JP6847349B2 - Portable DC battery pack with self-inspection function - Google Patents

Description

The present invention relates to the field of inspection, and specifically, is a portable DC battery pack with a self-inspection function.

When one battery cannot meet the demand, multiple batteries are connected in series or in parallel to form a battery pack to meet the demand. When using a series connection battery pack, any of the batteries in the battery fails. If it does not work properly, the entire series-connected battery pack will become inoperable, affecting other tasks.
Before using the current battery pack, it is not possible to intuitively check the operating status of the battery pack, and when inspecting, each battery is manually inspected, which not only consumes human power but also has low efficiency. .. In addition, most of the existing devices that can automatically inspect the series connection battery pack can only inspect, and if one battery fails, the other battery can operate normally, but the battery The puck is still inoperable, affecting other work and leading to loss.

Chinese Patent Application Publication No. 1049774535

We provide a portable DC battery pack with a self-inspection function to solve problems such as low inspection efficiency.

The present invention provides the following technical plan: The portable DC battery pack with a self-inspection function according to the present invention includes a battery box, and a power connection mechanism is installed in the battery box, and the power connection is provided. The mechanism includes four batteries, and the four batteries are connected in series to form a series-connected battery pack.
An inspection mechanism for inspecting whether or not the battery can output current is installed in the battery box, the inspection mechanism includes a moving chamber, and a moving block is installed in the moving chamber. An elevating chamber that opens downward and has left and right end walls communicating with the moving chamber is installed in the moving block, and an energizing block is planted on the upper end wall of the moving block to form an upper end wall of the elevating chamber. A rotary chamber that opens downward is installed inside, a cam is installed in the rotary chamber, the lower end of the cam is located in the elevating chamber, and the cam is in the elevating chamber. An elevating block in contact with the elevating block and an elevating spring supporting the elevating block are installed, and a slide chamber penetrating the left and right end walls of the elevating block and having a lower end wall communicating with the elevating chamber is installed in the elevating block. A conductive block is installed in the slide chamber whose lower end is located in the moving chamber, a rack plate is fixed to the upper end of the conductive block, and between the front and rear end walls of the slide chamber. The slide shafts are rotatably connected, a slide gear meshing with the rack plate is fixed to the slide shaft, and a power connection block in contact with the lower rack plate is fixed to the left end of the upper rack plate. An insulating block is fixed to the right end of the lower rack plate, an insulating trapezoidal block is fixed to the right end of the upper rack plate, and the inspection mechanism is moved in the moving chamber. A drive mechanism capable of controlling the left-right movement of the rack plate is installed, and each time the battery is used, the drive mechanism moves and interlocks the inspection mechanism to check whether or not the four batteries can be output. When it is detected that the battery fails, the drive mechanism controls the movement of the rack plate and connects to the remaining three batteries to ensure that the series-connected battery pack outputs current normally. , Achieve self-inspection,
In the upper end wall of the moving chamber, a control mechanism for controlling whether or not the drive mechanism needs to be operated in conjunction with the rack plate is installed, and the control mechanism is the inspection result of the inspection mechanism. Make a judgment by.

Based on the above-mentioned technical plan, the power connection mechanism includes two power connection columns fixed to the upper end surface of the battery box, and a handle is fixed to the upper end surface of the battery box to be inside the battery box. Is installed with a power connection chamber communicating with the moving chamber, four batteries are fixed to the lower end wall of the power connection chamber, two electrodes are fixed to the upper end surfaces of the batteries, and eight of the above are The electrode and the two power connection columns are connected to each other by a lead wire.

Based on the above-mentioned technical plan, the inspection mechanism includes a telescopic spring, the telescopic spring connects the power connection block and the insulation block, and four inspection lights are installed on the upper end surface of the battery box. Has been done.

Based on the above-mentioned technical plan, the drive mechanism includes a motor, the right end of the motor is fixed to the right end wall of the moving chamber, and the drive shaft is movably connected to the left end of the moving chamber of the moving chamber. A fixed block is fixed between the upper and lower end walls, a storage chamber opened to the left is installed in the fixed block, a drive block is installed in the storage chamber, and the left end of the drive shaft is installed. A spring groove that penetrates the fixed block, the drive block, the moving block, and the cam, is connected to the cam by a screw thread, and opens to the left is installed in the drive block. An electromagnetic block is fixed to the upper end wall of the spring groove, and a spring rod whose left end is located in the moving chamber and a support spring that supports the spring rod are installed in the spring groove. An annular block is installed at the left end of the rod, a driven chamber is installed in the right end wall of the storage chamber, and a driven shaft is rotatably connected between the front and rear end walls of the driven chamber. A reel is fixed to the reel, a chain whose left end is connected to the drive block is wound around the reel, and a torsion spring connects the driven shaft and the end wall of the driven chamber to the rear of the spring groove. An elevating groove that opens upward and communicates with the spring groove is installed in the end wall, and a front end is installed in the spring groove and is located above the spring rod in the elevating groove. A rod is installed, and a lower push rod is fixed to the rear end of the elevating rod.

On the above-mentioned technical plan, the control mechanism includes a lifting chamber, and a lifting plate and a lifting spring connecting the lifting plate and the upper end wall of the lifting chamber are installed in the lifting chamber, and the lifting is performed. Four slide grooves opened downward are installed in the plate, a slide block is installed in the slide groove, and the right side of the upper end wall communicates with the lifting chamber in the lower end wall of the lifting chamber. The four parallel moving chambers are installed, the left side of the lower end wall of the parallel moving chamber communicates with the moving chamber, an electromagnet is fixed to the left end wall of the moving chamber, and the inside of the parallel moving chamber is , A magnet that repels the electromagnet when the electromagnet is energized is installed, and a rotation chamber that opens upward and the right end wall communicates with the translation chamber is installed in the magnet. A rotating shaft is rotatably connected between the front and rear end walls, a rotating plate whose right end is located in the translation chamber is fixed to the rotating shaft, and the upper end is the slide block at the right end of the rotating plate. A narrow rope connected to the magnet is fixed, a support plate is fixed to the right end of the magnet, a compression spring connected to the right end of the turning plate is fixed to the right end of the support plate, and the lower end wall of the lifting chamber is fixed. A through hole connecting the lifting chamber and the elevating groove is installed in the through hole, and a heavy object whose lower end is in contact with the upper end of the lower push rod is installed in the through hole, and a heavy object whose lower end is in contact with the upper end of the lower push rod is installed in the upper end of the heavy object. Has an upper end penetrating the upper end wall of the lifting chamber and a rope connected to the lifting plate is fixed.

On the above-mentioned technical plan, the lower end of the magnet is located in the moving chamber and is in contact with the moving block, and the frictional force generated between the moving block and the magnet is caused by the magnet. It is smaller than the magnetic force between the electromagnet and the electromagnet when it is not energized.

On the technical plan described above , the lifting spring is a lifting plate when there is one or more of the compression springs in a compressed state or one or more of the ropes in a taut (tensioned) state. Cannot be linked to return .

Based on the above-mentioned technical plan, the gravity of the heavy object is larger than the elasticity of the support spring.

The beneficial effect of the present invention is: The present invention has a simple structure, is convenient to operate, and the device can automatically check whether the batteries in the battery pack are operating normally when using the battery pack. When becomes inoperable, the inoperable battery is blown off by mechanical transmission and connected to another battery to guarantee the output of the battery pack so that it does not affect the work of the user, and at the same time, by the transmission of the automated machine. Increase the inspection efficiency and make the inspection result intuitive.

In order to explain the present invention in detail with reference to FIGS. 1 to 6 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-back direction and the up-down, left-right front-back direction of the self-projection relationship in FIG. 1 coincide with each other.

FIG. 1 is a schematic configuration diagram of an embodiment of the present invention. FIG. 2 is a schematic configuration diagram of “AA” according to an embodiment of the present invention. FIG. 3 is a schematic front enlarged view of a local cross section of the drive mechanism according to the embodiment of the present invention. FIG. 4 is a schematic front enlarged configuration of a local cross section of the control mechanism according to the embodiment of the present invention. FIG. 5 is a schematic front enlarged configuration of a local cross section of the inspection mechanism according to the embodiment of the present invention. FIG. 6 is a schematic view of the left side enlarged configuration of the entire cross section of the rotary chamber according to the embodiment of the present invention.

As shown in FIGS. 1 to 6, the portable DC battery pack with a self-inspection function includes a battery box 4, and a power connection mechanism 60 is installed in the battery box 4, and the power connection mechanism 60 is installed. Contains four batteries 13 and the four batteries 13 are connected in series to form a series-connected battery pack, and it is inspected whether or not the batteries 13 can output current in the battery box 4. An inspection mechanism 63 is installed, the inspection mechanism 63 includes a moving chamber 14, a moving block 6 is installed in the moving chamber 14, and a downward opening and left and right ends are installed in the moving block 6. An elevating chamber 9 whose wall communicates with the moving chamber 14 is installed, an energizing block 5 is planted on the upper end wall of the moving block 6, and a rotary chamber opened downward in the upper end wall of the elevating chamber 9. 49 is installed, a cam 59 is installed in the rotary chamber 49, the lower end of the cam 59 is located in the elevating chamber 9, and the lower end of the cam 59 is in contact with the cam 59 in the elevating chamber 9. The elevating block 8 and the elevating spring 10 supporting the elevating block 8 are installed, and the elevating block 8 penetrates the left and right end walls of the elevating block 8 and the lower end wall communicates with the elevating chamber 9. The slide chamber 51 is installed, a conductive block 53 whose lower end is located in the moving chamber 14 is installed in the slide chamber 51, and a rack plate 55 is fixed to the upper end of the conductive block 53. A slide shaft 58 is rotatably connected between the front and rear end walls of the slide chamber 51, and a slide gear 57 that meshes with the rack plate 55 is fixed to the slide shaft 58 and is attached to the left end of the rack plate 55 on the upper side. The power connection block 52 in contact with the lower rack plate 55 is fixed, the insulating block 56 is fixed to the right end of the lower rack plate 55, and the insulating trapezoidal shape is fixed to the right end of the upper rack plate 55. The block 54 is fixed, and a drive mechanism 61 capable of controlling the movement of the inspection mechanism 63 and the left-right movement of the two rack plates 55 is installed in the moving chamber 14, and each time the battery 13 is used, the drive mechanism 61 is installed. The drive mechanism 61 moves and interlocks the inspection mechanism 63 to inspect whether or not the four batteries 13 can output, and when it is detected that any of the batteries 13 fails, the drive mechanism 61 moves and interlocks the inspection mechanism 63 to the rack plate. Controlling the movement of 55 and connecting to the remaining three batteries 13, ensuring that the series-connected battery pack outputs current normally, self A control mechanism 62 is installed in the upper end wall of the moving chamber 14 to realize inspection and control whether or not the drive mechanism 61 needs to operate the rack plate 55 in conjunction with the rack plate 55. The mechanism 62 makes a judgment based on the inspection result of the inspection mechanism 63.

Advantageously, the power connection mechanism 60 includes two power connection columns 22 fixed to the upper end surface of the battery box 4, and a handle 1 is fixed to the upper end surface of the battery box 4, and the battery box 4 is fixed. A power connection chamber 12 communicating with the moving chamber 14 is installed in the inside, four batteries 13 are fixed to the lower end wall of the power connection chamber 12, and two batteries 13 are installed on the upper end surface of the battery 13. The electrodes 11 are fixed, and the eight electrodes 11 and the two power connection columns 22 are connected to each other by a lead wire 15.

Advantageously, the inspection mechanism 63 includes a telescopic spring 64, the telescopic spring 64 connects the power connection block 52 and the insulating block 56, and four inspections are performed on the upper end surface of the battery box 4. Light 2 is installed.

Advantageously, the drive mechanism 61 includes a motor 18, the right end of the motor 18 is fixed to the right end wall of the moving chamber 14, and the drive shaft 7 is ubiquitously connected to the left end of the motor 18. A fixed block 16 is fixed between the upper and lower end walls of the moving chamber 14, a storage chamber 36 opened to the left is installed in the fixed block 16, and a drive block 20 is installed in the storage chamber 36. The drive block is installed, the left end of the drive shaft 7 penetrates the fixed block 16, the drive block 20, the moving block 6 and the cam 59, and is connected to the cam 59 by a screw thread. A spring groove 35 opened to the left is installed in the spring groove 20, an electromagnetic block 66 is fixed to the upper end wall of the spring groove 35, and the left end is in the moving chamber 14 in the spring groove 35. A positioned spring rod 34 and a support spring 17 for supporting the spring rod 34 are installed, an annular block 42 is installed at the left end of the spring rod 34, and a driven chamber is installed in the right end wall of the storage chamber 36. 38 is installed, a driven shaft 41 is rotatably connected between the front and rear end walls of the driven chamber 38, a reel 39 is fixed to the driven shaft 41, and the left end of the driven block 20 is fixed to the reel 39. The chain 37 connected to the spring groove 37 is wound, and the driven shaft 41 and the end wall of the driven chamber 38 are connected by a torsion spring 40, and the spring groove 35 is opened upward in the rear end wall. An elevating groove 32 communicating with the spring groove 35 is installed, and in the elevating groove 32, an elevating rod 33 whose front end is installed in the spring groove 35 and located above the spring rod 34 is installed. A lower push rod 31 is fixed to the rear end of the elevating rod 33.

Advantageously, the control mechanism 62 includes a lifting chamber 3, and a lifting plate 26 and a lifting spring 27 connecting the lifting plate 26 and the upper end wall of the lifting chamber 3 are installed in the lifting chamber 3. The four slide grooves 28 opened downward are installed in the lifting plate 26, the slide block 29 is installed in the slide groove 28, and the upper end is installed in the lower end wall of the lifting chamber 3. Four parallel moving chambers 23 are installed on the right side of the wall and communicate with the lifting chamber 3, and the left side of the lower end wall of the parallel moving chamber 23 communicates with the moving chamber 14 on the left end wall of the moving chamber 14. The electromagnet 25 is fixed, and in the translation chamber 23, a magnet 46 that repels the electromagnet 25 when the electromagnet 25 is energized is installed, and the magnet 46 is opened upward. A rotation chamber 44 whose right end wall communicates with the translation chamber 23 is installed, a rotation shaft 45 is rotatably connected between the front and rear end walls of the rotation chamber 44, and the right end is parallel to the rotation shaft 45. A rotating plate 43 located in the moving chamber 23 is fixed, a narrow rope 24 whose upper end is connected to the slide block 29 is fixed to the right end of the rotating plate 43, and a support plate 47 is fixed to the right end of the magnet 46. Is fixed, a compression spring 48 connected to the right end of the turning plate 43 is fixed to the right end of the support plate 47, and the lifting chamber 3 and the elevating groove 32 are contained in the lower end wall of the lifting chamber 3. A through hole 30 is installed, and a heavy object 19 whose lower end is in contact with the upper end of the lower push rod 31 is installed in the through hole 30, and the upper end is the lifting chamber 3 at the upper end of the heavy object 19. A rope 21 that penetrates the upper end wall of the magnet and is connected to the lifting plate 26 is fixed.

Order of instrument operation for the entire device:

1: When using the battery box 4, the motor 18 operates to link the rotation of the drive shaft 7, and when the drive shaft 7 rotates clockwise, the drive shaft 7 moves the cam 59 to the right and further moves. When the block 6 is moved to the right and the two conductive blocks 53 are located above the battery 13 on the left side, the energizing block 5 comes into contact with the electromagnet 25 and the motor 18 operates to control the drive shaft 7 counterclockwise. Rotate it clockwise, rotate it counterclockwise by interlocking the cam 59, further interlock the elevating block 8 downward, and when the elevating block 8 descends to the lowermost side, the motor 18 stops operating and the elevating spring. 10 is compressed, and the two conductive blocks 53 and the two lower electrodes 11 are brought into contact with each other. If the battery 13 operates normally at this time, the battery 13 outputs a current and the current is a conductive block. By being transmitted to the energizing block 5 by the electric current block 5 and the rack plate 55, the energizing block 5 controls the operation of the electromagnet 25, further repels the electromagnet 25 and the magnet 46, and further moves the magnet 46 to the right. And one inspection light 2 shines.
2: The magnet 46 moves to the right, and the rotating plate 43 is further rotated by the compression spring 48 to loosen the rope 24. If the battery 13 cannot output an electric current, the energizing block 5 cannot be energized and is inspected. The measuring lamp 2 does not shine, the electromagnet 25 attracts the magnet 46, and the rope 24 does not loosen.
3: After inspecting the first battery 13, the motor 18 operates to rotate the drive shaft 7 clockwise, and further move the cam 59 and the moving block 6 to the right to move the remaining three batteries 13 to the right. To inspect.
4: After inspecting the four batteries 13, if there are two or less than two illuminated inspection lights 2, it is found that the battery box 4 cannot operate normally, and if the inspection lights 2-4 When one glows, it is found that all four batteries 13 can operate normally, and all four ropes 24 are loose. At this time, the lifting plate 26 moves upward by the action of the lifting spring 27, and the rope 21 Loosen, lower the heavy object 19, further lower the lower push rod 31, further lower the elevating rod 33, further lower the spring rod 34, further separate the annular block 42 from the trapezoidal block 54, and the motor 18 It operates to rotate the drive shaft 7 counterclockwise, further move the cam 59 and the moving block 6 to the left, further move the magnet 46 to the left to return, further rotate the rotating plate 43, and rotate the compression spring 48. Is compressed again, the narrow rope 24 pulls and lowers the lifting plate 26, raises the heavy object 19 by transmission to the rope 21, and further, the lifting rod 33, the spring rod 34, the annular block 42, and the lower push rod 31. When the moving block 6 moves to the leftmost side by attracting the magnet 46 to the electric magnet 25 which is not energized again, the motor 18 operates to rotate the drive shaft 7 clockwise, and further, the cam 59 After returning the device, the reset of the device is completed.
5: If three of the inspection lights 2 shine, one narrow rope 24 is not loosened, the lifting plate 26 cannot be moved upward by the action of the lifting spring 27, and the moving block 6 is further moved. When moving to the rightmost side, the trapezoidal block 54 is located at the center of the annular block 42, at which time the motor 18 operates to rotate the drive shaft 7 counterclockwise, and the cam 59 and the moving block 6 are further left. Due to the restrictions of the trapezoidal block 54 and the annular block 42, the upper rack plate 55 moves to the right, the lower rack plate 55 moves to the left, the telescopic spring 64 is compressed, and the power connection block 52 and When the slide gear 57 comes into contact, the rack plate 55 stops moving, at which time the distance between the two conductive blocks 53 is the same as the distance between the two adjacent negative electrodes 11, and if the moving block 6 Continues to move to the left, the drive block 20 moves to the left in tandem, pulls the chain 37, twists the spring 40, and moves the moving block 6 to the upper side of the battery 13 that cannot operate normally. At this time, the motor 18 operates to rotate the drive shaft 7 clockwise to lower the elevating block 8, and when the elevating block 8 descends to the lowermost side, the motor 18 stops operating, and at this time, the right side The conductive block 53 is connected to the negative electrode 11 of the battery 13 that cannot operate normally, the conductive block 53 on the left side is connected to the negative electrode of the battery 13 on the left side of the battery 13 that cannot operate normally, and the series connection battery pack is normally connected. To operate.
6: After using the battery box 4, the electromagnet 66 operates to lower the elevating rod 33, further lower the spring rod 34 and the annular block 42, separate the annular block 42 from the trapezoidal block 54, and further lower the rack plate. The 55 is restored by the action of the telescopic spring 64, the torsion spring 40 is reset and the chain 37 is tightly wound, so that the drive block 20 is restored. At this time, the motor 18 operates to limit the return of the moving block 6.

Engineers in this field can clarify that they do not depart from the general spirit and ideas of the present invention, and various modifications can be made to the above examples, all of which are within the scope of protection of the present invention. The protection plan of the present invention should be standardized on the claim of the present invention.

Claims (8)

A portable DC battery pack with a self-inspection function, which includes a battery box in front view, a power connection mechanism is installed in the battery box, and the power connection mechanism contains four batteries. The four batteries are connected in series to form a series-connected battery pack .
An inspection mechanism for inspecting whether or not the battery can output current is installed in the battery box, the inspection mechanism includes a moving chamber, and a moving block is installed in the moving chamber. An elevating chamber that opens downward and has left and right end walls communicating with the moving chamber is installed in the moving block, and an energizing block is planted on the upper end wall of the moving block to form an upper end wall of the elevating chamber. A rotary chamber that opens downward is installed inside, a cam is installed in the rotary chamber, the lower end of the cam is located in the elevating chamber, and the cam is in the elevating chamber. An elevating block in contact with the elevating block and an elevating spring supporting the elevating block are installed, and a slide chamber penetrating the left and right end walls of the elevating block and having a lower end wall communicating with the elevating chamber is installed in the elevating block. A conductive block is installed in the slide chamber whose lower end is located in the moving chamber, a rack plate is fixed to the upper end of the conductive block, and between the front and rear end walls of the slide chamber. The slide shafts are rotatably connected, a slide gear meshing with the rack plate is fixed to the slide shaft, and a power connection block in contact with the lower rack plate is fixed to the left end of the upper rack plate. An insulating block is fixed to the right end of the lower rack plate, an insulating trapezoidal block is fixed to the right end of the upper rack plate, and the inspection mechanism is moved in the moving chamber. A drive mechanism capable of controlling the left-right movement of the rack plate is installed, and each time the battery is used, the drive mechanism moves and interlocks the inspection mechanism to check whether or not the four batteries can be output. When it is detected that the battery fails, the drive mechanism controls the movement of the rack plate and connects to the remaining three batteries to ensure that the series-connected battery pack outputs current normally. , Achieve self-inspection,
In the upper end wall of the moving chamber, a control mechanism for controlling whether or not the drive mechanism needs to be operated in conjunction with the rack plate is installed, and the control mechanism is the inspection result of the inspection mechanism. A portable DC battery pack with a self-inspection function, which is characterized by making a judgment by. The power connection mechanism includes two power connection columns fixed to the upper end surface of the battery box, a handle is fixed to the upper end surface of the battery box, and power communicated with the moving chamber is contained in the battery box. A connection chamber is installed, four batteries are fixed to the lower end wall of the power connection chamber, two electrodes are fixed to the upper end surfaces of the batteries, eight electrodes and two power connection columns. The portable DC battery pack with a self-inspection function according to claim 1, wherein each of the two batteries is connected by a lead wire. The inspection mechanism includes a telescopic spring, the telescopic spring connects the power connection block and the insulating block, and four inspection lights are installed on the upper end surface of the battery box. The portable DC battery pack with the self-inspection function according to claim 1. The drive mechanism includes a motor, the right end of the motor is fixed to the right end wall of the moving chamber, and a drive shaft is conductively connected to the left end of the motor and fixed between the upper and lower end walls of the moving chamber. The block is fixed, a storage chamber opened to the left is installed in the fixed block, a drive block is installed in the storage chamber, and the left end of the drive shaft is the fixed block and the drive block. A spring groove that penetrates the moving block and the cam and is connected to the cam by a thread, and a spring groove that opens to the left is installed in the drive block, and the upper end wall of the spring groove has a spring groove. The electromagnetic block is fixed, and a spring rod whose left end is located in the moving chamber and a support spring that supports the spring rod are installed in the spring groove, and an annular block is installed at the left end of the spring rod. A driven chamber is installed in the right end wall of the storage chamber, a driven shaft is rotatably connected between the front and rear end walls of the driven chamber, and a reel is fixed to the driven shaft. A chain whose left end is connected to the drive block is wound around the reel, and a torsion spring is connected between the driven shaft and the end wall of the driven chamber, and the rear end wall of the spring groove is moved upward. An elevating groove that opens and communicates with the spring groove is installed, and an elevating rod having a front end installed in the spring groove and located above the spring rod is installed in the elevating groove. The portable DC battery pack with a self-inspection function according to claim 1, wherein a lower push rod is fixed to the rear end. The control mechanism includes a lifting chamber, in which a lifting plate and a lifting spring connecting the lifting plate and the upper end wall of the lifting chamber are installed, and an opening downward in the lifting plate. Four slide grooves are installed, a slide block is installed in the slide groove, and four translation chambers whose right side of the upper end wall communicates with the lifting chamber are installed in the lower end wall of the lifting chamber. The left side of the lower end wall of the translation chamber communicates with the movement chamber, an electromagnet is fixed to the left end wall of the translation chamber, and the electromagnet is energized in the translation chamber. A magnet that repels the electromagnet is installed, and a rotation chamber that opens upward and the right end wall communicates with the translation chamber is installed in the magnet, and rotation is performed between the front and rear end walls of the rotation chamber. The shafts are rotatably connected, and a rotating plate whose right end is located in the translation chamber is fixed to the rotating shaft, and a narrow rope whose upper end is connected to the slide block is fixed to the right end of the rotating plate. A support plate is fixed to the right end of the magnet, a compression spring connected to the right end of the turning plate is fixed to the right end of the support plate, and the lifting chamber is formed in the lower end wall of the lifting chamber. A through hole communicating with the elevating groove is installed, a heavy object whose lower end is in contact with the upper end of the lower push rod is installed in the through hole, and an upper end is the upper end of the lifting chamber at the upper end of the heavy object. The portable DC battery pack with a self-inspection function according to claim 4, wherein a rope that penetrates a wall and is connected to the lifting plate is fixed. The lower end of the magnet is located in the moving chamber and is in contact with the moving block, and the frictional force generated between the moving block and the magnet is the same as that of the electromagnet when the magnet is not energized. The portable DC battery pack with a self-inspection function according to claim 5, wherein the magnetic force is smaller than the magnetic force between the two. When there is one or more compression springs in a compressed state, or one or more of the ropes in a taut (tensioned) state, the lifting spring cannot return and interlock the lifting plate. The portable DC battery pack with the self-inspection function according to claim 5. The portable DC battery pack with a self-inspection function according to claim 5, wherein the gravity of the heavy object is larger than the elasticity of the support spring.

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