JP2019206321A - Power battery combination device - Google Patents

Abstract

To provide an intelligent power battery combination device.SOLUTION: The power battery combination device includes a packed enclosure arranged at a top part of a new energy vehicle body and a battery body mounted on the packed enclosure by locking. A guide enclosure is arranged at an inner wall at the left side of the packed enclosure, and a guide lever that extends vertically is fixedly arranged in the guide enclosure. A mold lifting plate is slidably and engagedly mounted in the guide enclosure, and the mold lifting plate is inserted into the packed enclosure and also slidably and engagedly connected to the packed enclosure. In the guide enclosure is arranged a first screw bolt engaged with and connected to the mold lifting plate by a screw. A terminal of a bottom part of the first screw bolt is rotationally and engagedly connected to an inner bottom wall of the guide enclosure, and a terminal of a top part of the first screw bolt is fixedly connected to a first rotary shaft. In the new energy vehicle body above the guide enclosure is arranged a power enclosure, and the first rotary shaft is rotationally arranged between the power enclosure and the guide enclosure.SELECTED DRAWING: Figure 1

Description

  The present invention relates to the field of power battery combination technology, and more particularly to an intelligent power battery combination device.

  In front of the eyes, there are many uses of new energy vehicles, and the storage batteries in them need to be frequently changed or dismantled. Storage batteries in traditional new energy vehicles can be installed directly into the grooves of new energy vehicles, so it is difficult to remove them manually, and when new energy is used for a long time, they become deformed into grooves. Or the entry of granules such as dust makes it difficult for the storage battery to be caught and removed, and the connector of the traditional storage battery must be manually connected, which is inconvenient to use.

Chinese Patent Application No. 102769118

  It is an object of the present invention to provide an intelligent power battery combination device for solving the problems submitted to the background art described above.

The intelligent power battery combination device of the present invention includes a stuffing case installed at the top of a new energy vehicle body and a battery body attached to the stuffing case by locking, on the left inner wall of the stuffing case. A guide housing is installed, a guide lever extending vertically is fixedly installed in the guide housing, and a mold raising plate is slidably engaged and attached in the guide housing. A first screw bolt that is inserted into the stuffing housing and is slidably engaged with and connected to the stuffing housing, and is engaged with and connected to the mold raising plate in the guide housing, is installed, The bottom end of the first screw bolt rotates and engages with the inner bottom wall of the guide housing, the top end of the first screw bolt is fixedly connected to the first rotating shaft, and the guide A power case is attached to the new energy vehicle body above the case. The first rotating shaft is rotated and installed between the power casing and the guide casing, and a slide base is slidably engaged with and attached to the power casing. The first electric machine is fixedly installed on the end face, the spline shaft is connected to the bottom end of the first electric machine by power, and the spline housing into which the spline shaft is inserted is installed on the end face of the top of the first rotating shaft, A spring housing is installed symmetrically on the inner bottom wall of the power housing, and a compression spring is installed on the bottom wall of the spring housing to engage and connect with the end surface of the bottom of the slide base, A connection housing is installed in communication with the inner top wall of the power housing, and a switch housing installed in communication with the stuffing housing and the connection housing is installed on the end surface of the top of the new energy vehicle body, The slide base and pressed into the switch housing A switch structure that is engaged and connected is hinged and attached, a locking slide casing is installed symmetrically on the inner bottom wall of the stuffing casing, and the stuffing casing is placed in the locking slide casing A locking slide plate to be inserted into the sliding slide is engaged and attached, and a locking slide block is fixedly installed on the opposite end surfaces of the locking slide plate on both the left and right sides to be inserted into the stuffing housing, and the locking slide A second electric machine is fixedly installed on the inner wall on the left side of the housing, a second screw bolt is connected to the right end of the second electric machine by power, and the second screw bolt is engaged and connected to the locking slide plate with a screw. And rotate and engage and connect with the part between the locking slide housings on both the left and right sides, and a power transmission structure is connected by power to the right end of the second screw bolt, A support device is installed outside the first electric machine.

As a further technical plan, the switch structure includes an articulated axle installed at a left end of the switch housing, a switch plate that connects the articulated axle with a hinge and closes the switch housing, A tension lever to be inserted into the connection housing is fixedly installed on the left end surface of the switch plate, a storage housing is fitted and installed on the right side of the top end surface of the switch plate, and a pull ring is installed in the storage housing. Rotate, engage and connect.

As a further technical plan, the power transmission structure includes a first transmission housing that is installed in the new energy vehicle body on the right side of the rocking slide housing, and between the first transmission housing and the rocking slide housing. A second rotating shaft connected fixedly to the right end of the second screw bolt is rotated and engaged, and a first step wheel is fixedly installed at the right end of the second rotating shaft. A second gear that meshes with the first gear is installed in one transmission housing, a second transmission housing is installed immediately above the first electric housing, and the second transmission housing and the first A third rotating shaft is fixedly attached to the top end of the third rotating shaft. The third rotating shaft is fixedly connected to the end of the top of the second rotating vehicle. A fourth car that is installed and meshes with the third car in the second transmission housing; A slide housing is installed on the left side of the transmission housing to communicate with the stuffing housing, and the power transmission block is slidably engaged with and attached to the slide housing, and is attached to the right end surface of the power transmission block. A third screw bolt is engaged and attached with a screw, the third screw bolt is rotated and engaged between the slide housing and the second transmission housing, and the right end is the fourth stage. A power transmission hole is installed in the left end face of the power transmission block, fixedly connected to the left end face of the vehicle.

As a further technical plan, a fixed block is fixedly attached to an end surface of the bottom of the battery body, and a locking slide opening facing the locking slide housing is symmetrically installed on an end surface of the bottom of the fixed block. A locking port into which the locking slide block is inserted is installed on an end surface on the opposite side of the locking slide port, and an electron transmitter to be inserted into the power transmission hole is fixedly installed on the right end surface of the battery body.

As a further technical plan, an elastic fixing plate that slides, engages and connects with the fixing block on the end face of the top portion of the mold raising plate is fixed in a symmetrical manner, and the elastic force fixing plates on both the left and right sides face each other A stator is fixedly installed on the end face on the side, and fixing ports into which the stator is inserted are symmetrically installed on the left and right end faces of the fixing block.

As a further technical plan, a penetrating housing facing the rocking slide housing is installed on the mold raising plate so as to penetrate vertically.

As a further technical plan, the second screw bolts in the rocking slide casings on the left and right sides are installed in opposite directions with screws.

As a further technical plan, the support device includes a buffer plate and a heat radiating piece, the buffer plate is installed at the left end and the right end of the first electric machine and is fixedly connected to the first electric machine, and the heat radiating piece is It is installed at the front end and the rear end of the first electric machine and is fixedly connected to the first electric machine.

Advantages of the present invention: The present invention is simple in structure, easy to operate, a guide housing is installed on the inner wall on the left side of the packing housing, and a guide lever that extends vertically is fixed in the guide housing. The mold raising plate is slidably engaged with and attached to the guide housing, and the mold raising plate is inserted into the stuffing housing and slidably engaged with and connected to the guide housing. A first screw bolt that engages and connects with the mold raising plate is installed in the inside, and the bottom end of the first screw bolt rotates and engages and connects with the inner bottom wall of the guide housing. The top end of the bolt is fixedly connected to the first rotating shaft, the power housing is installed on the new energy vehicle body above the guide housing, and the first rotating shaft rotates between the power housing and the guide housing. Installed, the slide base slides into and engages in the power housing, and is attached to the end surface of the bottom of the slide base. The machine is fixedly installed, the spline shaft is connected to the bottom end of the first electric machine by power, the spline housing into which the spline shaft is inserted is installed on the top end surface of the first rotating shaft, and the inner bottom wall of the power housing The spring housing is installed symmetrically on the left and right, and a compression spring is installed on the bottom wall of the spring housing to press and engage with the end surface of the bottom of the slide base. Is installed on the end face of the top part of the new energy vehicle body, and a switch housing that is installed in communication with the clogging housing and connection housing is installed. The connecting switch structure is connected by hinges, the locking slide housing is installed symmetrically on the inner bottom wall of the stuffing housing, and the locking slide plate to be inserted into the stuffing housing is inside the locking slide housing. Slide and engage The locking slide block is fixedly installed on the opposite end surfaces of the right and left locking slide plates to be inserted into the packing housing, and the second electric machine is fixedly installed on the left inner wall of the locking slide housing. The second screw bolt is connected by power to the right end of the two electric machines, and the second screw bolt engages and connects with the locking slide plate with screws and rotates and engages and connects with the part between the left and right locking slide housings. Then, the power transmission structure is connected to the right end of the second screw bolt by power, which makes it convenient to lock the battery body to the stuffing case, making the operation of the locking attachment easy and convenient. It is possible to prevent the battery body from being pressed and difficult to remove due to sand or other granular material entering it. The battery can be taken out more conveniently, and the battery can be connected automatically. This eliminates the need for manual operation and greatly increases the efficiency of automation.

FIG. 1 is a schematic diagram of an external overall structure of an intelligent power battery combination device of the present invention. FIG. 2 is a schematic diagram of the internal overall structure of the intelligent power battery combination device of the present invention. FIG. 3 is a left viewpoint image of the first slide block of the present invention. FIG. 4 is a schematic diagram of the right viewpoint structure of FIG. 1 of the present invention.

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

1 to 4, an intelligent power battery combination device according to an embodiment of the present invention includes a stuffing case 11 installed at the top of a new energy vehicle body 10 and a battery attached to the stuffing case 11 by locking. A guide housing 27 is installed on the left inner wall of the stuffing housing 11, and a guide lever 25 extending vertically is fixedly installed in the guide housing 27. The mold raising plate 17 is slidably engaged with and attached to the guide housing, and the mold raising plate 17 is inserted into the stuffing housing 11 and slidably engaged with and connected to the stuffing housing 11, and the guide housing A first screw bolt 26 is installed in the body 27 to be engaged with and connected to the mold raising plate 17 with a screw, and the bottom end of the first screw bolt 26 rotates with the inner bottom wall of the guide housing 27. Engaging and connecting, the top end of the first screw bolt 26 is fixedly connected to the first rotating shaft 54, and A power casing 58 is installed on the new energy vehicle body 10 on the upper side of the id casing 27, and the first rotating shaft 54 is rotated and installed between the power casing 58 and the guide casing 27. A slide base 31 is slidably engaged with and attached to the body 58, the first electric machine 52 is fixedly installed on the end surface of the bottom part of the slide base 31, and the spline shaft 53 is driven by the bottom end of the first electric machine 52. The spline housing 55 into which the spline shaft 53 is inserted is installed on the top end surface of the first rotary shaft 54, and the spring housing 56 is installed symmetrically on the inner bottom wall of the power housing 58. A compression spring 57 is installed on the bottom wall of the spring housing 56 so as to press and engage with the end surface of the bottom of the slide base 31, and the connection housing 32 communicates with the inner top wall of the power housing 58. Installed on the end face of the top part of the new energy vehicle body 10, respectively. A switch housing 39 that is installed in communication is installed, and a switch structure that is pressed and engaged with and connected to the slide base 31 in the switch housing 39 is connected by a hinge, and the switch housing 39 A locking slide casing 16 is installed symmetrically on the inner bottom wall, and a locking slide plate 15 to be inserted into the stuffing casing 11 is slidably engaged and attached in the locking slide casing 16, A locking slide block 13 is fixedly installed on the opposite end surfaces of the right and left locking slide plates 15 to be inserted into the housing 11, and the second electric machine 22 is fixed to the left inner wall of the locking slide housing 16. The second screw bolt 18 is connected to the right end of the second electric machine 22 by power, and the second screw bolt 18 is engaged with and connected to the locking slide plate 15 by screws, and the left and right locks The power transmission structure is connected to the right end of the second screw bolt 18 by power, and a support device is installed outside the first electric machine 52. The

As a useful example, the switch structure is connected to the articulated axle 34 installed at the left end of the switch housing 39, the articulated axle 34 with a hinge, and the switch housing 39 is connected to the switch housing 39. The switch lever 36 includes a switch plate 36 to be closed, and a tension lever 33 to be inserted into the connection housing 32 is fixedly installed on the left end surface of the switch plate 36, and a storage housing 38 is fitted on the right side of the top end surface of the switch plate 36. The pulling wheel 37 rotates and engages and is connected to the storage housing 38, which is convenient for blocking the stuffing housing 11 and suppressing the slide 31st.

As a beneficial example, the power transmission structure includes a first transmission housing 72 installed in the new energy vehicle body 10 on the right side of the rocking slide housing 16, and the first transmission housing 72 and A second rotary shaft 12 fixedly connected to the right end of the second screw bolt 18 rotates and engages between the locking slide housing 16 and is connected to the right end of the second rotary shaft 12. A first-stage vehicle 73 is fixedly installed, a second-stage vehicle 71 that meshes with the first-stage vehicle 73 is installed in the first transmission housing 72, and a second transmission is directly above the first electric housing 72. A casing 66 is installed, and a third rotating shaft 68 that rotates between the second transmission casing 66 and the first transmission casing 72 and whose bottom end is fixedly connected to the top end surface of the second step wheel 71 rotates. The third stage 67 is fixedly installed at the top end of the third rotating shaft 68, and the third stage 67 and the second transmission case 66 are A mating fourth-stage vehicle 65 is installed, a slide housing 63 that is installed in communication with the stuffing housing 11 is installed on the left side of the second transmission housing 66, and power is transmitted into the slide housing 63. The block 62 is slidably engaged and attached, and a third screw bolt 64 is engaged and attached to the right end surface of the power transmission block 62 with a screw. The third screw bolt 64 is connected to the slide housing 63 and the second housing. The right end is fixedly connected to the left end surface of the fourth step wheel 65 and the power transmission hole 61 is installed in the left end surface of the power transmission block 62. This provides convenience in automatically energizing and connecting to the battery body.

As a beneficial example, a fixed block 19 is fixedly attached to an end surface of the bottom of the battery body 35, and a locking slide port 43 facing the locking slide housing 16 is provided on an end surface of the bottom of the fixed block 19. The locking hole 14 into which the locking slide block 13 is inserted is installed on the opposite end surfaces of the left and right sides of the locking slide port 43, and the power transmission hole 61 is formed on the right end surface of the battery body 35. The electron feeder 42 to be inserted into the battery is fixedly installed, thereby providing convenience for energization connection and locking attachment to the battery body 35.

As shown in a useful example, an elastic fixing plate 23 that slides into engagement with and connects to the fixing block 19 is connected to the end surface of the top portion of the mold raising plate 17 so as to be symmetrically fixed. The stator 24 is fixedly installed on the opposite end surfaces of the force fixing plate 23, and the fixing ports 41 into which the stator 24 is inserted are symmetrically installed on the left and right end surfaces of the fixing block 19, whereby the battery Increase the mounting stability of the body 35.

As shown in a useful example, a penetrating housing 20 opposite to the rocking slide housing 16 is installed on the mold raising plate 17 so as to penetrate vertically, so that the rocking slide plate 15 is connected to the rocking slide port 43. It becomes convenient to insert into.

As a useful example, the second screw bolts 18 in the locking slide housings 16 on the left and right sides are installed in opposite directions with screws, thereby making the locking slide plates 15 on the left and right sides relative or opposite. Slide in the direction.

  As a useful example, the support device includes a buffer plate 81 and a heat dissipating piece 82, and the buffer plate 81 is installed at the left end and the right end of the first electric machine 52 and fixed to the first electric machine 52. The amount of heat generated when the heat radiating piece 82 is installed at the front end and the rear end of the first electric machine 52 and fixedly connected to the first electric machine 52, and the heat radiating piece 82 operates the first electric machine 52. The buffer plate 81 reduces the seismic power generated when the first electric machine 52 is operated, thereby reducing the vibration of the apparatus due to the excessive seismic power generated when the first electric machine 52 is operated. To prevent.

When the battery body 35 is taken out, the switch plate 36 is manually triggered by pulling the pulling ring 37, and when it is raised, the tension lever 33 rotates downward and the slide base 31 is slid downward while resisting the pressure of the compression spring 57. At this time, the spline shaft 53 is completely inserted into the spline housing 55, the second electric machine 22 is started, and the second screw bolt 18 is rotated to slide the left and right locking slide plates 15 in the relative directions. Later, the locking slide block 13 is completely detached from the locking port 14, and at the same time, the power transmission block 62 is slid to the right by the rotation of the second screw bolt 18 to completely disengage from the contact with the electron transmission 42. The first screw bolt 26 is rotated by starting the first electric machine 52, the mold raising plate 17 is slid to the top end of the guide housing 27 by the first screw bolt 26, Rekara, taken out once a manual to pull the battery 35 to the top

The present invention relates to the technical field of power battery combination, and more particularly to a power battery combination device .

  In front of the eyes, there are many uses of new energy vehicles, and the storage batteries in them need to be frequently changed or dismantled. Storage batteries in traditional new energy vehicles can be installed directly into the grooves of new energy vehicles, so it is difficult to remove them manually, and when new energy is used for a long time, they become deformed into grooves. Or the entry of granules such as dust makes it difficult for the storage battery to be caught and removed, and the connector of the traditional storage battery must be manually connected, which is inconvenient to use.

Chinese Patent Application No. 102769118

An object of the present invention is to provide a power battery combination device for solving the problems submitted to the background art described above.

The power battery combination device of the present invention includes a stuffing housing installed on the top of a new energy vehicle body and a battery body attached to the stuffing housing by locking, and a guide housing is provided on the left inner wall of the stuffing housing. A body is installed, and a guide lever extending vertically is fixedly installed in the guide housing, and a mold raising plate is slidably engaged and attached in the guide housing. A first screw bolt that is inserted into the stuffing housing and is slidably engaged with and connected to the stuffing housing, and is engaged with and connected to the mold raising plate in the guide housing by a screw; The end of the bottom of the first screw bolt rotates and engages with the inner bottom wall of the guide housing, the end of the top of the first screw bolt is fixedly connected to the first rotating shaft, and the guide A power case is installed on the new energy body above the case. The first rotating shaft is rotated and installed between the power casing and the guide casing, and a slide base is slidably engaged with and attached to the power casing. A spline housing in which the first electric machine is fixedly connected, the spline shaft is connected to the bottom end of the first electric machine so that power can be transmitted , and the spline shaft is inserted into the top end surface of the first rotating shaft. A compression spring in which a body is installed, a spring housing is installed symmetrically on the inner bottom wall of the power housing, and engages and connects to the bottom wall of the spring housing by pressing against the end surface of the bottom of the slide base A switch housing that is installed in communication with the inner top wall of the power housing, and that is installed in communication with the clogging housing and the connection housing on the top end surface of the new energy vehicle body, respectively. A body is installed, and the switch housing A switch structure that engages and connects with a ride base is connected by a hinge, a locking slide casing is installed symmetrically on the inner bottom wall of the stuffing casing, The locking slide plate to be inserted into the stuffing housing slides and engages and is mounted, and the locking slide block is fixedly installed on the opposite end surfaces of the left and right sides of the locking slide plate to be inserted into the stuffing housing. A second electric machine is fixedly installed on the left inner wall of the rocking slide housing, and a second screw bolt is connected to the right end of the second electric machine so that power can be transmitted. Engaged with and connected to the locking slide plate with screws, and rotated and engaged with and connected to the portions between the locking slide housings on the left and right sides of the second screw bolt. A power transmission structure is connected to the right end so that power can be transmitted , and a support device is installed outside the first electric machine.

As a further technical plan, the switch structure includes an articulated axle installed at a left end of the switch casing, a switch plate that connects the articulated axle with a hinge and closes the switch casing, A tension lever that is inserted into the connection housing is fixedly installed on the left end surface of the switch plate, and a storage housing is fitted and installed on the right side of the top end surface of the switch plate, and is pulled into the storage housing. The wheels rotate and engage and connect.

As a further technical plan, the power transmission structure includes a first transmission housing that is installed in the new energy vehicle body on the right side of the rocking slide housing, and between the first transmission housing and the rocking slide housing. A second rotating shaft fixedly connected to the right end of the second screw bolt is rotated and engaged and connected, and a first step wheel is fixedly installed at the right end of the second rotating shaft, A second gear that meshes with the first gear is installed in the first transmission housing, a second transmission housing is installed immediately above the first electric housing, and the second transmission housing and the A third rotating shaft, whose bottom end is fixedly connected to the end surface of the top of the second step car, is rotatably mounted between the first transmission housings, and the third step wheel is attached to the top end of the third rotating shaft. There is fixedly installed, a fourth stage wheel that meshes with the third-stage wheel in the second transmission housing is installed A slide housing that is installed in communication with the stuffing housing is installed on the left side of the second transmission housing, and a power transmission block is slidably engaged and attached in the slide housing. third screw bolt on the end face of the attached engagement with a screw, said third screw bolt is rotated to engage Installation between the sliding housing and the second transmission housing, and the right end is A power transmission hole is installed in the left end face of the power transmission block, which is fixedly connected to the left end face of the fourth stage car.

As a further technical plan, a fixed block is fixedly attached to the end surface of the bottom portion of the battery body, and a locking slide port facing the locking slide housing is installed symmetrically on the end surface of the bottom portion of the fixed block. A locking port into which the locking slide block is inserted is installed on the opposite end surface of the locking slide port on both sides, and an electron transmitter to be inserted into the power transmission hole is fixedly installed on the right end surface of the battery body. The

As a further technical plan, an elastic fixing plate that slides, engages and connects with the fixing block is fixed to the end face of the top portion of the mold raising plate in a symmetrical manner. The stator is fixedly installed on the end surface on the side to be fixed, and the fixing ports into which the stator is inserted are symmetrically installed on the left and right end surfaces of the fixing block.

As a further technical plan, a penetrating housing facing the rocking slide housing is installed on the mold raising plate so as to penetrate vertically.

As a further technical plan, the second screw bolts in the rocking slide casings on the left and right sides are installed in opposite directions with screws.

As a further technical plan, the support device includes a buffer plate and a heat radiating piece, the buffer plate is installed at the left end and the right end of the first electric machine, and is fixedly connected to the first electric machine, and the heat radiating piece is It is installed at the front end and the rear end of the first electric machine, and is fixedly connected to the first electric machine.

Advantages of the present invention: The present invention is simple in structure, easy to operate, a guide housing is installed on the inner wall on the left side of the packing housing, and a guide lever that extends vertically is fixed in the guide housing. The mold raising plate is slidably engaged with and attached to the guide housing, and the mold raising plate is inserted into the stuffing housing and slidably engaged with and connected to the guide housing. A first screw bolt that engages and connects with the mold raising plate with a screw is installed in the body, and a bottom end of the first screw bolt rotates and engages and connects with the inner bottom wall of the guide housing. The top end of the screw bolt is fixedly connected to the first rotating shaft, the power housing is installed on the new energy vehicle body above the guide housing, and the first rotating shaft is located between the power housing and the guide housing. Rotating and installed, the slide base slides into and engages in the power housing, and is attached to the end face of the bottom One electric machine is installed fixedly, the spline shaft at the bottom end of the first electrical machine is connected to the power that can be transmitted, a spline housing in which the spline shaft is inserted is disposed on the end face of the top of the first rotary shaft, A spring casing is installed symmetrically on the inner bottom wall of the power casing, and a compression spring is installed on the bottom wall of the spring casing to engage and connect with the end face of the bottom of the slide base. A connection housing is installed in communication with the inner top wall, and a switch housing that is installed in communication with the clogging housing and connection housing is installed on the end face of the top part of the new energy vehicle body, and slides into the switch housing. The switch structure that engages and connects with the base is connected by hinges, and the locking slide case is installed symmetrically on the inner bottom wall of the stuffing case, and the stuffing case is inside the locking slide case. Locking slide plate to be inserted into Ride and engaged attached, locking the slide block on the end face on the side toward the opposite left and right sides of the locking slide plate to be inserted into the stuffing housing is installed fixedly, the second to the left of the inner wall of the locking slide housing The electric machine is fixedly installed , the second screw bolt is connected to the right end of the second electric machine so that power can be transmitted , the second screw bolt is engaged with and connected to the locking slide plate , and the right and left sides are locked. Rotate, engage and connect with the part between the slide housings, and the power transmission structure is connected to the right end of the second screw bolt so that power can be transmitted , thereby locking the battery body to the clogging housing It is convenient, and the operation of locking and mounting is easy and convenient, and when the granule such as sand enters the packing case, it is difficult to hold down and remove the battery body. It is possible to prevent the battery body from being pushed up by the mold raising plate, making it easier to take out the battery, further automating the battery connection, and eliminating the need for manual operation by man-made. Greatly increase.

FIG. 1 is a schematic diagram of the external overall structure of the power battery combination device of the present invention. FIG. 2 is a schematic diagram of the internal overall structure of the power battery combination device of the present invention. FIG. 3 is a left viewpoint image of the first slide block of the present invention. FIG. 4 is a schematic diagram of the right viewpoint structure of FIG. 1 of the present invention.

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

1 to 4, a power battery combination device according to an embodiment of the present invention includes a stuffing case 11 installed at the top of a new energy vehicle body 10, and a battery body 35 attached to the stuffing case 11 by locking. A guide housing 27 is installed on the inner wall on the left side of the stuffing housing 11, and a guide lever 25 extending vertically is fixedly installed in the guide housing 27. The mold raising plate 17 is slidably engaged and attached, the mold raising plate 17 is inserted into the stuffing housing 11 and is slidably engaged with and connected to the stuffing housing 11, and the guide housing A first screw bolt 26 is installed in the body 27 to be engaged with and connected to the mold raising plate 17 with a screw, and the bottom end of the first screw bolt 26 rotates with the inner bottom wall of the guide housing 27. engage and connect the ends of the top portion of the first threaded bolt 26 is fixedly connected to the first rotation shaft 54, the guide A power casing 58 is installed on the new energy vehicle body 10 on the upper side of the casing 27, and the first rotating shaft 54 rotates between the power casing 58 and the guide casing 27, and the power casing A slide base 31 is slidably engaged with and attached in 58, a first electric machine 52 is fixedly installed on an end surface of the bottom part of the slide base 31, and a spline shaft 53 is powered on the bottom end of the first electric machine 52. Is connected to the top end surface of the first rotary shaft 54, and a spline housing 55 is installed on the inner end wall of the power housing 58. A compression spring 57, which is installed symmetrically and is engaged with and connected to the bottom wall of the slide base 31 while being pressed against the bottom wall of the spring housing 56, is connected to the inner top wall of the power housing 58. A case 32 is provided in communication with the end surfaces of the top portions of the new energy vehicle body 10 and the stuffed case 11 and A switch housing 39 that is installed in communication with the connection housing 32 is installed, and a switch structure that is pressed and engaged with and connected to the slide base 31 in the switch housing 39 is connected by a hinge. A locking slide housing 16 is installed symmetrically on the inner bottom wall of the stuffing housing 11, and a locking slide plate 15 inserted into the stuffing housing 11 slides and engages in the locking slide housing 16. A locking slide block 13 is fixedly installed on the opposite end faces of the locking slide plate 15 on both the left and right sides to be inserted into the stuffing housing 11, and is attached to the left inner wall of the locking slide housing 16. A second electric machine 22 is fixedly installed , and a second screw bolt 18 is connected to the right end of the second electric machine 22 so that power can be transmitted. The second screw bolt 18 is engaged with the locking slide plate 15 by a screw. And connected to the right and left ends of the second screw bolt 18 so that power can be transmitted. A support device is installed outside the first electric machine 52.

As a useful example, the switch structure is connected to the articulated axle 34 installed at the left end of the switch housing 39, the articulated axle 34 with a hinge, and the switch housing 39 is connected to the switch housing 39. closing includes a switch plate 36, the tension lever 33 to be inserted into the end face of the left side to the connection housing 32 of the switch plate 36 is installed fixedly, housed on the right side of the end face the housing 38 of the top portion of the switch plate 36 is The pulling ring 37 rotates and engages and is connected to the storage housing 38 by being fitted and installed, thereby providing convenience for closing the stuffing housing 11 and suppressing the slide 31st.

As a beneficial example, the power transmission structure includes a first transmission housing 72 installed in the new energy vehicle body 10 on the right side of the rocking slide housing 16, and the first transmission housing 72 and A second rotary shaft 12 that is fixedly connected to the right end of the second screw bolt 18 is rotated and engaged between the locking slide housing 16 and is connected to the right end of the second rotary shaft 12. A first step car 73 is fixedly installed , a second step wheel 71 meshing with the first step car 73 is installed in the first transmission case 72, and a first step car 73 is directly above the first electric case 72. A second rotary housing 66 is installed, and a bottom end between the second transmission housing 66 and the first transmission housing 72 is fixedly connected to the top end surface of the second stepped wheel 71. 68 is attached to rotate, the third-stage wheel 67 is fixedly installed to the end of the top portion of the third rotating shaft 68, the third in the second transmission housing 66 A fourth-stage vehicle 65 that meshes with the vehicle 67 is installed, and a slide housing 63 that is installed in communication with the stuffing housing 11 is installed on the left side of the second transmission housing 66. The power transmission block 62 is slidably engaged with and attached to the right end surface of the power transmission block 62, and a third screw bolt 64 is engaged with and attached to the right end surface of the power transmission block 62. The right end is fixedly connected to the left end surface of the fourth step wheel 65, and the power transmission hole is formed in the left end surface of the power transmission block 62. 61 is installed, which gives convenience to automatically energize and connect with the battery body.

As shown in a beneficial example, a fixing block 19 is fixedly attached to the bottom end surface of the battery body 35, and a locking slide opening 43 facing the locking slide housing 16 is fixed to the bottom end surface of the fixing block 19. Are installed symmetrically, a locking port 14 into which the locking slide block 13 is inserted is installed on the opposite end surfaces of the left and right sides of the locking slide port 43, and the power transmission is provided on the right end surface of the battery body 35. An electron transmitter 42 to be inserted into the hole 61 is fixedly installed, thereby providing convenience for energization connection and locking attachment to the battery body 35.

As shown in a beneficial example, a resilient fixing plate 23 that slides and engages and connects with the fixing block 19 is fixedly mounted on the end face of the top of the mold raising plate 17 in a bilaterally symmetrical manner. The stator 24 is fixedly installed on the opposite end surfaces of the elastic force fixing plate 23, and the fixing ports 41 into which the stator 24 is inserted are symmetrically installed on the left and right end surfaces of the fixing block 19. As a result, the mounting stability of the battery body 35 is increased.

As shown in a useful example, a penetrating housing 20 opposite to the rocking slide housing 16 is installed on the mold raising plate 17 so as to penetrate vertically, so that the rocking slide plate 15 is connected to the rocking slide port 43. It becomes convenient to insert into.

As a useful example, the second screw bolts 18 in the locking slide housings 16 on the left and right sides are installed in opposite directions with screws, thereby making the locking slide plates 15 on the left and right sides relative or opposite. Slide in the direction.

As a useful example, the support device includes a buffer plate 81 and a heat radiating piece 82, the buffer plate 81 is installed at the left end and the right end of the first electric machine 52, and fixed to the first electric machine 52 . connected to, when the heat dissipation piece 82 is installed at front and rear ends of the first electric machine 52, and connected to the first electric 52 fixedly, the heat radiating piece 82 is the first electric 52 runs The amount of generated heat is absorbed and diffused, and the buffer plate 81 reduces the seismic power generated when the first electric machine 52 is operated, and thereby the apparatus is caused by excessive seismic power generated when the first electric machine 52 is operated. Prevent shaking.

When the battery body 35 is taken out, the switch plate 36 is manually triggered by pulling the pulling ring 37, and when it is raised, the tension lever 33 rotates downward and the slide base 31 is slid downward while resisting the pressure of the compression spring 57. At this time, the spline shaft 53 is completely inserted into the spline housing 55, the second electric machine 22 is started, and the second screw bolt 18 is rotated to slide the left and right locking slide plates 15 in the relative directions. Later, the locking slide block 13 is completely detached from the locking port 14, and at the same time, the power transmission block 62 is slid to the right by the rotation of the second screw bolt 18 to completely disengage from the contact with the electron transmission 42. The first screw bolt 26 is rotated by starting the first electric machine 52, the mold raising plate 17 is slid to the top end of the guide housing 27 by the first screw bolt 26, Rekara, taken out once a manual to pull the battery 35 to the top

Claims (1)

  The intelligent power battery combination device includes a stuffing case installed at the top of a new energy vehicle body and a battery body that is attached to the stuffing case by locking, and its features are: an inner wall on the left side of the stuffing case The guide housing is installed in the guide housing, and a guide lever extending vertically is fixedly installed in the guide housing, and a mold raising plate is slidably engaged and attached in the guide housing. Is inserted into the stuffing housing and is slidably engaged with and connected to the stuffing housing, and a first screw bolt is provided in the guide housing to engage and connect with the mold raising plate. The bottom end of the first screw bolt rotates and engages with the inner bottom wall of the guide housing, the top end of the first screw bolt is fixedly connected to the first rotating shaft, and The new energy vehicle body on the upper side of the guide housing Is installed, and the first rotating shaft rotates and is installed between the power casing and the guide casing, and a slide base is slidably engaged with and attached to the power casing. The first electric machine is fixedly installed on the end surface of the first electric machine, the spline shaft is connected to the bottom end of the first electric machine by power, and the spline housing into which the spline shaft is inserted is installed on the end surface of the top of the first rotating shaft. A spring housing is installed symmetrically on the inner bottom wall of the power housing, and a compression spring is installed on the bottom wall of the spring housing to engage and connect with the end surface of the bottom of the slide base, A connection case is provided in communication with the inner top wall of the power case, and a switch case that is provided in communication with the stuffing case and the connection case is provided on the top end surface of the new energy vehicle body. The slide base in the switch housing A switch structure that engages and connects with each other is connected by a hinge, and a locking slide casing is installed symmetrically on the inner bottom wall of the stuffing casing, and the stuffing casing is placed in the locking slide casing. A locking slide plate to be inserted into the body is slid and engaged and attached, and a locking slide block is fixedly installed on the opposite end surfaces of the right and left locking slide plates to be inserted into the stuffing housing, and the locking A second electric machine is fixedly installed on the left inner wall of the slide housing, a second screw bolt is connected to the right end of the second electric machine by power, and the second screw bolt is engaged with the locking slide plate with a screw. The power transmission structure is connected by power to the right end of the second screw bolt. A support device is installed outside the first electric machine, and the switch structure is connected to the articulated axle installed at the left end of the switch housing, the articulated axle and a hinge, and the switch housing. Including a switch plate that closes the body, a tension lever that is inserted into the connection housing is fixedly installed on the left end surface of the switch plate, and a storage housing is fitted and installed on the right side of the top end surface of the switch plate, A pulling wheel rotates and engages and is connected to the storage housing, and the power transmission structure includes a first transmission housing installed in the new energy vehicle body on the right side of the rocking slide housing, A second rotating shaft connected to the right end of the second screw bolt and fixedly rotates and engages between the transmission housing and the locking slide housing, and is connected to the right of the second rotating shaft. A first gear is fixedly installed at the end of the first gear, a second gear that meshes with the first gear is installed in the first transmission housing, and a second transmission housing is directly above the first electric housing. A third rotating shaft that is fixedly connected between the second transmission housing and the first transmission housing, the bottom end of which is fixedly connected to the end surface of the top of the second car, and is attached to the first transmission housing. A third gear is fixedly installed at the end of the top of the three rotation shaft, a fourth gear that meshes with the third gear is installed in the second transmission housing, and a left side of the second transmission housing. A slide housing that is installed in communication with the clogging housing, and a power transmission block is slidably engaged with and attached to the slide housing, and a third screw bolt is provided on the right end surface of the power transmission block. The third screw bolt rotates and engages between the slide housing and the second transmission housing. And the right end is fixedly connected to the left end surface of the fourth car, the power transmission hole is installed in the left end surface of the power transmission block, and the fixed block is fixed to the bottom end surface of the battery body. The locking slide port facing the locking slide housing is symmetrically installed on the end surface of the bottom of the fixed block, and the locking slide block is on the opposite end surfaces of the left and right sides of the locking slide port. A locking port to be inserted is installed, an electron transmitter to be inserted into the power transmission hole is fixedly installed on the right end surface of the battery body, and the fixed block is slidably engaged with and connected to the top end surface of the mold raising plate. The elastic fixing plate is fixed to be fixed symmetrically on the left and right sides, and the stator is fixed to the opposite end surfaces of the elastic force fixing plates on both the left and right sides. Fixing ports into which the stator is inserted are installed symmetrically on the left and right end faces of the fixed block, and a penetrating housing opposite to the locking slide housing is installed on the mold raising plate vertically. A second screw bolt in the locking slide housing is installed in the opposite direction with a screw, the support device includes a buffer plate and a heat dissipating piece, and the buffer plate is installed at the left end and the right end of the first electric machine; The first electric machine is fixedly connected, and the heat dissipating pieces are installed at the front end and the rear end of the first electric machine and are connected to the first electric machine fixedly.

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