CN217316789U - Assembly mechanism of cloud intelligent electric vehicle - Google Patents

Abstract

The utility model discloses an equipment mechanism of intelligent electric motor car of cloud, comprises a workbench, the up end fixed mounting of workstation has the vibration dish, a side wall fixed mounting of workstation has the linear vibrator, the fixed mounting of linear vibrator side wall has the fixed block, the slide rail groove has all been seted up with a side wall of linear vibrator to a side wall of fixed block, two the slide rail groove is in on the same straight line, one side of linear vibrator is equipped with the slurcam. The utility model discloses beneficial effect: through setting up first locating hole, connecting block and second locating hole for the device can be through rotating the fixing bolt in two second locating holes and regulating and control first recess of placing, the second places the interval between the recess, thereby makes it can adapt to the bearing of different diameters size, and then to the dismantlement and the installation of kickboard when having saved the change built-up part, has reduced the time that the device stopped the machine and changes, has improved the production productivity of device.

Description

Assembly mechanism of cloud intelligent electric vehicle

Technical Field

The utility model relates to an assembly devices, concretely relates to equipment mechanism of intelligent electric motor car of cloud.

Background

The hub of the electric vehicle is a framework of the wheel of the electric vehicle, a rotating shaft assembly is arranged at the center of the hub, and the rotating shaft assembly comprises a rotating shaft, a bearing arranged on the rotating shaft, a clamp spring, a plastic gear and a needle bearing. At present, the diameter size that the recess was placed to current bearing is fixed, and when an assembly spare bearing and pivot need be changed, the kickboard also must follow the assembly spare to change like this, and the change of kickboard at every turn can waste a lot of time, and then has reduced the production capacity of mill. Therefore, based on the above problems, we have designed an assembly mechanism of the cloud intelligent electric vehicle to solve the above problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an equipment mechanism of intelligent electric motor car of cloud to the diameter size that the recess was placed to current bearing in the solution technique is fixed, like this when an assembly spare bearing and pivot need be changed, the kickboard also must follow an assembly spare and change, and the change of kickboard at every turn can waste a lot of time, and then has reduced the problem of factory production productivity.

In order to achieve the above object, the present invention provides the following technical solutions: the assembly mechanism of the cloud intelligent electric vehicle comprises a workbench, wherein a vibration disc is fixedly mounted on the upper end face of the workbench, a linear vibrator is fixedly mounted on one side wall face of the workbench, a fixed block is fixedly mounted on one side wall face of the linear vibrator, slide rail grooves are formed in one side wall face of the fixed block and one side wall face of the linear vibrator, the two slide rail grooves are positioned on the same straight line, a push plate is arranged on one side of the linear vibrator, a slide block is fixedly mounted on one side wall face of the push plate and corresponds to the slide rail grooves in position, the slide block is slidably mounted in the slide rail grooves, a first placement groove is formed in one side of the upper end face of the push plate, two first positioning holes are sequentially formed in one side wall face of the push plate, the two first positioning holes are positioned below the first placement groove, and a connecting block is arranged on one side of the push plate, the second placing groove is formed in one side of the upper end face of the connecting block, two second positioning holes are sequentially formed in one side wall face of the connecting block and correspond to the two first positioning holes in position respectively, fixing bolts are arranged in the second positioning holes, and the connecting block is fixedly connected with the first positioning holes in one side wall face of the pushing plate through the fixing bolts in the second positioning holes.

Preferably, a stop block is fixedly mounted on one side wall surface of the pushing plate, the stop block is located on one side of the first placing groove, and a pushing handle is fixedly mounted on one side wall surface of the stop block.

Preferably, one side of the workbench is provided with a pressing device, and the pressing device comprises a pressing frame body, a pressing lifting cylinder, a connecting plate, two telescopic rods, a magnetic pressing block and a bearing base.

Preferably, the cross section of the pressing frame body is inverted U-shaped, the pressing lifting cylinder is fixedly mounted on the upper end face of the pressing frame body, the output end of the pressing lifting cylinder is fixedly connected with the upper end face of the connecting plate, the two telescopic rods are located on two sides of the output end of the pressing lifting cylinder, and two ends of the two telescopic rods are fixedly connected with the top end face of the inner side of the pressing frame body and the upper end face of the connecting plate respectively.

Preferably, the magnetic pressing block is fixedly installed on the lower end face of the connecting plate, and the bearing base is located at the bottom end of the inner side of the pressing frame body.

Preferably, the first placing groove and the second placing groove are both in a semicircular arc shape, and the diameters of the first placing groove and the second placing groove are the same.

In the technical scheme, the utility model provides a technological effect and advantage:

the utility model is provided with the first positioning hole, the connecting block and the second positioning hole, so when the bearing and the rotating shaft of the assembly part need to be replaced, firstly, the rotation of the two fixing bolts drives the connecting block to move back and forth along the pushing plate by rotating the fixing bolts in the two second positioning holes, when the connecting block moves to the second placing groove on the upper end surface of the connecting plate and the first placing groove on one side of the upper end surface of the pushing plate to just clamp the bearing, compared with the traditional device, the additional arrangement of the device can adjust and control the distance between the first placing groove and the second placing groove by rotating the fixing bolts in the two second positioning holes, so that the device can adapt to bearings with different diameters, and then saved dismantlement and the installation to the kickboard when changing the built-up member, reduced the time that the device stopped the machine and changed, improved the production productivity of device.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to these drawings.

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic view of the overall structure of the present invention.

Fig. 3 is an exploded view of the pushing plate and the connecting block of the present invention.

Fig. 4 is an explosion diagram of the linear vibrator, the pushing plate and the connecting block of the present invention.

Description of reference numerals:

1. a work table; 2. vibrating the disc; 3. a linear vibrator; 4. a fixed block; 5. a slide rail groove; 6. a push plate; 7. a slider; 8. a first placing groove; 9. a first positioning hole; 10. connecting blocks; 11. a second placing groove; 12. a second positioning hole; 13. a stopper; 14. pushing the handle; 15. a pressing device; 1501. pressing the frame body; 1502. pressing a lifting cylinder; 1503. a connecting plate; 1504. a telescopic rod; 1505. a magnetic pressing block; 1506. a load-bearing base.

Detailed Description

Example embodiments will now be described more fully with reference to the accompanying drawings. Example embodiments may, however, be embodied in many different forms and should not be construed as limited to the examples set forth herein; rather, these example embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of example embodiments to those skilled in the art. The drawings are merely schematic illustrations of the present disclosure and are not necessarily drawn to scale. The same reference numerals in the drawings denote the same or similar parts, and thus their repetitive description will be omitted.

Furthermore, the described features, structures, or characteristics may be combined in any suitable manner in one or more example embodiments. In the following description, numerous specific details are provided to give a thorough understanding of example embodiments of the disclosure. One skilled in the relevant art will recognize, however, that the subject matter of the present disclosure can be practiced without one or more of the specific details, or with other methods, components, steps, and so forth. In other instances, well-known structures, methods, implementations, or operations are not shown or described in detail to avoid obscuring aspects of the disclosure.

The utility model provides an assembly mechanism of a cloud intelligent electric vehicle as shown in figures 1-4, which comprises a workbench 1, wherein a vibration disc 2 is fixedly arranged on the upper end surface of the workbench 1, a linear vibrator 3 is fixedly arranged on one side wall surface of the workbench 1, a fixed block 4 is fixedly arranged on one side wall surface of the linear vibrator 3, slide rail grooves 5 are respectively arranged on one side wall surface of the fixed block 4 and one side wall surface of the linear vibrator 3, the two slide rail grooves 5 are positioned on the same straight line, a push plate 6 is arranged on one side of the linear vibrator 3, a slide block 7 is fixedly arranged on one side wall surface of the push plate 6, the slide block 7 and the slide rail grooves 5 are mutually corresponding, the slide block 7 is slidably arranged in the slide rail grooves 5, a first placing groove 8 is arranged on one side of the upper end surface of the push plate 6, two first positioning holes 9 are sequentially arranged on one side wall surface of the push plate 6, compared with the conventional device, the device is additionally provided with a structure that the distance between the first placing groove 8 and the second placing groove 11 can be adjusted and controlled by rotating the fixing bolts in the two second positioning holes 12, so that the device can adapt to bearings with different diameters by rotating the fixing bolts in the two second positioning holes 12, and then saved dismantlement and the installation to pushing plate 6 when changing the built-up member, reduced the time that the device stopped the machine and changed, improved the production productivity of device.

Further, in the above technical solution, a stopper 13 is fixedly installed on a side wall surface of the push plate 6, the stopper 13 is located on one side of the first placing groove 8, and a push handle 14 is fixedly installed on a side wall surface of the stopper 13, so that the push plate 6 can be pushed to move back and forth along the slide rail groove 5 through the push handle 14.

Further, in the above technical solution, one side of the working platform 1 is provided with a pressing device 15, the pressing device 15 includes a pressing frame 1501, a pressing lifting cylinder 1502, a connecting plate 1503, two telescopic rods 1504, a magnetic pressing block 1505 and a bearing base 1506, the cross section of the pressing frame 1501 is inverted u-shaped, the pressing lifting cylinder 1502 is fixedly installed on the upper end surface of the pressing frame 1501 to provide power output energy, the output end of the pressing lifting cylinder 1502 is fixedly connected with the upper end surface of the connecting plate 1503, the connecting plate 1503 plays a role of transition connection, the two telescopic rods 1504 are located at two sides of the output end of the pressing lifting cylinder 1502 to stabilize the connecting plate 1503 and prevent the connecting plate 1503 from shifting, and two ends of the two telescopic rods 1504 are respectively fixedly connected with the top end surface of the inner side of the pressing frame 1501 and the upper end surface of the connecting plate 1503, the magnetic pressing block 1505 is fixedly arranged on the lower end face of the connecting plate 1503 to facilitate the absorption of an assembly bearing, the bearing base 1506 is located at the bottom end of the inner side of the pressing frame 1501 to facilitate the placement of a rotating shaft, and the pressing device 15 is arranged to facilitate the assembly of the assembly bearing and the rotating shaft and to enable the assembly bearing and the rotating shaft to be more firmly assembled.

Further, in the above technical solution, the first placing groove 8 and the second placing groove 11 are both in a semicircular arc shape, and the diameters of the first placing groove 8 and the second placing groove 11 are the same, so that the assembly part bearing can be conveniently clamped.

Principle of operation

The implementation mode is specifically as follows: when a user needs to use the device, the user firstly places the bearing in the vibration disk 2, the rotating shaft is placed on the upper end surface of the bearing base 1506, then the device is started, the bearing in the vibration disk 2 is conveyed to a position between the first placing groove 8 and the second placing groove 11 through the linear vibrator 3, then the pushing handle 14 is pushed, the bearing between the first placing groove 8 and the second placing groove 11 is pushed to the lower part of the magnetic pressing block 1505, the bearing is adsorbed on the lower end surface of the magnetic pressing block 1505 under the magnetic action of the magnetic pressing block 1505, the pushing handle 14 is further pulled back to the original position, then the pressing lifting cylinder 1502 presses the bearing 1505 on the lower end surface of the magnetic pressing block on the rotating shaft on the upper end surface of the bearing base 1506, when the size of the bearing and the rotating shaft needs to be changed, firstly the fixing bolts in the two second positioning holes 12 are rotated, the rotation of two fixing bolts drives the connecting block 10 to move back and forth along the pushing plate 6, and when the connecting block 10 moves to the second placing groove 11 on the upper end face of the connecting block 10 and the first placing groove 8 on one side of the upper end face of the pushing plate 6, the bearing is just clamped.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the present invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (6)

1. Cloud intelligent electric motor car's equipment mechanism, including workstation (1), its characterized in that: the vibration plate is characterized in that a vibration disc (2) is fixedly mounted on the upper end face of the workbench (1), a linear vibrator (3) is fixedly mounted on one side wall face of the workbench (1), a fixing block (4) is fixedly mounted on one side wall face of the linear vibrator (3), slide rail grooves (5) are formed in one side wall face of the fixing block (4) and one side wall face of the linear vibrator (3), the two slide rail grooves (5) are in the same straight line, a push plate (6) is arranged on one side of the linear vibrator (3), a slide block (7) is fixedly mounted on one side wall face of the push plate (6), the slide block (7) and the slide rail grooves (5) are mutually corresponding in position, the slide block (7) is slidably mounted in the slide rail grooves (5), a first placing groove (8) is formed in one side of the upper end face of the push plate (6), two first positioning holes (9) are sequentially formed in one side wall face of the push plate (6), two first locating hole (9) all are located the first below of placing recess (8), one side of slurcam (6) is equipped with connecting block (10), second placing groove (11) have been seted up to up end one side of connecting block (10), two second locating hole (12), two have been seted up in proper order to one side wall of connecting block (10) second locating hole (12) correspond to each other with two first locating hole (9) positions respectively, two all be equipped with fixing bolt in second locating hole (12), connecting block (10) are through fixing bolt in second locating hole (12) and first locating hole (9) fixed connection of slurcam (6) one side wall.

2. The cloud smart electric vehicle assembly mechanism of claim 1, wherein: a stop block (13) is fixedly mounted on one side wall face of the push plate (6), the stop block (13) is located on one side of the first placement groove (8), and a push handle (14) is fixedly mounted on one side wall face of the stop block (13).

3. The cloud-intelligent assembly mechanism for electric vehicles as claimed in claim 1, wherein: one side of the workbench (1) is provided with a pressing device (15), and the pressing device (15) comprises a pressing frame body (1501), a pressing lifting cylinder (1502), a connecting plate (1503), two telescopic rods (1504), a magnetic pressing block (1505) and a bearing base (1506).

4. The cloud-intelligent assembly mechanism for electric vehicles as claimed in claim 3, wherein: the cross section of the pressing frame body (1501) is inverted U-shaped, the pressing lifting cylinder (1502) is fixedly mounted on the upper end face of the pressing frame body (1501), the output end of the pressing lifting cylinder (1502) is fixedly connected with the upper end face of the connecting plate (1503), the two telescopic rods (1504) are located on two sides of the output end of the pressing lifting cylinder (1502), and two ends of the two telescopic rods (1504) are fixedly connected with the top end face of the inner side of the pressing frame body (1501) and the upper end face of the connecting plate (1503) respectively.

5. The cloud-intelligent assembly mechanism for electric vehicles as claimed in claim 3, wherein: the magnetic pressing block (1505) is fixedly arranged on the lower end face of the connecting plate (1503), and the bearing base (1506) is positioned at the bottom end of the inner side of the pressing frame body (1501).

6. The cloud smart electric vehicle assembly mechanism of claim 1, wherein: the first placing groove (8) and the second placing groove (11) are both in a semicircular arc shape, and the diameters of the first placing groove (8) and the second placing groove (11) are the same.

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