CN220562844U - No basis slide transfer chain in car assembly workshop - Google Patents

Abstract

The utility model is suitable for the technical field of automobile assembly line equipment, and provides a non-foundation slide plate conveying line in an automobile assembly workshop, which comprises a first conveying line and a second conveying line, wherein a plurality of friction driving devices are arranged on both sides of the first conveying line and both sides of the second conveying line, a rotary roller bed is arranged on one end point side of the first conveying line and one starting point side of the second conveying line, a vehicle body to be assembled is loaded on the conveying slide plate and driven by the friction driving devices, the conveying slide plate realizes the transfer between the first conveying line and the second conveying line through the rotary roller bed, and in the process, the conveying slide plate always moves along a linear roller way and realizes the switching of the running direction only by virtue of the self rotation of the rotary roller bed.

Description

No basis slide transfer chain in car assembly workshop

Technical Field

The utility model is suitable for the technical field of automobile assembly line equipment, and provides a non-foundation slide plate conveying line for an automobile assembly workshop.

Background

In the traditional design of the sliding plate conveying line, a foundation bracket of the sliding plate conveying line is buried below the ground at the initial stage of workshop construction, then rails are installed on the buried foundation bracket at the later stage, the foundation sliding plate conveying line framework generally needs to be synchronously constructed at the initial stage of workshop construction, if the construction is completed at the workshop construction, the ground after the construction is completed needs to be dug again, the construction workshop is difficult, and the cost of the mode of adopting the pre-buried foundation bracket is higher, and the subsequent maintenance is difficult; meanwhile, the sliding plate conveying line cannot be a straight line, in order to improve the space utilization rate, the sliding plate conveying line is usually required to be bent to achieve the maximization of the space utilization rate, and in order to meet the turning requirement of the sliding plate device, the turning radius of the common sliding plate conveying line is required to be larger, and correspondingly, the space utilization rate of the position is not high.

Disclosure of Invention

Therefore, the utility model provides a non-foundation slide plate conveying line for an automobile assembly workshop, which is characterized in that a conveying base is directly arranged on the ground to serve as a support of a conveying roller way, so that the problem that a support structure needs to be pre-buried below the ground is solved, meanwhile, a rotary roller bed is respectively arranged at the end parts of two conveying lines, a slide plate device on the previous conveying line is transferred to the next conveying line through the rotary roller bed, the transfer of the slide plate device is completed in a self-rotating mode of the rotary roller bed, in the process, the slide plate device always moves along a linear roller way, and compared with the conventional mode that the transfer is completed by directly turning the conveying roller way, the transfer mode in the utility model does not need to cause space waste in order to meet the turning radius because the turning of the slide plate device is not involved.

In order to achieve the above object, the present utility model provides the following technical solutions: the non-foundation slide plate conveying line comprises a first conveying line and a second conveying line, wherein a plurality of conveying slide plates are loaded on the first conveying line, a plurality of friction driving devices are arranged on two sides of the first conveying line and two sides of the second conveying line, and a rotary roller is arranged on one side of a finishing point of the first conveying line and one side of a starting point of the second conveying line; the first conveying line comprises a first conveying base, at least two first conveying roller ways are fixedly arranged at the upper end of the first conveying base, and a plurality of conveying rollers are rotatably arranged on the first conveying roller ways along the running direction of the first conveying line; the second conveying line comprises a second conveying base, at least two second conveying roller ways are fixedly arranged at the upper end of the second conveying base, and a plurality of conveying rollers are rotatably arranged along the running direction of the second conveying line; the rotary rolling machine comprises an annular rotary track and a rolling machine mechanism, wherein a plurality of track fixing supports are fixedly arranged at the lower end of the annular rotary track, the rolling machine mechanism comprises a rolling machine base, the rolling machine base is rotatably arranged above the annular rotary track, a plurality of rotary guide wheels matched with the annular rotary track are arranged on the rolling machine base, a rotary shaft of at least one rotary guide wheel is connected with a rolling machine rotary driving motor, at least two rolling machine conveying roller ways are further arranged on the rolling machine base, and friction driving devices are arranged on the outer sides of the two rolling machine conveying roller ways.

Further, carry the slide including the slide base, slide base lower extreme rotation is provided with the slide leading wheel, first transport base upper end fixedly provided with the first guide rail of slide leading wheel looks adaptation, the second transport base upper end fixedly provided with the second guide rail of slide leading wheel looks adaptation, the fixed lathe guide rail that rolls that is provided with the slide leading wheel looks adaptation on the lathe base.

Further, the friction driving device comprises a driving device base, the driving device base is rotatably hinged with a rotary driving arm, an elastic mechanism is fixedly arranged on the driving device base, one end of the rotary driving arm, away from the hinged position, is connected with the elastic mechanism, a friction driving motor is fixedly connected to the rotary driving arm, a friction driving disc is fixedly connected to a rotating shaft of the friction driving motor, and the friction driving disc abuts against the side face of the conveying sliding plate.

Further, a rotary roller machine is arranged on one side of the starting point of the first conveying line and one side of the finishing point of the second conveying line.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the non-foundation slide plate conveying line for the automobile final assembly workshop, the conveying base can be directly arranged on the ground to serve as a support of the conveying roller way, so that the problem that a support structure needs to be pre-buried below the ground is solved;

2. the end parts of the first conveying line and the second conveying line are respectively provided with a rotary roller, the conveying slide plate on the previous conveying line is transferred to the next conveying line in a self-rotation mode of the rotary roller, in the process, the conveying slide plate always moves along the linear roller way, and compared with the traditional conveying roller way which directly turns to finish transferring, the transferring mode in the utility model does not involve turning of the slide plate device, so that space waste is not required to meet the turning radius, and meanwhile, the running reliability is better than that of the conveying slide plate which directly turns. .

Drawings

FIG. 1 is a schematic layout of a skid-free conveyor line for a car assembly shop as mentioned in example 1;

FIG. 2 is a schematic layout diagram of the non-basic skid conveyor line in the automobile assembly shop in which two rotary rollers are connected as in example 1;

FIG. 3 is a schematic view showing the structure of the first conveyor line driving the conveyor slide for loading the vehicle body according to the present utility model;

FIG. 4 is a schematic view showing the structure of a second conveyor line driving a conveyor slide for loading a vehicle body according to the present utility model;

FIG. 5 is a schematic top view of the rotary roller bed of the present utility model;

FIG. 6 is a schematic front view of the rotary roller machine of the present utility model;

FIG. 7 is a schematic view of the structure of the roller mechanism of FIG. 5;

FIG. 8 is a schematic view of the configuration of the annular rotary rail mentioned in FIG. 5;

FIG. 9 is a schematic view of the friction drive device of the present utility model;

fig. 10 is a schematic layout diagram of a skid-free conveyor line for a car assembly shop as mentioned in example 2.

In the figure: 1. the first conveying line, 11, the first conveying base, 12, the first conveying roller way, 13, the first guiding rail, 2, the second conveying line, 21, the second conveying base, 22, the second conveying roller way, 23, the second guiding rail, 3, the rotary roller bed, 31, the annular rotary rail, 32, the roller bed mechanism, 321, the roller bed base, 322, the roller bed conveying roller way, 323, the roller bed guiding rail, 324, the rotary guide wheel, 325, the roller bed rotary driving motor, 33, the rail fixing support, 4, the conveying slide plate, 41, the slide plate base, 42, the slide plate guiding wheel, 5, the friction driving device, 51, the driving device base, 52, the rotary driving arm, 53, the elastic mechanism, 54, the friction driving motor, 55, the friction driving disc, 6 and the vehicle body.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Referring to fig. 1 to 9, the utility model provides a non-foundation slide plate conveyor line for an automobile assembly workshop, which comprises a first conveyor line 1 and a second conveyor line 2, wherein the first conveyor line 1 and the second conveyor line 2 are provided with a plurality of friction driving devices 5, and a rotary roller bed 3 is arranged on one end point side of the first conveyor line 1 and one starting point side of the second conveyor line 2; the first conveying line 1 comprises a first conveying base 11, at least two first conveying roller ways 12 are fixedly arranged at the upper end of the first conveying base 11, and a plurality of conveying rollers are rotatably arranged on the first conveying roller ways 12 along the running direction of the first conveying line 1; the second conveying line 2 comprises a second conveying base 21, at least two second conveying roller ways 22 are fixedly arranged at the upper end of the second conveying base 21, and a plurality of conveying rollers are rotatably arranged on the second conveying roller ways 22 along the running direction of the second conveying line 2; the rotary roller bed 3 comprises an annular rotary rail 31 and a roller bed mechanism 32, a plurality of rail fixing supports 33 are fixedly arranged at the lower end of the annular rotary rail 31, the roller bed mechanism 32 comprises a roller bed base 321, the roller bed base 321 is rotatably arranged above the annular rotary rail 31, a plurality of rotary guide wheels 324 which are matched with the annular rotary rail 31 are arranged on the roller bed base 321, a rotary shaft of at least one rotary guide wheel 324 is connected with a roller bed rotary driving motor 325, at least two roller bed conveying roller ways 322 are further arranged on the roller bed base 321, and friction driving devices 5 are arranged on the outer sides of the two roller bed conveying roller ways 322. The friction driving device 5 comprises a driving device base 51, the driving device base 51 is rotatably hinged with a rotary driving arm 52, the driving device base 51 is fixedly provided with an elastic mechanism 53, one end, away from the hinge position, of the rotary driving arm 52 is connected with the elastic mechanism 53, a friction driving motor 54 is fixedly connected to the rotary driving arm 52, a friction driving disc 55 is fixedly connected to a rotating shaft of the friction driving motor 54, the friction driving disc 55 abuts against the side face of the conveying sliding plate 4, and the friction driving disc 55 drives the conveying sliding plate 4 to move through friction force.

In a further scheme, the conveying slide 4 comprises a slide base 41, a slide guide wheel 42 is rotatably arranged at the lower end of the slide base 41, a first guide rail 13 matched with the slide guide wheel 42 is fixedly arranged at the upper end of the first conveying base 11, a second guide rail 23 matched with the slide guide wheel 42 is fixedly arranged at the upper end of the second conveying base 21, a roller guide rail 323 matched with the slide guide wheel 42 is fixedly arranged on the roller base 321, and when the conveying slide 4 is conveyed on a slide conveying line, a guide limit function can be provided through the slide guide wheel 42, so that the stable running of the conveying slide 4 is ensured.

The working principle of this embodiment is as follows:

the initial stage conveying slide 4 is located at the starting point position of the first conveying line 1, meanwhile, the roller bed conveying roller way 322 on the rotary roller bed 3 at the end point position of the first conveying line 1 is communicated with the first conveying roller way 12 of the first conveying line 1, firstly, the vehicle body 6 is loaded on the conveying slide 4, then the conveying slide 4 moves along the first conveying roller way 12 under the driving of the friction driving device 5, assembly operation is carried out along a plurality of assembly stations until the conveying slide 4 moves to stop on the roller bed conveying roller way 322 on the rotary roller bed 3 at the end point position of the first conveying line 1, then the rotary roller bed 3 at the end point position of the first conveying line 1 and the rotary roller bed 3 at the starting point position of the second conveying line 2 are communicated through rotation, then the conveying slide 4 is driven to move to the rotary roller bed 3 at the starting point position of the second conveying line 2, then the rotary roller bed 3 at the starting point position of the second conveying line 2 is rotated, the roller bed conveying roller way 322 on the rotary roller bed 3 at the starting point position of the second conveying line 2 is communicated with the second conveying roller way 22 at the second conveying line 2, the second conveying slide 4 is driven to occupy a small space along the assembly station, and the assembly operation is continuously carried out along the plurality of the assembly stations through the movement of the conveying slide 4.

In embodiment 2, referring to fig. 10, on the basis of embodiment 1, a rotary roller bed 3 is also disposed on the start point side of the first conveyor line 1 and the end point side of the second conveyor line 2, so that an annular closed conveying line is formed between the first conveyor line 1 and the second conveyor line 2, and thus, the circulating operation of the conveying slide plate 4 can be realized.

In the description of the present utility model, it should be understood that the azimuth or positional relationships indicated by the azimuth terms such as "front, rear, upper, lower, left, right", "transverse, vertical, horizontal", and "top, bottom", etc., are generally based on the azimuth or positional relationships shown in the drawings, and are merely for convenience of describing the present utility model and simplifying the description, and these azimuth terms do not indicate and imply that the apparatus or elements referred to must have a specific azimuth or be constructed and operated in a specific azimuth, without necessarily being contrary described, and thus should not be construed as limiting the scope of protection of the present utility model, and the azimuth terms "inside and outside" refer to inside and outside with respect to the outline of each component itself.

The above description is only of the preferred embodiments of the present utility model, and any person skilled in the art may modify the present utility model or make modifications to the present utility model equivalent thereto using the technical solutions described above. Therefore, any simple modification or equivalent made according to the technical solution of the present utility model falls within the scope of the protection claimed by the present utility model.

Claims (4)

1. The utility model provides a no basis slide transfer chain in car assembly workshop, includes first transfer chain and the second transfer chain that loads a plurality of transport slide, its characterized in that, the both sides of aforesaid first transfer chain and the both sides of second transfer chain all are provided with a plurality of friction drive arrangement, and the terminal point side of aforesaid first transfer chain and the starting point side of second transfer chain all are provided with rotatory rolling machine; the first conveying line comprises a first conveying base, at least two first conveying roller ways are fixedly arranged at the upper end of the first conveying base, and a plurality of conveying rollers are rotatably arranged on the first conveying roller ways along the running direction of the first conveying line; the second conveying line comprises a second conveying base, at least two second conveying roller ways are fixedly arranged at the upper end of the second conveying base, and a plurality of conveying rollers are rotatably arranged along the running direction of the second conveying line; the rotary rolling machine comprises an annular rotary track and a rolling machine mechanism, wherein a plurality of track fixing supports are fixedly arranged at the lower end of the annular rotary track, the rolling machine mechanism comprises a rolling machine base, the rolling machine base is rotatably arranged above the annular rotary track, a plurality of rotary guide wheels matched with the annular rotary track are arranged on the rolling machine base, a rotary shaft of at least one rotary guide wheel is connected with a rolling machine rotary driving motor, at least two rolling machine conveying roller ways are further arranged on the rolling machine base, and friction driving devices are arranged on the outer sides of the two rolling machine conveying roller ways.

2. The non-foundation slide conveying line for the automobile assembly workshop of claim 1, wherein the conveying slide comprises a slide base, a slide guide wheel is rotatably arranged at the lower end of the slide base, a first guide rail matched with the slide guide wheel is fixedly arranged at the upper end of the first conveying base, a second guide rail matched with the slide guide wheel is fixedly arranged at the upper end of the second conveying base, and a roller guide rail matched with the slide guide wheel is fixedly arranged on the roller base.

3. The skid-free conveyor line for the automobile assembly workshop according to claim 1, wherein the friction driving device comprises a driving device base, the driving device base is rotatably hinged with a rotary driving arm, the driving device base is fixedly provided with an elastic mechanism, one end of the rotary driving arm, which is far away from the hinged position, is connected with the elastic mechanism, the rotary driving arm is fixedly connected with a friction driving motor, a rotating shaft of the friction driving motor is fixedly connected with a friction driving disc, and the friction driving disc abuts against the side face of the conveying skid.

4. The skid-free conveyor line for automobile assembly workshops according to claim 1, wherein a rotary roller bed is provided on both a start point side of the first conveyor line and an end point side of the second conveyor line.