CN113064085B - Battery on-line measuring device - Google Patents

Abstract

The invention provides a battery online detection device, which comprises an L-shaped underframe used for being placed at one side of a battery compartment, wherein the underframe comprises a vertical part and a horizontal part, a pair of brackets positioned above the horizontal part are arranged on the vertical part, a rotating sleeve in the horizontal direction is arranged between the brackets, a shovel plate extending from the rear side to the front side of the vertical part and extending from the upper side of the horizontal part to the plane where the bottom of the horizontal part is positioned is arranged on the rotating sleeve, the end part of the shovel plate is inserted into the bottom of a battery pack in the battery compartment and can rotate along with the rotating sleeve, a yielding groove for the shovel plate is formed in the vertical part, a motor for driving the rotating sleeve to rotate is further arranged on the vertical part, and the motor drives the rotating sleeve and the shovel plate to rotate so as to lift one side of the battery pack. The vertical part is also provided with a controller for on-line transmission, the controller is in wireless connection with the intelligent glasses, and the intelligent glasses are used for recording the fault condition of the site.

Description

Battery on-line measuring device

Technical Field

The invention relates to the technical field of lithium battery detection, in particular to a battery online detection device.

Background

The battery pack of the new energy automobile is formed by splicing a plurality of battery plates, when a fault occurs, the battery cover needs to be opened, the positive and negative contacts of the battery plates are exposed, and if necessary, the battery plates need to be removed one by one. Which requires that the service plug be unplugged for discharge immediately prior to opening the battery cover. After the electricity is possibly discharged, the universal meter is used for touching the anode and the cathode to detect whether residual electricity exists. If so, continuing to wait, and if not, proceeding to the next step.

However, at present, since the new energy automobile industry is still in an emerging state, operators can be provided with enough, but experienced old teachers are not enough. So that most 4S shops have the troublesome fault problem and all adopt the method of whole disassembly and whole replacement, thus obviously leading consumers to bear more burden and being unfavorable for the popularization of new energy automobiles. In addition, it has certain potential safety hazard in the time of detecting surplus electricity, if the group battery still has surplus electricity, the operation workman should not stand too closely from the group battery really, appears the mistake and touch the electric shock easily. At present, the problems can only be solved by indirect means such as increasing the waiting time of discharge and making insulating measures.

Disclosure of Invention

The invention aims to solve the technical problem of providing an on-line battery detection device, which improves safety by separating a battery pack and an operator to increase detection distance and can send on-site fault conditions in an on-line transmission mode.

According to the technical scheme, the battery online detection device comprises an L-shaped underframe which is arranged on one side of a battery compartment, wherein the underframe comprises a vertical part and a horizontal part, a pair of brackets which are arranged above the horizontal part are arranged on the vertical part, a rotating sleeve in the horizontal direction is arranged between the brackets, a shovel plate which extends from the rear side to the front side of the vertical part and from the upper side of the horizontal part to the plane where the bottom of the horizontal part is arranged on the rotating sleeve, the end part of the shovel plate is inserted into the bottom of a battery pack in the battery compartment and can rotate along with the rotating sleeve, a yielding groove for the shovel plate is formed in the vertical part, a motor which drives the rotating sleeve to rotate is further arranged on the vertical part, and the motor drives the rotating sleeve and the shovel plate to rotate so as to lift one side of the battery pack. The front side of the vertical part is also provided with a rotating shaft positioned at one side of the shovel plate, the rotating shaft is provided with a lever, one end of the lever extends to one side where the shovel plate is positioned and is connected with the shovel plate through a first pull rope, the other end of the lever extends to the opposite other side, the vertical part is also provided with an arm rod positioned above the lever, the arm rod extends towards the insertion direction of the shovel plate and is connected with an articulated arm with an end contact, the articulated arm is connected with the end of the lever through a second pull rope, and when the shovel plate rotates to lift one side of the battery pack, the articulated arm is pulled down by the rotation of the lever so that the end contact contacts the anode and the cathode of the battery pack; the end contact is connected to a detection slot which is arranged at the end part of the arm rod and is positioned at the rear side of the vertical part through an embedded wire, a jumper wire and an embedded wire of the arm rod, which are sequentially connected, wherein the detection slot is used for plugging a pointer of a universal meter; the vertical part is also provided with a controller for online transmission, the controller is in wireless connection with the intelligent glasses, and the intelligent glasses are used for recording fault conditions on site.

As one embodiment, the shovel plate includes two, two shovel plates are distributed along the horizontal direction, and the relief groove includes two.

As an embodiment, one side of the swivel is further provided with a handrail extending in a length direction thereof and located above the horizontal portion, and both ends of the swivel are further provided with a return spring connecting the swivel to the bracket.

As an implementation mode, a roller which winds to the rear side of the vertical part and is along the horizontal direction is arranged on one side of the horizontal part, an insulating pad is wound on the roller, a through groove for the insulating pad to penetrate through to the lower part of the shovel plate is formed in the bottom of the horizontal part, a clamping plate is arranged at the bottom of the shovel plate, and a clamping groove matched with the clamping plate is formed in the insulating pad; when the shovel plate is inserted into the bottom of the battery pack, the insulating pad is brought into the bottom of the battery pack, and when the shovel plate rotates to lift one side of the battery pack, the insulating pad can be paved on the bottom of the battery pack by rotating the roller.

In one embodiment, the horizontal part is provided with an upper fixed plate and a lower movable plate which extend from two sides in opposite directions and are staggered up and down, and an insertion groove for a multimeter is formed between the upper fixed plate and the lower movable plate.

As one embodiment, the end portion of the lower movable plate is connected with a movable shaft, and an adjusting spring is arranged between the bottom of the lower movable plate and the horizontal portion.

As an embodiment, a bulb for illuminating the end contact is also provided on the articulated arm.

As an implementation mode, a bottom groove along the length direction of the hinge arm is formed in the bottom of the hinge arm, sliding grooves which are positioned on two sides of the bottom groove and are communicated with each other are formed in two sides of the hinge arm, a sliding column is arranged in the sliding groove, the end part of the second pull rope is fixed on the sliding column, a telescopic rod which extends forwards and is abutted against the bottom groove is sleeved at the end part of the second pull rope, and the bulb is fixed on the telescopic rod; when the articulated arm is pulled down, the sliding column is abutted against the rear end of the sliding groove, the telescopic rod stretches out to enable the position of the bulb to move forward relatively, and the forward moving amount of the bulb increases along with the increase of the pulling-down amplitude of the articulated arm.

As an embodiment, the arm lever is fixed to an adjusting plate provided on the vertical portion, the adjusting plate being connected to the vertical portion by an adjusting bolt, wherein the height of the arm lever can be adjusted by rotating the adjusting bolt.

Compared with the prior art, the battery compartment opening device has the beneficial effect that after the battery compartment is opened, the battery online detection device is placed on one side of the battery compartment. Wherein, the tip of shovel board inserts the bottom of group battery in the battery compartment. On the basis, when the battery pack is used, the motor drives the rotating sleeve and the shovel plate to rotate, and the rotating sleeve and the shovel plate enable the end part of the shovel plate to be lifted in the rotating process so as to lift one side of the battery pack. In addition, during the rotation of the shovel board, one end of the lever rotatably connected to the rotating shaft is lifted and the other end is lowered due to the pulling of the first pull rope, the hinged arm hinged to the arm rod is pressed down due to the pulling of the second pull rope, and then the end contact can contact the anode and the cathode of the battery pack. The end contacts are metal contacts of the direct contact electrode, and are led to the detection slot for measurement through embedded wires (not shown in the figure) of the articulated arm, jumper wires and embedded wires (not shown in the figure) of the arm rod. In this way, the detection distance is increased because the operator is separated from the battery pack through the underframe, so that the operator is prevented from mistakenly touching other electrified components on the battery pack to improve the safety. At the same time, remote assistance may be requested for some unusual fault conditions. Specifically, an operator records the fault condition of the site in real time through intelligent glasses. Remote communication is initiated by the controller, thereby replacing the traditional voice communication.

Drawings

Fig. 1 is a first perspective view of a battery online detection device according to an embodiment of the present invention;

fig. 2 is a second perspective view of the battery online detection device according to the embodiment of the present invention;

fig. 3 is a third perspective view of the battery online detection device according to the embodiment of the present invention;

fig. 4 is a fourth perspective view of the battery online detection device according to the embodiment of the present invention;

fig. 5 is a perspective view of an articulated arm provided in an embodiment of the present invention.

In the figure: 1. a chassis; 101. a vertical portion; 102. a horizontal portion; 2. a bracket; 3. a rotating sleeve; 4. a shovel plate; 5. a relief groove; 6. a motor; 7. a rotating shaft; 8. a lever; 9. a first pull rope; 10. an arm lever; 11. an end contact; 12. an articulated arm; 13. a second pull rope; 14. a jumper wire; 15. detecting the slot; 16. a controller; 17. an intelligent glasses; 18. an armrest; 19. a return spring; 20. a roller; 21. an insulating pad; 22. a through groove; 23. a clamping plate; 24. a clamping groove; 25. an upper fixing plate; 26. a lower movable plate; 27. an insertion groove; 28. a movable shaft; 29. an adjusting spring; 30. a bulb; 31. a bottom groove; 32. a chute; 33. a spool; 34. a telescopic rod; 35. an adjusting plate; 36. and (5) adjusting a bolt.

Detailed Description

The foregoing and other embodiments and advantages of the invention will be apparent from the following, more complete, description of the invention, taken in conjunction with the accompanying drawings. It will be apparent that the described embodiments are merely some, but not all, embodiments of the invention.

In one embodiment, as shown in FIGS. 1-2.

The battery on-line measuring device that this embodiment provided, it includes "L" shape chassis 1 that is used for placing in battery compartment one side, chassis 1 includes vertical portion 101 and horizontal portion 102, be equipped with a pair of support 2 that are located horizontal portion 102 top on the vertical portion 101, be equipped with the cover 3 that changes of horizontal direction between the support 2, be equipped with on the cover 3 and extend to the front side from the rear side of vertical portion 101, extend to the planar shovel board 4 in horizontal portion 102 bottom place from horizontal portion 102 top, the bottom of battery pack in the battery compartment is inserted to the tip of shovel board 4 and can rotate along with changing the cover 3, offer the groove 5 that gives way of supplying shovel board 4 on the vertical portion 101, still be equipped with the motor 6 that drives cover 3 pivoted on the vertical portion 101, motor 6 drive cover 3 and shovel board 4 rotate can be lifted one side of battery pack. The front side of vertical portion 101 still is equipped with the pivot 7 that is located shovel board 4 one side, be equipped with lever 8 in the pivot 7, lever 8 one end extends to the one side that shovel board 4 is located and connects shovel board 4 through first stay cord 9, the other end extends to opposite side, still be equipped with the armed lever 10 that is located lever 8 top on the vertical portion 101, armed lever 10 extends to the direction of insertion of shovel board 4 and is connected with the articulated arm 12 of taking end contact 11, the articulated arm 12 is connected through second stay cord 13 with the tip of lever 8, when shovel board 4 rotates and lifts one side of group battery, lever 8 rotates and pulls articulated arm 12 down so that end contact 11 contacts the positive negative pole of group battery. The end contact 11 is connected to a detection slot 15 provided at the end of the arm lever 10 and located at the rear side of the vertical portion 101 through an embedded wire of the articulated arm 12, a jumper wire 14, and an embedded wire of the arm lever 10 which are sequentially connected, and the detection slot 15 is used for plugging a gauge pin of a multimeter. The vertical part 101 is also provided with a controller 16 for on-line transmission, the controller 16 is in wireless connection with an intelligent glasses 17, and the intelligent glasses 17 are used for recording fault conditions on site.

In this embodiment, after the battery compartment is opened, the battery in-line detecting device is placed on one side of the battery compartment. Wherein the end of the shovel 4 is inserted into the bottom of the battery pack in the battery compartment. On the basis, when the battery pack is used, the motor 6 drives the rotating sleeve 3 and the shovel plate 4 to rotate, and the rotating sleeve 3 and the shovel plate 4 enable the end part of the shovel plate 4 to be lifted in the rotating process so as to lift one side of the battery pack. Moreover, during the rotation of the shovel 4, the lever 8 rotatably connected to the rotation shaft 7 is raised and lowered at one end due to the pulling of the first pulling rope 9, the hinge arm 12 hinged to the arm lever 10 is depressed at the lowered end due to the pulling of the second pulling rope 13, and then the end contact 11 can contact the positive and negative poles of the battery pack. The standard size of each battery pack is different, but the general positions of the positive and negative electrodes are the same, so that arms 10, first pull cords 9, and second pull cords 13 having different lengths may be provided for different battery packs.

In the present embodiment, the end contact 11 is a metal contact directly contacting the electrode, which is led to a metal test socket 15 via an embedded wire (not shown in the figures) of the articulated arm 12, a jumper wire 14, an embedded wire (not shown in the figures) of the arm lever 10, and this test socket 15 is located at the rear side of the chassis 1. The front and rear sides are described herein with the insertion side of the blade 4, i.e., the side on which the battery pack is located, being the front side, and the side relatively far from the battery pack is the rear side. The operator inserts the gauge needle of the universal meter on the detecting slot 15, and then the operator can detect whether the battery pack has residual electricity. According to the battery on-line detection device provided by the embodiment, the operator is separated from the battery pack through the underframe 1, so that the detection distance is increased, and the operator is prevented from mistakenly touching other electrified components on the battery pack to improve the safety. At the same time, remote assistance may be requested for some unusual fault conditions. Specifically, the operator records the fault condition of the site in real time through the intelligent glasses 17. Remote communication is initiated by the controller 16 in lieu of conventional voice communication.

In one embodiment, as shown in FIG. 1.

In the battery on-line detection device provided in this embodiment, the shovel plates 4 include two, the two shovel plates 4 are distributed along the horizontal direction, and the abdication groove 5 includes two.

In this embodiment, the shovel 4 is initially partially inserted into the relief groove 5, and the shovel 4 is driven by the motor 6 to move out of the relief groove 5 and rotate upward. The two shovel plates 4 distributed along the horizontal direction can enlarge the supporting range of the bottom of the battery pack under the condition of the same material, so that the battery pack can be better supported.

In one embodiment, as shown in FIGS. 1-2.

In the battery on-line detecting device according to the present embodiment, the armrest 18 extending in the longitudinal direction and located above the horizontal portion 102 is further provided at one side of the rotating sleeve 3, and the return springs 19 connecting the rotating sleeve 3 to the bracket 2 are further provided at both ends of the rotating sleeve 3.

In the present embodiment, by providing the armrest 18, the shovel 4 can be driven to rotate upward even when the armrest 18 is manually depressed. The return spring 19 then provides the return. The armrests 18 are used when the battery in-line inspection device is initially placed because the ends of the blade 4 are inserted into the bottom of the battery pack in the battery compartment. If insertion is impeded, then the blade 4 is inserted deeper in cooperation with the hold down 18 during the forward pushing of the chassis 1. Thereby preventing the battery pack from being detached therefrom when the blade 4 is rotated upward in the later stage due to insufficient insertion of the blade 4.

In one embodiment, as shown in fig. 2-3.

In the battery on-line detecting device provided in this embodiment, a roller 20 wound to the rear side of a vertical portion 101 and along the horizontal direction is provided on one side of a horizontal portion 102, an insulating pad 21 is wound on the roller 20, a through groove 22 for the insulating pad 21 to penetrate to the lower side of a shovel plate 4 is provided at the bottom of the horizontal portion 102, a clamping plate 23 is provided at the bottom of the shovel plate 4, and a clamping groove 24 for matching the clamping plate 23 is provided on the insulating pad 21. When the shovel 4 is inserted into the bottom of the battery pack, the insulating pad 21 is brought into the bottom of the battery pack, and when the shovel 4 rotates to raise one side of the battery pack, the insulating pad 21 can be laid on the bottom of the battery pack by rotating the roller 20.

In the present embodiment, a technical solution is provided in which the insulating mat 21 is laid on the bottom of the battery pack. When the blade 4 is inserted into the bottom of the battery, the insulating mat 21 is also brought into the bottom of the battery by the cooperation of the card 23 and the card slot 24. And since one side of the battery pack is lifted by the shovel plate 4 in the later stage, the rotary roller 20 can continue to lay the insulating pad 21 forward at the bottom of the battery pack.

In one embodiment, as shown in fig. 4.

In the battery in-line detecting device according to the present embodiment, the upper fixing plate 25 and the lower movable plate 26 extending from both sides in opposite directions and being vertically offset are provided on the horizontal portion 102, and the insertion groove 27 for the multimeter is formed between the upper fixing plate 25 and the lower movable plate 26.

In the present embodiment, the multimeter can be fixed without being held by hand by providing the upper fixing plate 25 and the lower movable plate 26 with the insertion groove 27 therebetween. In addition, in order to match different specifications of different multimeters to provide a better fixing effect, a movable shaft 28 is connected to an end of the lower movable plate 26, and an adjusting spring 29 is provided between a bottom of the lower movable plate 26 and the horizontal portion 102.

In one embodiment, as shown in fig. 5.

The battery on-line detecting device provided in this embodiment further includes a bulb 30 for illuminating the end contact 11 on the hinge arm 12. In this embodiment, the bulb 30 is provided to facilitate a stand-off to see if the end contact 11 is in good contact with the positive and negative poles of the battery pack, and the light in the battery compartment itself is weak.

In one embodiment, as shown in fig. 5.

In the battery online detection device provided in this embodiment, the bottom of the hinge arm 12 is provided with the bottom groove 31 along the length direction, two sides of the hinge arm 12 are provided with the sliding grooves 32 which are positioned at two sides of the bottom groove 31 and are communicated with each other, the sliding grooves 32 are internally provided with the sliding columns 33, the end parts of the second pull ropes 13 are fixed on the sliding columns 33, the end parts of the second pull ropes 13 are further sleeved with the telescopic rods 34 which extend forwards and are abutted in the bottom groove 31, and the bulbs 30 are fixed on the telescopic rods 34. When the arm 12 is pulled down, the slide post 33 abuts against the rear end of the slide groove 32, the telescopic rod 34 is extended to relatively advance the position of the bulb 30, and the amount of advance of the bulb 30 increases as the pull-down amplitude of the arm 12 increases.

In the present embodiment, the provided technical solution can automatically adjust the illumination angle in cooperation with the magnitude of the pull-down of the articulated arm 12, thereby providing a better illumination effect. Specifically, the battery pack itself is raised on one side and raised on the rear side, and the operator stands on the rear side to see that if the pull-down width of the hinge arm 12 is large, which means that the position of the positive and negative poles of the battery pack is low, at this time, when the hinge arm 12 is pulled down, the telescopic rod 34 is extended to relatively advance the position of the bulb 30, so that a better illumination effect can be obtained.

In one embodiment, as shown in fig. 4.

In the battery on-line detecting device provided in this embodiment, the arm 10 is fixed to the adjusting plate 35 provided on the vertical portion 101, and the adjusting plate 35 is connected to the vertical portion 101 by the adjusting bolt 36, wherein the height of the arm 10 can be adjusted by rotating the adjusting bolt 36. In the present embodiment, the height of the arm 10 can be adjusted by turning the adjusting bolt 36.

The above-described embodiments are provided to further explain the objects, technical solutions, and advantageous effects of the present invention in detail. It should be understood that the foregoing is only illustrative of the present invention and is not intended to limit the scope of the present invention. It should be noted that any modifications, equivalent substitutions, improvements, etc. made by those skilled in the art without departing from the spirit and principles of the present invention are intended to be included in the scope of the present invention.

Claims (9)

1. The battery online detection device is characterized by comprising an L-shaped underframe (1) which is arranged on one side of a battery compartment, wherein the underframe (1) comprises a vertical part (101) and a horizontal part (102), a pair of brackets (2) which are positioned above the horizontal part (102) are arranged on the vertical part (101), a rotating sleeve (3) in the horizontal direction is arranged between the brackets (2), a shovel plate (4) which extends from the rear side to the front side of the vertical part (101) and extends from the upper side of the horizontal part (102) to the plane where the bottom of the horizontal part (102) is positioned is arranged on the rotating sleeve (3), the end part of the shovel plate (4) is inserted into the bottom of a battery pack in the battery compartment and can rotate along with the rotating sleeve (3), a yielding groove (5) for yielding the shovel plate (4) is formed in the vertical part (101), and a motor (6) which drives the rotating sleeve (3) is further arranged on the vertical part (101), and the motor (6) drives the battery pack (4) to rotate to one side of the shovel plate (4) in a lifting way.

The front side of the vertical part (101) is also provided with a rotating shaft (7) positioned at one side of the shovel plate (4), the rotating shaft (7) is provided with a lever (8), one end of the lever (8) extends to one side where the shovel plate (4) is positioned and is connected with the shovel plate (4) through a first stay rope (9), the other end of the lever extends to the opposite side where the shovel plate (4) is positioned, the vertical part (101) is also provided with an arm lever (10) positioned above the lever (8), the arm lever (10) extends towards the inserting direction of the shovel plate (4) and is connected with a hinged arm (12) with an end contact (11), the hinged arm (12) is connected with the end of the lever (8) through a second stay rope (13), and when the shovel plate (4) rotates to lift one side of the battery pack, the lever (8) rotates to pull down the hinged arm (12) so that the end contact (11) contacts the positive electrode and the negative electrode of the battery pack; the end contact (11) is connected to a detection slot (15) which is arranged at the end part of the arm lever (10) and is positioned at the rear side of the vertical part (101) through an embedded wire of the articulated arm (12), a jumper wire (14) and an embedded wire of the arm lever (10) which are sequentially connected, and the detection slot (15) is used for the gauge needle of a universal meter to be inserted; the vertical part (101) is further provided with a controller (16) for online transmission, the controller (16) is in wireless connection with the intelligent glasses (17), and the intelligent glasses (17) are used for recording fault conditions of the site.

2. The battery on-line detection device according to claim 1, wherein the shovel plates (4) comprise two shovel plates (4) distributed along a horizontal direction, and the relief groove (5) comprises two shovel plates.

3. The battery on-line detection device according to claim 1, characterized in that one side of the swivel (3) is further provided with a handrail (18) extending in its length direction and located above the horizontal portion (102), and both ends of the swivel (3) are further provided with a return spring (19) connecting it to the bracket (2).

4. The battery online detection device according to claim 1, wherein one side of the horizontal part (102) is provided with a roller (20) which is wound to the rear side of the vertical part (101) and is along the horizontal direction, the roller (20) is wound with an insulating pad (21), the bottom of the horizontal part (102) is provided with a through groove (22) for the insulating pad (21) to penetrate below the shovel plate (4), the bottom of the shovel plate (4) is provided with a clamping plate (23), and the insulating pad (21) is provided with a clamping groove (24) matched with the clamping plate (23); when the shovel plate (4) is inserted into the bottom of the battery pack, the insulating pad (21) is brought into the bottom of the battery pack, and when the shovel plate (4) rotates to lift one side of the battery pack, the insulating pad (21) can be paved on the bottom of the battery pack by rotating the roller (20).

5. The battery online detection device according to claim 1, wherein the horizontal portion (102) is provided with an upper fixed plate (25) and a lower movable plate (26) which extend from both sides in opposite directions and are vertically offset, and an insertion groove (27) for a multimeter is formed between the upper fixed plate (25) and the lower movable plate (26).

6. The battery online detection device according to claim 5, wherein the end of the lower movable plate (26) is connected with a movable shaft (28), and an adjusting spring (29) is provided between the bottom of the lower movable plate (26) and the horizontal portion (102).

7. The battery on-line detection device according to claim 1, characterized in that the articulated arm (12) is further provided with a bulb (30) illuminating the end contact (11).

8. The battery online detection device according to claim 7, wherein a bottom groove (31) along the length direction of the bottom groove is formed in the bottom of the hinged arm (12), sliding grooves (32) which are positioned on two sides of the bottom groove (31) and are communicated with each other are formed in two sides of the hinged arm (12), a sliding column (33) is arranged in each sliding groove (32), the end part of the second pull rope (13) is fixed on the sliding column (33), a telescopic rod (34) which extends forwards and is abutted against the bottom groove (31) is sleeved at the end part of the second pull rope (13), and the bulb (30) is fixed on the telescopic rod (34); when the articulated arm (12) is pulled down, the slide post (33) abuts against the rear end of the slide groove (32), the telescopic rod (34) is extended to enable the position of the bulb (30) to move forward relatively, and the forward movement amount of the bulb (30) is increased along with the increase of the pull-down amplitude of the articulated arm (12).

9. The battery on-line detecting device according to claim 8, wherein the arm lever (10) is fixed to an adjusting plate (35) provided on the vertical portion (101), the adjusting plate (35) is connected to the vertical portion (101) by an adjusting bolt (36), wherein the height of the arm lever (10) can be adjusted by rotating the adjusting bolt (36).