JP2019207850A - New model power battery device and usage - Google Patents

Abstract

To disclose a new model power battery device.SOLUTION: A new model power battery device includes an attachment box, a leading component, and a power battery component which are fixedly attached to a body. A housing groove is installed on an end surface on a right side of the attachment box, the leading component is slidably engaged and connected to the housing groove, a driving groove extending to a left side is installed on a bottom wall of the housing groove, a driving structure engaged and connected with the leading component with a driving force is installed, a first groove is installed on a left side wall of the housing groove, a second groove is installed on the left side wall of the housing groove existed in a lower side of the first groove, an end terminal of the bottom part of the second groove is installed so as to be communicated with the driving groove, a third groove is installed to the left side wall of the second groove so as to be communicated, a pushing slide housing extended vertically on the left side wall of the first groove is installed so as to be communicated, the end terminal of the bottom part of the pushing slide housing is relatively positioned from the end terminal of a top part of the third groove, and a pushing slide block is slid and engaged to the pushing slide housing to be connected.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a power battery mounting and fixing technique, and more specifically, to a new type of power battery device and its usage.

As energy and environmental protection become more and more important to people, industries are implementing measures to save energy and reduce emissions. Especially in the automobile industry, not only energy saving and emission reduction in production, but also cars that are effective in energy saving and emission reduction during product development are becoming a trend. In front of you, major automobile companies in Japan and overseas compete to sell their new energy vehicles, especially mixed-power vehicles. Among them, the source of electrical energy is to add a set of power batteries to the car. Currently, the rectangular battery box is most adopted. Traditional power batteries are fixed by bolts and must be disassembled and installed using special tools. In addition to its complicated operation method, the existing power battery is difficult to connect properly when it is connected to power supply, and its stability is low, so it has a big impact on the service life of the power battery, so it can be quickly connected to the cable. A new power battery device that can be disassembled is required.

Chinese Patent Application Publication No. 10227145

  An object of the present invention is to provide a new type of power battery device and a method for using the same to solve the problems submitted to the background art.

The new power battery device of the present invention includes a mounting box, a pulling part, and a power battery part that are fixedly attached to the body, and a storage groove is installed on the right end surface of the mounting box, and the pulling part is placed in the storage groove. A drive groove that slides, engages and is connected and extends to the left is installed on the bottom wall of the storage groove, and a drive structure that is engaged and connected to the pulling part by power is installed in the drive groove. The first groove is installed on the left side wall, the second groove is installed on the left side wall of the previous storage groove below the first groove, and the bottom end of the second groove is installed in communication with the drive groove. A third groove is provided in communication with the left side wall of the second groove, and a push slide housing extending in the vertical direction is provided in communication with the left side wall of the first groove. In the position relative to the end of the top of the third groove, A push slide block is slidably engaged with and connected to the id housing, a slope push groove is installed on the right end surface of the push slide block, and the first slide extends vertically between the push slide housing and the third groove. A screw bolt rotates and engages and is connected, and an end of the top of the first screw bolt is inserted into the push slide housing and is engaged and connected with an end surface of the bottom of the push slide block with a screw. A first step wheel to be inserted into the third groove is fixedly installed at the end of the bottom of the screw bolt, and the slide block slides and engages with the first groove and is connected to the right end surface of the slide block. And a through groove extending to the left is communicated with the left side wall of the connection groove, and an extended end on the left side of the through groove passes through the left end surface of the slide block and the inclined surface pressing groove The cable connection slide block is slidably engaged with and connected to the through groove, and the cable connection slide block is inserted into the inclined push groove and slidably engaged and connected to the through end groove. An inclined surface resistance slide block is fixedly installed, and a slide lever extending vertically is slidably engaged with and connected to the slide block on the rear side of the through groove, and the outer surface of the slide lever on the upper side of the slide block The first spring is surrounded by a guide groove, and a guide groove is provided in communication with the top wall of the through groove. A guide block fixedly engaged with and connected to the guide groove is slidably engaged with the guide groove. And a second spring is pressed and engaged with the guide groove on the right side of the guide block, and is connected to the end wall of the top wall of the pull part. A convex portion is fixedly installed on the end surface of the top wall of the pulling part on the left side of the lifting chute, and a self-locking chute is installed on the end surface of the top wall of the pulling part on the right side of the lifting chute, A self-locking structure is installed in the self-locking chute, a lifting slide column is slidably engaged with and connected to the lifting chute, and a second screw bolt extending downward to the bottom end face of the lifting slide column is engaged and connected The bottom end of the second screw bolt is engaged with and connected to a lifting electric machine that is fixedly fitted to the bottom wall of the lifting chute, and an opening that communicates with the outside is provided on the rear side wall of the storage groove. A radiator fan device is fixedly installed at the opening, and the radiator fan device discharges heat generated when the power battery component is operated, thereby Increase the operating efficiency of Terry parts.

As a further technical plan, a drive slide block in which the drive structure is slidably engaged with and installed in the drive groove, and a drive screw bolt which is engaged with and connected to the drive slide block with a screw and is extended to the left and right A right extension end of the drive screw bolt is engaged with and connected to the drive electric machine by power, and an outer surface of the drive electric machine is fixedly fitted to a right wall of the drive groove, and a top portion of the drive slide block Is fixedly engaged with and connected to the end face of the bottom portion close to the left of the pulling part.

As a further technical plan, an elastic conductive portion is fixedly installed on the right end face of the cable connection slide block.

As a further technical plan, a first buffer plate is fixedly installed on the top wall of the storage groove.

As a further technical plan, the self-locking structure includes a locking slide block that is slidably engaged with and connected to the self-locking chute. Columns are slidably engaged and connected, and extended ends on both the left and right sides of the connection column are fixedly engaged with and connected to the left and right walls of the self-locking chute, and the bottom end of the self-locking chute is connected to the pulling part. A third spring is pressed into and engaged with the through groove on the upper side of the connection column, and passes through the end surface of the bottom portion and communicates with the outside, and the top end of the locking slide block is connected to the top portion of the pulling part. It goes out of the end face.

  As a further technical plan, it is attached to the top of the second buffer plate, a connection base is installed on the left end face of the power battery component, and a feed insertion groove is installed on the left end face of the connection base.

As a further technical plan, a second stage vehicle in which an adjusting electric machine opposite to the third groove is installed on the left end face of the pulling part, and extends out of the left end face of the pulling part at the left end of the adjusting electric machine Are connected by power.

The beneficial effects of the present invention are as follows: The present invention is simple in structure, convenient to operate, and the drive screw bolt slides to the left in the drive groove with the drive slide block through the drive electric machine. The pulling part is gradually inserted into the storage groove by the drive slide block until it reaches the leftmost side in the groove, and at this time, the left end of the pulling part and the convex part at the top of the pulling part are completely inserted by the driving slide block. At the same time, the second stage car is inserted into the third groove to the maximum extent by the pulling parts and is engaged and connected with the first stage car by power. Slide the power battery part completely into the storage groove and insert the connection terminal at the left end of the power battery part completely into the connection groove. The bottom end of the rocking slide block contacts and engages and engages the bottom wall of the storage groove to ensure stable locking operation of the rocking slide block, and then the second screw bolt is rotated by the lifting machine The lifting screw pillar is slid upward along with the second buffer plate and the power battery component at the top of the second buffer plate by the second screw bolt, and at the same time, the slide block is resisted by the pressure of the first spring by the connecting base. To the top of the first groove, and at this time, the slide block blocks the left end of the cable connection slide block until the top end of the power battery component and the first buffer plate are completely pressed and engaged and connected. Slide the slope resistance slide block to the top of the slope push groove. Sometimes the second stage car is rotated by the adjusting electric machine, the first stage car and the first screw bolt are rotated by the second stage car, and then the first screw bolt is used to push the slide block and slide it to the top of the slide housing. At the same time, the slope of the slope push groove and the slope of the slope resistance slide block are brought into contact with each other to slide and engage with each other. At this time, the slope resistance slide block causes the cable connection slide block and the guide block on the top of the cable connection slide block. Slide the cable to the right while resisting the pressure of the second spring, and at the same time, insert the conductive part into the power supply insertion groove by the cable connection slide block, thereby completing the connection operation of automatic power supply. Can control the sending operation and stable locking operation, and fast installation and disassembly of power battery parts To greatly improve the operating efficiency and stability of mounting power battery components.

FIG. 1 is a schematic view of the external relative structure of a new type of power battery device of the present invention. FIG. 2 is a schematic diagram of the internal structure of the mounting box of the present invention.

The present invention will be described in detail with reference to FIGS.

1 and 2, the new power battery device according to the embodiment of the present invention includes a mounting box 6, a pulling part 8 and a power battery part 7 fixedly attached to the body, and an end face on the right side of the mounting box 6. The storage groove 61 is installed, the pulling part 8 is slidably engaged with and connected to the storage groove 61, and a drive groove 62 extending leftward is installed on the bottom wall of the storage groove 61. A drive structure that is engaged with and connected to the pulling part 8 by power is installed, a first groove 65 is installed on the left side wall of the storage groove 61, and a left side of the previous storage groove 61 below the first groove 65 The second groove 63 is installed in the wall, the bottom end of the second groove 63 is installed in communication with the drive groove 62, the third groove 64 is installed in communication with the left side wall of the second groove 63, A push slide housing 66 extending vertically is communicated with the left side wall of the first groove 65, and the bottom end of the push slide housing 66 is in front. The push slide block 661 is slidably engaged with and connected to the push slide housing 66, and the slope push groove 662 is formed on the right end surface of the push slide block 661. A first screw bolt 642 that is installed and extends vertically between the push slide housing 66 and the third groove 64 is rotated and engaged, and the top end of the first screw bolt 642 is connected to the push slide housing. A first step wheel 641 to be inserted into the third groove 64 is fixed to the end of the bottom of the first screw bolt 642. The slide block 651 is slidably engaged with and connected to the first groove 65, the connection groove 653 is installed on the right end surface of the slide block 651, and the left side wall of the connection groove 653 extends to the left. Groove 655 is installed in communication, and An extended end on the left side of the lure groove 655 passes through the left end surface of the slide block 651 and communicates with the slope pushing groove 662, and a cable connection slide block 656 slides into and engages and connects to the through groove 655. A slope resistance slide block 657 is fixedly installed at the left end of the cable connection slide block 656 and inserted into the slope push groove 662 and pressed and slidably engaged and connected to the rear side of the through groove 655. A sliding lever 652 extending vertically is slidably engaged with and connected to the slide block 651, and a first spring 654 is disposed on the outer surface of the sliding lever 652 on the upper side of the slide block 651 so as to surround the through block. A guide groove 659 is provided in communication with the top wall of the groove 655, and a guide block 6591 that is fixedly engaged with and connected to the cable connection slide block 656 slides into the guide groove 659. Engaged and connected, a second spring 6592 is pressed and engaged with the guide groove 659 on the right side of the guide block 6591, and a lifting chute 82 is installed on the end surface of the top wall of the pulling part 8, A convex portion is fixedly installed on the end surface of the top wall of the pulling part 8 on the left side of the lifting chute 82, and a self-locking chute 83 is installed on the end face of the top wall of the pulling part 8 on the right side of the lifting chute 82, A self-locking structure is installed in the self-locking chute 83, a lifting slide column 821 is slidably engaged with and connected to the lifting chute 82, and a second screw bolt 822 extending downward is attached to the bottom end surface of the lifting slide column 821. The bottom end of the second screw bolt 822 is engaged with and connected to a lifting electric machine 823 that is fixedly fitted to the bottom wall of the lifting chute 82, and is connected to the rear side wall of the storage groove 61. An opening 612 communicating with the outside world is provided, The serial opening port 612 radiator fan device 613 is installed on the fixed, the radiator fan device 613 is discharged heat generated when the power battery part 7 is operated, thereby enhancing the operational efficiency of the power battery part 7.

As a useful example, the drive structure is slidably engaged with and installed in the drive groove 62, and the drive slide block 622 is screwed into and connected to the drive slide block 622 and extends left and right. A drive screw bolt 621 to be installed, and an extension end on the right side of the drive screw bolt 621 is engaged with and connected to the drive electric machine 623 by power, and an outer surface of the drive electric machine 823 is connected to a right wall of the drive groove 62. Inserted into fixed, the end of the top of the drive slide block 622 is fixedly engaged with and connected to the end face of the bottom adjacent to the left of the pulling part 8, thereby automatically controlling the insertion and insertion of the pulling part 8 To improve the operating efficiency.

As a useful example, a resilient conductive portion 658 is fixedly installed on the right end face of the cable connection slide block 656, thereby increasing the stability of the power supply connection.

As shown in a useful example, the first buffer plate 611 is fixedly installed on the top wall of the storage groove 61, thereby enhancing the strength of the power battery component 7.

As a beneficial example, the self-locking structure includes a locking slide block 831 that is slidably engaged with and connected to the self-locking chute 83, and a through-groove 832 is installed in the locking slide block 831, The connecting pillar 833 extending in the left and right direction is slidably engaged with and connected to the groove 832, and the extending ends on both the left and right sides of the connecting pillar 833 are fixedly engaged and connected to the left and right walls of the self-lock chute 83, respectively. The bottom end of the lock chute 83 penetrates the end surface of the bottom of the pulling part 8 and communicates with the outside world, and the third spring 834 is pressed and engaged with and connected to the through groove 832 on the upper side of the connection post 833. The end of the top of the locking slide block 831 protrudes beyond the end surface of the top of the pulling part 8, thereby realizing a stable locking operation and convenient for disassembly of the power battery part 7. Give.

As a useful example, a second buffer plate 824 is installed on the top of the elevating slide column 821, and the power battery component 7 is mounted on the top of the second buffer plate 824. A connection base 71 is installed on the left end face, and a feed insertion groove 72 is installed on the left end face of the connection base 71, thereby enhancing the stable and fixed operation of the power battery component 7.

As shown in a useful example, an adjustment electric machine 81 facing the third groove 64 is installed on the left end face of the pulling part 8, and a left end face of the pulling part 8 at the left end of the adjustment electric machine 81. A second stage car 811 that extends to the outside is connected by power.

  When in the initial state, the drive slide block 622 is positioned on the rightmost side of the drive groove 62. At this time, the lift slide column 821 is completely positioned on the lift chute 82, and at the same time, the push slide block 661 is pushed by the push slide housing. Located at the bottom of the body 66, at this time, the slide block 651 is pressed by the first spring 654 and positioned at the bottom of the first groove 65, and at the same time, the guide block 6591 is pressed by the second spring 6592. At this time, the cable connection slide block 656 at the bottom of the guide block 6591 is inserted into the slope push groove 662 with the slope resistance slide block 657 to the maximum extent, and at the same time, the cable connection is made. The conductive portion 658 is completely positioned in the through groove 655 by the slide block 656. At this time, the power battery component 7 is positioned on the top of the second buffer plate 824, and the power battery component 7 is Positioned between the ride blocks 831 and at the same time, the locking slide block 831 is pressed by the third spring 834 and the top end of the locking slide block 831 is pulled out to the maximum outside the end face of the top of the component 8, at this time, The left end face of the locking slide block 831 contacts the right end face of the power battery component 7 and at the same time, the left connection base 71 of the power battery component 7 and the connection groove 653 are positioned completely opposite to each other.

When mounting, the drive screw bolt 621 slides to the left in the drive groove 62 with the drive slide block 622 through the drive electric machine 623, and at this time, until the drive slide block 622 reaches the leftmost side in the drive groove 62. The pulling part 8 is gradually inserted into the storage groove 61 by the driving slide block 622, and at this time, the left end of the pulling part 8 and the convex part at the top of the pulling part 8 are completely inserted into the second groove 63 by the driving slide block 622. At the same time, the pulling part 8 causes the second stage car 811 to be inserted into the third groove 64 to the maximum extent and is engaged with and connected to the first stage car 641 by power. At this time, the pulling part 8 is connected to the power battery part 7. Then, the terminal 71 on the left end of the power battery part 7 is completely inserted into the storage groove 61 and the connection groove 653 is completely inserted.At the same time, the power supply insertion groove 72 and the through groove 655 are completely opposed to each other. , Rock The bottom end of the sliding slide block 831 contacts and engages and engages with the bottom wall of the storage groove 61 to secure a stable locking operation of the locking slide block 831. Rotate the bolt 822, and the second screw bolt 822 causes the lifting / lowering slide column 821 to slide upward together with the second buffer plate 824 and the power battery component 7 at the top of the second buffer plate 824, and simultaneously slides with the connection base 71. The block 651 is slid to the top of the first groove 65 by resisting the pressure of the first spring, and at this time, the end of the top of the power battery component 7 and the first buffer plate 611 are completely pressed and engaged and connected. Until the slide block 651 slides the slope resistance slide block 657 on the left end of the cable connection slide block 656 to the top of the slope push groove 662, The rotation of the lowering machine 823 is stopped, and at the same time, the second stage car 811 is rotated by the adjusting machine 81, the first stage wheel 641 and the first screw bolt 642 are rotated by the second stage car 811 and then the first screw The push slide block 661 is pushed by the bolt 642 and slid to the top of the slide housing 66, and at the same time, the slope of the slope push groove 622 and the slope of the slope resistance slide block 657 are slid to engage and operate, The slope resistor slide block 657 slides the cable connection slide block 656 and the guide block 6951 at the top of the cable connection slide block 656 to the right while resisting the pressure of the second spring. Inserting into the power feeding insertion groove 72, thereby completing the connection operation of automatic power feeding

The present invention relates to a power battery mounting and fixing technique, and more specifically, to a new type of power battery device and its usage.

As energy and environmental protection become more and more important to people, industries are implementing measures to save energy and reduce emissions. Especially in the automobile industry, not only energy saving and emission reduction in production, but also cars that are effective in energy saving and emission reduction during product development are becoming a trend. In front of you, major automobile companies in Japan and overseas compete to sell their new energy vehicles, especially mixed-power vehicles. Among them, the source of electrical energy is to add a set of power batteries to the car. Currently, the rectangular battery box is most adopted. Traditional power batteries are fixed by bolts and must be disassembled and installed using special tools. In addition to its complicated operation method, the existing power battery is difficult to connect properly when it is connected to power supply, and its stability is low, so it has a big impact on the service life of the power battery, so it can be quickly connected to the cable. A new power battery device that can be disassembled is required.

Chinese Patent Application Publication No. 10227145

An object of the present invention is to provide a new type of power battery device and a method for using the same to solve the problems submitted to the background art.

The new power battery device of the present invention includes a mounting box, a pulling part and a power battery part fixedly attached to the body, and a storage groove is installed on the right end surface of the mounting box, and the pulling part is connected to the storage groove. to the slide engagement connection, wherein the drive groove extending to the left bottom wall of the receiving groove is installed, the pulling part and engages connected Ru driven structure as motive power can be transmitted is installed in the driving groove said first groove on the left side wall of the receiving groove is installed, the left side wall of the receiving groove on the underside of the first groove second groove is disposed, said second groove end the driving groove of the bottom of the The third groove is communicated and installed on the left side wall of the second groove, and the push slide housing extending vertically is communicated and installed on the left side wall of the first groove. The position of the bottom end relative to the top end of the third groove A push slide block is slidably engaged with and connected to the push slide housing, a slope push groove is installed on the right end surface of the push slide block, and the push slide block is vertically moved between the push slide housing and the third groove. The first screw bolt extending to the rotation is engaged and connected, the top end of the first screw bolt is inserted into the push slide housing , and the end face of the bottom of the push slide block is engaged with the screw and connected. A first step wheel to be inserted into the third groove is fixedly installed at a bottom end of the first screw bolt, and a slide block is slidably engaged with and connected to the first groove. connecting grooves are disposed on an end surface of the right, said through grooves extending left to the left side wall of the connection groove is disposed communicates, through the end face of the left of the left extension ends the slide block of the through grooves And communicating with the inclined surface pressing groove is provided, the cable connecting the slide block to the through groove is slide engagement connection, the cable connection slide is inserted into the slope pushing groove at the end of the left block, and pressurized A slope resistance slide block that is slid, engaged, and connected is fixedly installed, and a slide lever that extends vertically is slidably engaged with and connected to the slide block on the rear side of the through groove. A first spring is installed around the outer surface of the upper guide lever, a guide groove is provided in communication with the top wall of the through groove, and the guide groove is fixedly engaged with the cable connection slide block. The guide block to be connected slides and engages, and the second spring is pressed and engaged with the guide groove on the right side of the guide block, and the pull is pulled. Goods lift shot on the end surface of the top wall is installed in the convex portion on the end surface of the pull part of the top wall of the left of the lift chute is installed fixedly, the elevating chute right of the pull part of the top wall of the A self-locking chute is installed on the end surface, a self-locking structure is installed on the self-locking chute, a lifting slide column is slidably engaged with and connected to the lifting chute, and extends downward to an end surface of the bottom of the lifting slide column. Two screw bolts are engaged and connected with screws, and the end of the bottom portion of the second screw bolt is engaged and connected so as to be able to transmit power to a lifting machine that is fixedly fitted to the bottom wall of the lifting chute, An opening that communicates with the outside world is provided on the rear side wall of the storage groove, and a radiator fan device is fixedly installed in the opening, and the radiator fan device operates the power battery component. The amount of heat generated during the operation is discharged, thereby increasing the operation efficiency of the power battery component.

As a further technical plan, a drive slide block in which the drive structure is slidably engaged with and installed in the drive groove, and a drive screw bolt which is engaged with and connected to the drive slide block with a screw and is extended to the left and right The right end of the drive screw bolt is engaged and connected so that power can be transmitted to the drive electric machine, and the outer surface of the drive electric machine is fixedly fitted to the right wall of the drive groove, The top end of the drive slide block is fixedly engaged and connected to the bottom end face proximate to the left of the pull piece.

As a further technical plan, an elastic conductive portion is fixedly installed on the right end face of the cable connection slide block.

As a further technical plan, a first buffer plate is fixedly installed on the top wall of the storage groove.

As a further technical plan, the self-locking structure includes a locking slide block that is slidably engaged with and connected to the self-locking chute, a through groove is installed in the locking slide block, and a connection that extends to the left and right in the through groove Columns are slidably engaged and connected, and the extension ends on both the left and right sides of the connection column are fixedly engaged and connected to the left and right walls of the self-locking chute, respectively, and the bottom end of the self-locking chute is the pulling part the bottom end face through the, and communicates the outside world communicates, the connecting posts to the through groove in the upper third spring is the pressure being engaged connection, the ends of the top portion of the locking slide block of the pulling part It goes out to the end face of the top.

As a further technical plan, it is attached to the top of the second buffer plate, a connection base is installed on the left end face of the power battery component, and a feed insertion groove is installed on the left end face of the connection base.

As a further technical plan, a second stage vehicle in which an adjusting electric machine opposite to the third groove is installed on the left end face of the pulling part, and extends out of the left end face of the pulling part at the left end of the adjusting electric machine There Ru is connected to the power can be transmitted.

The beneficial effects of the present invention are as follows: The present invention is simple in structure, convenient to operate, and the drive screw bolt slides to the left in the drive groove with the drive slide block through the drive electric machine. At this time, the drive slide block is driven. The pulling part is gradually inserted into the storage groove by the driving slide block until it reaches the leftmost side in the groove, and at this time, the left end of the pulling part and the convex part at the top of the pulling part are completely second by the driving slide block. is inserted into the groove, at the same time, it is inserted in the third groove to the maximum limit of the second-stage wheel by pulling part, and is engaged connection in a first stage wheel and the power, when this, pull component take power battery components Te seen write slip completely receiving groove, and the power battery components were completely connecting groove insert a connecting base ends of the left, at the same time, completely by relatively feeding insert groove and the through-groove, when the The bottom end of the rocking slide block contacts and engages and engages the bottom wall of the storage groove to ensure stable locking operation of the rocking slide block, and then the second screw bolt is rotated by the lifting machine And the second screw bolt causes the elevating slide column to slide up with the second buffer plate and the power battery component on the top of the second buffer plate, and at the same time, the connecting block resists the slide block against the pressure of the first spring. To the top of the first groove, and at this time, the slide block blocks the left end of the cable connection slide block until the top end of the power battery component and the first buffer plate are completely pressed and engaged and connected. Slide the slope resistance slide block to the top of the slope push groove. Sometimes the second stage car is rotated by the adjusting electric machine, the first stage car and the first screw bolt are rotated by the second stage car, and then the first screw bolt is used to push the slide block and slide it to the top of the slide housing. At the same time, the slope of the slope push groove and the slope of the slope resistance slide block are brought into contact with each other to slide and engage with each other. At this time, the slope resistance slide block causes the cable connection slide block and the guide block on the top of the cable connection slide block. Is slid to the right while resisting the pressure of the second spring, and at the same time, the elastic conductive portion is inserted into the power supply insertion groove by the cable connection slide block, thereby completing the connection operation of automatic power supply, thereby pulling parts Insertion, feeding operation and stable locking operation can be controlled, and power battery components can be removed quickly. It can be attached and disassembled to greatly improve the operating efficiency and stability of power battery components.

FIG. 1 is a schematic view of the external relative structure of a new type of power battery device of the present invention. FIG. 2 is a schematic diagram of the internal structure of the mounting box of the present invention.

In order to explain the present invention in detail with reference to FIGS. 1 and 2 below, and to provide a convenient explanation, the following directions are defined as follows: the vertical and horizontal directions described below and the projection relationship of FIG. The vertical and horizontal directions are the same.

1-2, a new type of power battery device according to an embodiment of the present invention includes a mounting box 6, a pulling part 8 and a power battery part 7 fixedly attached to the body, on the right side of the mounting box 6. A storage groove 61 is installed on the end surface, the pulling part 8 is slidably engaged with and connected to the storage groove 61, and a drive groove 62 extending leftward is installed on the bottom wall of the storage groove 61. driving structure the pulling part 8 and the power is Ru are engaged connection can be transmitted is installed, the first groove 65 is disposed on the left side wall of the receiving groove 61, the bottom of the first groove 65 wherein A second groove 63 is installed on the left side wall of the storage groove 61, the bottom end of the second groove 63 is installed in communication with the drive groove 62, and a third groove 64 is connected to the left side wall of the second groove 63. A push slide housing 66 extending in the vertical direction on the left side wall of the first groove 65 is installed in communication with the push slide housing. The bottom end of 66 is in a relative position with the top end of the third groove 64, and a push slide block 661 is slidably engaged with and connected to the push slide housing 66. A slope push groove 662 is installed on the end face, and a first screw bolt 642 extending vertically is connected between the push slide housing 66 and the third groove 64 by rotating and engaging, and the top of the first screw bolt 642 are inserted end to the push slide housing 66 of, and the press slide is engaged connection at the bottom end surface and the thread of the block 661, inserted into the third groove 64 in the end of the bottom portion of the first screw bolt 642 A first step wheel 641 is fixedly installed, a slide block 651 is slidably engaged with and connected to the first groove 65, a connection groove 653 is installed on the right end surface of the slide block 651, and the connection groove A through groove 655 that extends to the left on the left side wall of 653 The left extended end of the through groove 655 passes through the left end surface of the slide block 651 and is communicated with the slope pushing groove 662, and a cable connection slide block 656 is connected to the through groove 655. A slope resistance slide block 657 that is slidably engaged and connected , is inserted into the slope push groove 662 at the left end of the cable connection slide block 656 , and is slidably engaged and connected to be fixedly installed. A sliding lever 652 extending vertically is connected to the slide block 651 on the rear side of the through groove 655 by sliding and engaging with the first spring on the outer surface of the sliding lever 652 on the upper side of the slide block 651. 654 is installed to surround, and a guide groove 659 is installed in communication with the top wall of the through groove 655. The cable connection slide block 656 is fixedly engaged with and connected to the guide groove 659. The guide block 6591 slides and engages and is connected, and the second spring 6592 is pressed and engaged with and connected to the guide groove 659 on the right side of the guide block 6591, and is moved up and down to the end surface of the top wall of the pulling part 8 A chute 82 is installed, and a convex portion is fixedly installed on the end surface of the top wall of the pulling part 8 on the left side of the lifting chute 82. A lock chute 83 is installed, a self-locking structure is installed in the self-lock chute 83, a lifting slide column 821 is slidably engaged with and connected to the lifting chute 82, and is below the end surface of the bottom of the lifting slide column 821 The extending second screw bolt 822 is engaged and connected with a screw, and the end of the bottom portion of the second screw bolt 822 is engaged with the lifting / lowering electric machine 823 fixedly fitted to the bottom wall of the lifting chute 82 so that power can be transmitted. are combined connected, said housing Opening port 612 to the outside world communicates is provided on the side wall after 61, the radiator fan system 613 to open port 612 is fixedly installed, the amount of heat generated when the radiator fan system 613 is the power battery part 7 is operated This increases the operating efficiency of the power battery component 7.

As a useful example, the drive structure is slidably engaged with and installed in the drive groove 62, and the drive slide block 622 is screwed into and connected to the drive slide block 622 and extends left and right. A drive screw bolt 621 to be installed, and an extended right end of the drive screw bolt 621 is engaged and connected so that power can be transmitted to the drive electric machine 623, and an outer surface of the drive electric machine 823 is connected to the drive groove 62. It is fixedly fitted into the right wall, and the top end of the drive slide block 622 is fixedly engaged with and connected to the bottom end surface adjacent to the left of the pulling part 8, thereby inserting the pulling part 8 and Realizes automatic control of feeding and greatly increases operating efficiency.

As a beneficial example, a resilient conductive portion 658 is fixedly installed on the right end face of the cable connection slide block 656, thereby increasing the stability of the power supply connection.

As shown in a useful example, the first buffer plate 611 is fixedly installed on the top wall of the storage groove 61, thereby enhancing the strength of the power battery component 7.

As a beneficial example, the self-locking structure includes a locking slide block 831 that is slidably engaged with and connected to the self-locking chute 83, and a through-groove 832 is installed in the locking slide block 831, connecting post 833 which extends horizontally in the groove 832 is slid by engagement connection, the left and right sides of the extension ends of the connecting posts 833 are fixedly engaged respectively connected to right and left walls of the self-locking chute 83, the The bottom end of the self-locking chute 83 passes through the bottom end face of the pulling part 8 and communicates with the outside world , and the third spring 834 is pressed and engaged with the through groove 832 on the upper side of the connection post 833. The top end of the locking slide block 831 is connected to the outside of the end face of the pulling part 8, thereby realizing a stable locking operation and facilitating the disassembly of the power battery part 7. Give.

As a useful example, a second buffer plate 824 is installed on the top of the elevating slide column 821, and the power battery component 7 is mounted on the top of the second buffer plate 824. A connection base 71 is installed on the left end face, and a feed insertion groove 72 is installed on the left end face of the connection base 71, thereby enhancing the stable and fixed operation of the power battery component 7.

As shown in a useful example, an adjustment electric machine 81 facing the third groove 64 is installed on the left end face of the pulling part 8, and a left end face of the pulling part 8 at the left end of the adjustment electric machine 81. second stage wheel 811 Sashideru to the outer is Ru is connected to the power can be transmitted.

When in the initial state, the drive slide block 622 is positioned on the rightmost side of the drive groove 62. At this time, the lift slide column 821 is completely positioned on the lift chute 82, and at the same time, the push slide block 661 is pushed by the push slide housing. Located at the bottom of the body 66, at this time, the slide block 651 is pressed by the first spring 654 and positioned at the bottom of the first groove 65, and at the same time, the guide block 6591 is pressed by the second spring 6592. At this time, the cable connection slide block 656 at the bottom of the guide block 6591 is inserted into the slope push groove 662 with the slope resistance slide block 657 to the maximum extent, and at the same time, the cable connection is made. The elastic conductive portion 658 is completely positioned in the through groove 655 by the slide block 656. At this time, the power battery component 7 is positioned on the top of the second buffer plate 824, and the power battery component 7 is At the same time, the locking slide block 831 is pressed by the third spring 834 and the top end of the locking slide block 831 is maximally pulled out of the end face of the top of the component 8. Sometimes, the left end surface of the locking slide block 831 contacts the right end surface of the power battery part 7 and at the same time, the left connection base 71 of the power battery part 7 and the connection groove 653 are positioned completely opposite to each other.

At the time of installation, the drive screw bolt 621 slides to the left side in the drive groove 62 along with the drive slide block 622 through the drive electric machine 623, and is driven until the drive slide block 622 reaches the leftmost side in the drive groove 62 at this time. The pulling part 8 is gradually inserted into the storage groove 61 by the slide block 622, and at this time, the left end of the pulling part 8 and the convex part at the top of the pulling part 8 are completely inserted into the second groove 63 by the driving slide block 622. at the same time, the second stage wheel 811 by pulling part 8 is inserted into the third groove 64 in the maximum limit, and is engaged connection in the first stage wheel 641 and the power, when this, pull component 8 power battery part 7 fully seen write slip storage groove 61 brought, and power battery part 7 left so the end of the completely inserted connection groove 653 of the connecting base 71, at the same time, to fully relative to feed insert groove 72 and the through groove 655 At this time, The bottom end of the sliding slide block 831 contacts and engages and engages with the bottom wall of the storage groove 61 to secure a stable locking operation of the locking slide block 831. Rotate the bolt 822, and the second screw bolt 822 causes the lifting / lowering slide column 821 to slide upward together with the second buffer plate 824 and the power battery component 7 at the top of the second buffer plate 824, and simultaneously slides with the connection base 71. The block 651 is slid to the top of the first groove 65 against the pressure of the first spring, and at this time, the top end of the power battery component 7 and the first buffer plate 611 are completely pressed and engaged and connected. Slide the slope resistor slide block 657 on the left end of the cable connection slide block 656 to the top of the slope push groove 662 by the slide block 651, The rotation of the lowering machine 823 is stopped, and at the same time, the second stage car 811 is rotated by the adjusting machine 81, the first stage wheel 641 and the first screw bolt 642 are rotated by the second stage car 811 and then the first screw The push slide block 661 is pushed by the bolt 642 and slid to the top of the slide housing 66, and at the same time, the slope of the slope push groove 622 and the slope of the slope resistance slide block 657 are slid to engage and operate, The slant resistance slide block 657 slides the cable connection slide block 656 and the guide block 6591 at the top of the cable connection slide block 656 to the right while resisting the pressure of the second spring, and at the same time, the elastic connection of the elastic connection by the cable connection slide block 656. The portion 658 is inserted into the power supply insertion groove 72, thereby completing the connection operation of automatic power supply.

Claims (1)

  The new power battery device includes a mounting box fixed to the body, a pulling part, and a power battery part. The features are: a storage groove is installed on the right end surface of the mounting box, and the pulling part is the storage groove. A drive groove extending to the left is installed on the bottom wall of the storage groove, and a drive structure that is engaged with and connected to the pulling part by power is installed in the storage groove. The first groove is installed on the left side wall of the first groove, the second groove is installed on the left side wall of the previous storage groove below the first groove, and the bottom end of the second groove is installed in communication with the drive groove. A third groove is provided in communication with the left side wall of the second groove, and a push slide housing extending in the vertical direction is provided in communication with the left side wall of the first groove. It is in a relative position with the top end of the third groove, and the push A push slide block is slidably engaged with and connected to the slide housing, a slope push groove is provided on an end surface on the right side of the push slide block, and the first extends vertically between the push slide housing and the third groove. A screw bolt rotates and engages and is connected, and an end of the top of the first screw bolt is inserted into the push slide housing and is engaged and connected with an end surface of the bottom of the push slide block with a screw. A first step wheel to be inserted into the third groove is fixedly installed at the end of the bottom of the screw bolt, and the slide block slides and engages with the first groove and is connected to the right end surface of the slide block. A through groove extending to the left is connected to the left side wall of the connection groove, and an extended end on the left side of the through groove passes through the left end surface of the slide block and The cable connection slide block is slidably engaged with and connected to the through groove, and the cable connection slide block is inserted into the sloped push groove at the left end of the cable connection slide and is engaged with the slide slide engagement. A slope resistance slide block to be connected is fixed, and a sliding lever extending vertically is slidably engaged with and connected to the sliding block on the rear side of the through groove, and the sliding lever on the upper side of the sliding block is connected. A first spring is installed around the outer surface, a guide groove is provided in communication with the top wall of the through groove, and a guide block fixedly engaged with and connected to the cable connection slide block slides into the guide groove. Engaged and connected, a second spring is pressed into and engaged with the guide groove on the right side of the guide block, and is moved up and down on the end surface of the top wall of the pulling part. A protrusion is fixedly installed on the end surface of the top wall of the pulling part on the left side of the lifting chute, and a self-locking chute is installed on the end surface of the top wall of the pulling part on the right side of the lifting chute. The self-locking chute is provided with a self-locking structure, and a lifting / lowering slide column is slidably engaged with and connected to the lifting / lowering chute, and a second screw bolt extending downward to the end surface of the bottom of the lifting / lowering sliding column is engaged with a screw. And an end of the bottom of the second screw bolt is engaged with and connected to a lifting machine that is fixedly fitted to the bottom wall of the lifting chute, and an opening that communicates with the outside is connected to the rear side wall of the storage groove. And a radiator fan device is fixedly installed at the opening, and the radiator fan device discharges heat generated when the power battery component is operated, thereby Driving efficiency of battery parts is increased, and the drive structure is installed by sliding and engaging with the drive groove and the drive slide block engaging with and connected to the drive slide block and extending left and right. A drive bolt including a screw bolt, and an extension end on the right side of the drive screw bolt is engaged with and connected to a drive electric machine, and an outer surface of the drive electric machine is fixedly fitted to a right wall of the drive groove, and the drive slide block The end of the top of the pulling part is fixedly engaged with and connected to the end face of the bottom part close to the left of the pulling part, and the elastic conductive part is fixedly installed on the right end face of the cable connection slide block, and the top of the storage groove A first shock-absorbing plate fixed to a wall, and the self-locking structure includes a locking slide block that slides into and engages with the self-locking chute A through-groove is installed in the slide block, and connecting pillars that extend to the left and right slide into and engage with the through-groove, and the extending ends on both the left and right sides of the connecting pillar are engaged with the left and right walls of the self-locking chute, respectively. The bottom end of the self-locking chute penetrates the end surface of the bottom part of the pulling part and communicates with the outside world, and a third spring is pressed and engaged with the through groove on the upper side of the connecting column. Connected, the end of the top of the locking slide block extends out of the end surface of the top of the pulling part, a second buffer plate is installed on the top of the elevating slide column, and the power battery component is the top of the second buffer plate Is attached to the left end surface of the power battery component, a feed insertion groove is provided on the left end surface of the connection base, and the third end is provided on the left end surface of the pull component. When the second stage car that extends to the outside of the left end surface of the pulling part is connected by power to the left end of the adjusting electric machine and is in the initial state, the drive slide block is a drive groove. At this time, the elevating slide column is completely located on the elevating chute, and at the same time, the push slide block is located at the bottom of the push slide housing. At this time, the slide block is first The guide block is located at the bottom of the first groove by being pressed by the spring, and at the same time, the guide block is located at the leftmost side of the guide groove by being pressed by the second spring. At this time, the cable connection slide block at the bottom of the guide block The slope resistance slide block is inserted into the slope push groove to the maximum extent, and at the same time, the conductive part is completely positioned in the through groove by the cable connection slide block. The battery part is located on the top of the second shock absorber and the power battery part is located between the convex part and the locking slide block. At the same time, the locking slide block is pressed by the third spring so that the top end of the locking slide block is Pull out as far as possible to the outside of the top surface of the component. At this time, the left end surface of the locking slide block meets the right end surface of the power battery component. When mounting, the drive screw bolt slides to the left side of the drive groove with the drive slide block through the drive electric machine, and at this time, the drive slide block arrives at the leftmost side in the drive groove The pulling part is gradually inserted into the storage groove by the drive slide block until the drive slide. With the ride block, the left end of the pulling part and the convex part at the top of the pulling part are completely inserted into the second groove, and at the same time, the second step wheel is inserted into the third groove as much as possible by the pulling part. At this time, the pulling part slides completely into the storage groove with the power battery part and the connecting terminal at the left end of the power battery part is completely inserted into the connecting groove, and at the same time, power is supplied. The insertion groove and the through groove are completely opposed to each other, and at this time, the bottom end of the locking slide block is brought into contact with the bottom wall of the storage groove to be engaged and connected, and then the locking slide block is stably locked. And then the second screw bolt is rotated by the lifting machine, and the second screw bolt causes the lifting slide column to move the power bar at the top of the second buffer plate and second buffer plate At the same time, slide the slide block to the top of the first groove by resisting the pressure of the first spring by the connecting base, at this time, the top end of the power battery part and the first buffer The slide block slides the slope resistance slide block at the left end of the cable connection slide block to the top of the slope push groove until the plates are completely pressed and engaged and connected. At this time, the elevator motor stops rotating. At the same time, the second stage car is rotated by the adjusting electric machine, the first stage car and the first screw bolt are rotated by the second stage car, and then the first slide screw is used to push the slide block to the top of the slide housing. At the same time, slide and engage the slope of the slope push groove and the slope of the slope resistance slide block to engage and operate. , Slide the cable connection slide block and the guide block at the top of the cable connection slide block to the right while resisting the pressure of the second spring by the slope resistance slide block, and at the same time, insert the conductive part into the power supply insertion groove by the cable connection slide block This completes the automatic power supply connection operation.

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