a current-carrying tank; 32-a power-off component; 33-a power-off board; 34-a turnover port; 35-a flip spring; 36-pole; 37-a turnover tank; 38-opening and closing spring.

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

Referring to fig. 1 and 3-8, the invention provides a new energy automobile heating system and a new energy automobile, which can heat a new energy automobile battery in a low temperature environment and avoid abnormal power storage caused by too low temperature, and the new energy automobile heating system comprises a base plate 1, wherein the bottom of the base plate 1 is provided with an installation groove 2, two sides of the base plate 1 are provided with working grooves 3, a plurality of opening and closing assemblies 4 are arranged in the working grooves 3, the upper side of the base plate 1 is provided with a heating assembly 5, a power supply assembly 7, the power supply assembly 7 is arranged at the outer side of the new energy automobile, and two ends of the base plate 1 are provided with two adjusting assemblies 8.

Referring to fig. 7 and 8, in the drawings, the opening and closing assembly 4 includes two active electromagnets 9, the two active electromagnets 9 are respectively fixed at two ends of the working tank 3, two fixed blocks 10 are fixed at two ends of the working tank 3, two passive blocks 11 are slidably connected inside the working tank 3, an opening and closing cylinder 12 is arranged outside the passive blocks 11, the fixed blocks 10 are provided with through holes slidably connected with the opening and closing cylinder 12, the distal end of the opening and closing cylinder 12 is provided with an opening and closing plate 13 slidably connected inside the working tank 3, an opening and closing spring 38 is arranged outside the opening and closing cylinder 12, two ends of the opening and closing spring 38 are respectively connected and fixed with the opening and closing plate 13 and the fixed blocks 10, a synchronizing assembly 14 is arranged inside the working tank 3, the active electromagnets 9 are powered on to magnetically attract the passive blocks 11, so that the passive blocks 11 are attracted to two ends of the working tank 3, and the opening and closing spring 38 is compressed.

Referring to fig. 6, the synchronization assembly 14 shown in the figure includes two synchronization rods 15, one end of each of the two synchronization rods 15 is fixed to the outer side of each of the two split plates 13, a synchronization gear 16 is rotatably connected to the inside of the working groove 3, and a gear structure 17 engaged with the synchronization gear 16 is disposed at the distal end of each of the two synchronization rods 15, so that the two split plates 13 can be controlled to be synchronously separated and close by the engagement of the synchronization gear 16 with the gear structure 17, and further, the driven block 11 can be controlled to be synchronously separated and close.

The principle that when the temperature is too low after outdoor charging, the battery is heated so that the battery can normally store electricity is as follows: utilize subassembly 4 control heating subassembly 5 that opens and shuts to heat, utilize adjusting part 8 to adjust heating power simultaneously for the battery can keep suitable temperature, avoids the temperature to hang down excessively to lead to the unable normal work of battery.

Example 2

Referring to fig. 1, 4 and 5, this embodiment further illustrates embodiment 1, and the present invention provides a new energy vehicle heating system and a new energy vehicle for heating a new energy vehicle battery in a low temperature environment and avoiding abnormal power storage due to too low temperature, including a base plate 1, a mounting groove 2 is formed at the bottom of the base plate 1, working grooves 3 are formed at two sides of the base plate 1, a plurality of opening and closing components 4 are arranged in the working grooves 3, a heating component 5 and a power supply component 7 are arranged on the upper side of the base plate 1, the power supply component 7 is arranged at the outer side of the new energy vehicle, and two adjusting components 8 are arranged at two ends of the base plate 1.

Referring to fig. 1 and 4, the heating assembly 5 includes a heating plate 18, a heating plate 19 is disposed inside the heating plate 18, a plurality of support rods 20 are rotatably connected to four ends of the heating plate 18, distal ends of the support rods 20 are rotatably connected to an upper side of the passive block 11, the heating plate 19 is powered to heat, and the heating plate 18 is controlled to ascend and descend by the support rods 20 pushed by the passive block 11.

Referring to fig. 5, in the figure, the adjusting assembly 8 includes a sliding rheostat 21, the sliding rheostat 21 is fixed on the outer side of the base plate 1, two ends of the base plate 1 are provided with control slots 22, two ends of the base plate 1 are provided with control holes 23 communicated with the control slots 22, the outer sides of the control holes 23 are provided with control tubes 24, two ends of the base plate 1 are provided with control frames 25, the distal ends of the control tubes 24 are connected with the control frames 25, an adjusting plate 26 is slidably connected inside the control frames 25, the outer side of the adjusting plate 26 is provided with an adjusting cylinder 27, the distal ends of the adjusting cylinder 27 are fixedly connected with the adjusting ends of the sliding rheostat 21, the sliding rheostats 21 of the two adjusting assemblies 8 are respectively connected with the active electromagnet 9 and the heating plate 19, air inside the control slots 22 is influenced by the temperature of the battery fixed inside the accommodating slots, when the temperature of the battery is higher, the air inside the control slots 22 expands, so that the adjusting plate 26 is pushed to move, and further drives the adjusting ends of the sliding rheostat 21 to move to change the power supplies power of the active electromagnet 9 and the heating plate 19, and change the suction force of the active electromagnet 9 and the heating efficiency.

In the scheme, the sliding rheostat 21 is used for supplying power and adjusting power to the active electromagnet 9, and meanwhile, the heating sheet 19 is controlled to supply power and adjust power, so that the heating power of the heating sheet 19 and the distance between the heating sheet and the battery can be automatically controlled, and the battery can be automatically heated.

Example 3

Referring to fig. 1 and fig. 2, this embodiment further illustrates embodiment 2, and the present invention provides a new energy vehicle heating system and a new energy vehicle for heating a new energy vehicle battery in a low temperature environment and avoiding abnormal power storage caused by too low temperature, including a base plate 1, a mounting groove 2 is formed at the bottom of the base plate 1, working grooves 3 are formed at two sides of the base plate 1, a plurality of opening and closing components 4 are arranged in the working grooves 3, a heating component 5 and a power supply component 7 are arranged at the upper side of the base plate 1, the power supply component 7 is arranged at the outer side of the new energy vehicle, and two adjusting components 8 are arranged at two ends of the base plate 1.

Referring to fig. 2, in the figure, the power supply assembly 7 includes a power supply block 28 and a power supply frame 29, a power supply block 30 connected to the new energy vehicle battery and the heating plate 19 is disposed inside the power supply frame 29, a power supply groove 31 attached to the power supply block 30 is formed at a distal end of the power supply block 28, a power cut assembly 32 is disposed on one side of the power supply frame 29, the power supply block 28 is inserted into the power supply block 30 inside the power supply frame 29 to enter the power supply groove 31 during charging, so that the battery can be charged, the heating plate 19 is powered on, and the heating plate 19 is adjusted by a sliding rheostat 21 in a low-temperature environment, so that the heating plate 19 heats the battery to enable the battery to be at a proper temperature, and the battery power storage capacity reduction caused by too low temperature is avoided.

Referring to fig. 7, in the figure, the power cutoff assembly 32 includes a power cutoff plate 33, one side of the power cutoff plate 33 is rotatably connected to one side of the power supply frame 29, one side of the power supply frame 29 is provided with a turnover port 34, a turnover spring 35 is arranged inside the turnover port 34, a distal end of the turnover spring 35 is fixedly connected to one side of the power cutoff plate 33, a distal end of the power cutoff plate 33 is provided with a power-on rod 36, two sides of the power supply frame 29 are respectively provided with two turnover grooves 37 slidably connected to two ends of the power-on rod 36, a lower end of each turnover groove 37 is provided with a power cutoff block 6 attached to two ends of the power-on rod 36, the power cutoff block 6 is connected to the power-on rod 36 when the battery is not charged, so that the battery supplies power to the active electromagnet 9 and the heating plate 19, that the heating plate 19 is controlled to heat the bottom of the new energy vehicle cabin, another slide rheostat 21 controls the active electromagnet 9 to adjust, when the temperature of the battery is too low, the suction force of the active electromagnet 9 is reduced, the heating plate 19 is close to the battery to heat the battery, so that the battery is suitable temperature, and the battery cannot normally supply is avoided, the contact surface between the frame 29 and the power supply block 28 is a sand surface, and the stability of the power supply block 28 fixed inside of the power supply frame 29 when the power supply frame 29 is improved.

In this scheme, use external power supply to supply power to heating plate 19 when charging, can heat the battery and keep suitable temperature.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (3)

1. New energy automobile heating system, its characterized in that includes:

the base plate comprises a base plate (1), wherein the bottom of the base plate (1) is provided with a mounting groove (2), two sides of the base plate (1) are provided with working grooves (3), a plurality of opening and closing components (4) are arranged in the working grooves (3), and a heating component (5) is arranged on the upper side of the base plate (1);

power supply unit (7), power supply unit (7) are located the new energy automobile outside, power supply unit (7) use current circuit to supply power to heating subassembly (5), bed plate (1) both ends are equipped with two adjusting part (8), subassembly (4) that opens and shuts includes two initiative electro-magnet (9), two initiative electro-magnet (9) are fixed in respectively work groove (3) both ends, work groove (3) both ends are fixed with two fixed blocks (10), work groove (3) inside sliding connection has two passive blocks (11), passive block (11) outside is equipped with opening and shutting cylinder (12), fixed block (10) open have with opening and shutting cylinder (12) sliding connection's through-hole, opening and shutting cylinder (12) distal end is equipped with sliding connection in work groove (3) inside open-close board (13), opening and shutting cylinder (12) outside is equipped with opening and shutting spring (38), opening and shutting spring (38) both ends respectively with open-close board (13) with fixed block (10) are connected fixedly, work groove (3) inside is equipped with synchronous subassembly (14), heating subassembly (5) are equipped with heating subassembly (18) respectively, heating subassembly (18) is equipped with four terminal heating plate (18), the remote end of the support rod (20) is rotatably connected to the upper side of the passive block (11), the power supply assembly (7) comprises a power supply block (28) and a power supply frame (29), a power supply block (30) connected with a new energy automobile battery and the heating plate (19) is arranged inside the power supply frame (29), a power supply groove (31) attached to the power supply block (30) is formed in the remote end of the power supply block (28), a power outage assembly (32) is arranged on one side of the power supply frame (29), a power outage plate (33) is arranged on one side of the power supply frame (33), a turnover opening (34) is formed in one side of the power supply frame (29), a turnover spring (35) is arranged inside the turnover opening (34), the remote end of the turnover spring (35) is fixedly connected to one side of the power outage plate (33), a power outage plate (33) is arranged at the remote end of the power supply frame (29), two sides of the power supply frame (29) are respectively provided with two ends of a turnover groove (37) in sliding connection with the power supply groove (36), the lower end of the power supply frame (21) is provided with a power supply adjusting rod (21), and the power supply adjusting assembly (21) comprises a power supply block (21) and a power supply adjusting block (21), the utility model discloses a battery heating device, including base plate (1), control groove (22) have been opened at base plate (1) both ends, open at base plate (1) both ends have with communicating control hole (23) in control groove (22), control hole (23) outside is equipped with control tube (24), base plate (1) both ends are equipped with control frame (25), control tube (24) distal end with control frame (25) link to each other, inside sliding connection has regulating plate (26) of control frame (25), the regulating plate (26) outside is equipped with adjusts cylinder (27), adjust cylinder (27) distal end with slide rheostat (21) regulation end is connected fixedly, two of adjusting part (8) slide rheostat (21) respectively with initiative electro-magnet (9) with heating plate (19) link to each other, utilize slide rheostat to supply power and power control the initiative electro-magnet, the heating plate is supplied power and power control simultaneously, can automatic control heating plate's heating power and with the battery distance, can heat the battery automatically.

2. The heating system for a new energy vehicle according to claim 1, characterized in that: synchronizing assembly (14) include two synchronizing bar (15), two synchronizing bar (15) one end is fixed in two respectively open-close plate (13) outside, work groove (3) inside rotation is connected with synchronizing gear (16), two synchronizing bar (15) distal end be equipped with synchronizing gear (16) engaged with gear structure (17).

3. The heating system for a new energy vehicle according to claim 2, characterized in that: the contact surface of the power supply frame (29) and the power supply block (28) is a frosted surface.

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