CN114682449B - Integrated glue spreading table for turning and rotating vehicle glass - Google Patents

Abstract

The invention belongs to the technical field of vehicles and discloses a vehicle glass overturning, rotating and integrating glue coating platform which comprises an adsorption mechanism, an overturning mechanism, a rotating mechanism, a speed regulating mechanism and a base, wherein the adsorption mechanism can adsorb glass, the adsorption mechanism comprises a supporting rod, the supporting rod extends in the horizontal direction, the supporting rod is detachably arranged on the overturning mechanism, the overturning mechanism can overturn the adsorption mechanism by taking the supporting rod as a central axis, the rotating mechanism comprises a rotating disk, the overturning mechanism is fixedly arranged on the rotating disk, the rotating disk is arranged in the horizontal direction in parallel, the rotating disk can rotate around the central axis of the rotating disk, the speed regulating mechanism can control the rotating speed of the rotating disk, and the rotating mechanism and the speed regulating mechanism are both arranged on the base. The vehicle glass overturning and rotating integrated glue coating platform can save glass glue, reduces the labor intensity of workers, improves the glass assembly efficiency, and is simple in structure, low in manufacturing cost and short in development period.

Description

Integrated gluing table for overturning and rotating vehicle glass

Technical Field

The invention relates to the technical field of automobile glass assembly, in particular to a vehicle glass overturning and rotating integrated gluing table.

Background

Glass glue is needed to be coated on the inner side of glass and is bonded with an automobile body during glass assembly of a passenger car, the shape of the glass glue is unchanged for ensuring that the glass glue is prevented from flowing on the glass, the inner side of the glass is required to be upward during gluing, the inner side edge of the glass is glued, after the glass glue is coated, an adsorption device is required to be used for adsorbing the outer side of the glass, the glued inner side of the glass faces the automobile body, the glass and the automobile body are compacted after positioning, and the glass glue is solidified to complete assembly. The glue spreading equipment commonly used in the prior art is generally two types, one type is an automatic assembly line for mass production passenger car glass, wherein the glue spreading, overturning and assembling processes are all operated by a robot with a customized height. The gluing equipment has the advantages of complex structure, high manufacturing cost and long debugging period, can cause certain glue waste, and is not suitable for vehicles with the characteristics of small batch and high flexibility. The other type is a rotary gluing table which can adsorb glass, rotate along the circumferential direction of the glass and then glue manually. However, the rotating glue coating table cannot adjust the rotating angular speed of the glass, and needs a plurality of people to adsorb the outside of the glass by using the sucking discs after the glass coated with the glass glue is turned by hands, and then the glass is assembled on the vehicle body, so that the whole process greatly increases the working strength of an operator, and misoperation is easily caused when the glass is turned by hands, and the glass is damaged.

Disclosure of Invention

The invention aims to provide a vehicle glass overturning and rotating integrated gluing table, which solves the problems that the existing gluing equipment has a complex structure and high manufacturing cost, cannot adjust the rotating angular speed of glass, needs a plurality of hands to overturn the glass, adsorbs the outer side of the glass by a sucking disc, and is assembled on a vehicle body, and the working strength of an operator is increased.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a rotatory integrated rubber coating platform of vehicle glass upset, includes:

the adsorption mechanism can adsorb glass and comprises a support rod, and the support rod extends along the horizontal direction;

the supporting rod is detachably arranged on the turnover mechanism, and the turnover mechanism can turn over the adsorption mechanism by taking the supporting rod as a central shaft;

the rotating mechanism comprises a rotating disk, the turnover mechanism is fixedly arranged on the rotating disk, the rotating disk is arranged in parallel to the horizontal direction, and the rotating disk can rotate around the central axis of the rotating disk;

the speed regulating mechanism can control the rotating speed of the rotating disc;

the base, rotary mechanism with speed adjusting mechanism all sets up in the base.

As an optimal selection scheme of the above-mentioned rotatory integrated rubber coating platform of vehicle glass upset, adsorption apparatus still includes a plurality of adsorption component, and is a plurality of adsorption component follows the extending direction interval of bracing piece and fixed set up in the bracing piece, adsorption component includes dead lever and a plurality of sucking disc, and is a plurality of the sucking disc is followed the extending direction interval of dead lever and fixed set up in the dead lever, the dead lever with bracing piece fixed connection, the sucking disc can adsorb fixedly glass.

As an optimal scheme of the vehicle glass overturning and rotating integrated gluing table, the overturning mechanism comprises an overturning support frame and two supports which are rotatably arranged on the overturning support frame, the overturning support frame is fixedly arranged on the rotating disc, and two ends of the supporting rod are respectively detachably connected to the two supports.

As an optimal scheme of the above-mentioned vehicle glass upset rotary integrated rubber coating platform, the support includes pedestal, branch and connecting pin, the pedestal rotate set up in the upset support frame, branch partly wears to locate the pedestal, and another part wears to locate the bracing piece, the bracing piece is equipped with rectangular hole, branch is equipped with the connecting hole, the connecting pin wears to establish simultaneously the connecting hole with rectangular hole, the lateral wall of pedestal is equipped with the breach, the breach is configured to work as the connecting pin is located rectangular hole is kept away from when the one end of pedestal, branch can be followed the breach breaks away from the pedestal.

As an optimal scheme of the vehicle glass overturning and rotating integrated gluing table, the overturning support frame comprises a bottom beam, two upright columns, two bearing seats and two first bearings, wherein the bottom beam, the two upright columns, the two bearing seats and the two first bearings are fixedly arranged on the rotating disc, the two upright columns are respectively and fixedly connected to two ends of the bottom beam, the two bearing seats are respectively and fixedly arranged on the two upright columns, outer rings of the two first bearings are respectively and fixedly connected with the two bearing seats, and inner rings of the two first bearings are respectively and fixedly connected with the two supports.

As an optimal scheme of the above vehicle glass overturning and rotating integrated glue coating platform, the rotating mechanism further comprises a first driving piece, a fixed shaft, a first gear and a second gear, the fixed shaft is fixedly arranged on the base, the rotating disk and the second gear are all sleeved on the fixed shaft, the rotating disk is fixedly connected with the second gear, the first gear is meshed with the second gear, the first driving piece is in transmission connection with the first gear, and the first driving piece is fixedly arranged on the base.

As a preferable scheme of the vehicle glass overturning and rotating integrated glue coating table, the number of the first driving pieces and the first gears is multiple, the first driving pieces are in one-to-one transmission connection with the first gears, the first gears are all meshed with the second gears, the first gears are arranged at intervals along the rotating direction of the rotating disc, and the first driving pieces are arranged at intervals along the rotating direction of the rotating disc.

As a preferred scheme of the above vehicle glass turnover and rotation integrated glue coating platform, the speed regulating mechanism includes a dc power supply and a speed regulating pedal both fixedly arranged on the base, one electrode of the dc power supply, the speed regulating pedal, the first driving member and the other electrode of the dc power supply are connected in series through a conductive wire harness, and the speed regulating pedal can control the output speed of the first driving member.

As an optimal scheme of the vehicle glass overturning and rotating integrated gluing table, the base comprises a bottom plate and a plurality of universal wheels, the rotating disc is rotatably arranged on the bottom plate, and the universal wheels are arranged on the bottom plate at intervals and fixedly.

As a preferred scheme of the above vehicle glass turnover and rotation integrated gluing table, the base further comprises a plurality of universal ball structures, the plurality of universal ball structures are arranged on the bottom plate at intervals along the rotation direction of the rotating disc and are fixedly arranged on the bottom plate, and the rotating disc is supported by the plurality of universal ball structures.

The invention has the beneficial effects that:

the invention provides a vehicle glass overturning and rotating integrated gluing table, which comprises the following glass assembling processes: adsorb glass with adsorption apparatus structure, and make glass be located adsorption apparatus structure's top and glass's inboard up, it is rotatory that rethread rotary mechanism drives glass, the staff can stand and can scribble glass all around and glue in one department promptly, when rotatory glass, through the rotatory speed of speed adjusting mechanism control glass, glass inboard all around after all coating glass glues, tilting mechanism overturns adsorption apparatus structure and makes glass be located adsorption apparatus structure's below, the handheld adsorption apparatus structure of being convenient for this moment, dismantle adsorption apparatus structure from tilting mechanism the back, the handheld adsorption apparatus structure of staff can install glass in the automobile body, accomplish the assembly. The vehicle glass overturning and rotating integrated glue coating platform can control the rotating speed of glass through the speed regulating mechanism according to the operation habit of workers, the size of the glass and the actual glue outlet speed, can save glass glue and can ensure that the glass glue is uniformly coated. And, dismantle adsorption equipment with tilting mechanism after, the staff can hand adsorption equipment and install glass in the automobile body, does not need the bare-handed upset glass of a plurality of staff, also does not need many people to cooperate and install glass in the automobile body, has alleviateed staff's intensity of labour, has improved glass assembly efficiency, has promoted glass assembly quality, simple structure moreover, and the cost of manufacture is low, and development cycle is short.

Drawings

FIG. 1 is a schematic structural diagram of a vehicle glass turnover and rotation integrated glue coating table provided by an embodiment of the invention;

FIG. 2 is a schematic structural diagram of an adsorption mechanism and a support in the vehicle glass turnover and rotation integrated glue coating table provided by the embodiment of the invention;

fig. 3 is a schematic structural view of a base body in a vehicle glass turning and rotating integrated gluing table provided by the embodiment of the invention;

FIG. 4 is a schematic structural diagram of a rotating mechanism and a speed regulating mechanism in the vehicle glass turnover and rotation integrated glue coating table provided by the embodiment of the invention;

fig. 5 is a schematic partial structural diagram of a base according to an embodiment of the present invention.

In the figure:

1. glass;

2. an adsorption mechanism; 21. a support bar; 22. an adsorption component; 211. a strip hole; 221. fixing the rod; 222. a suction cup;

3. a turnover mechanism; 31. turning over the support frame; 32. a support; 311. a bottom beam; 312. a column; 313. reinforcing ribs; 321. a base body; 322. a strut; 323. a connecting pin; 3211. a notch;

4. a rotation mechanism; 41. rotating the disc; 42. a first driving member; 43. a first gear; 44. a second gear; 45. a fixed shaft; 46. a motor fixing plate;

5. a speed regulating mechanism; 51. a speed regulation pedal; 52. a direct current power supply;

6. a base; 61. a base plate; 62. a weight plate; 63. a structural beam; 64. a universal wheel.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, removably connected, or integral to one another; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or may be connected through the use of two elements or the interaction of two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature "on," "above" and "over" the second feature may include the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is at a higher level than the second feature. "beneath," "under" and "beneath" a first feature includes the first feature being directly beneath and obliquely beneath the second feature, or simply indicating that the first feature is at a lesser elevation than the second feature.

In the description of the present embodiment, the terms "upper", "lower", "right", and the like are used in the orientation or positional relationship shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.

The invention provides a vehicle glass overturning and rotating integrated glue coating platform, which comprises an adsorption mechanism 2, a turnover mechanism 3, a rotating mechanism 4, a speed regulating mechanism 5 and a base 6, wherein the adsorption mechanism 2 can adsorb glass 1, the adsorption mechanism 2 comprises a support rod 21, the support rod 21 extends along the horizontal direction, the support rod 21 is detachably arranged on the turnover mechanism 3, the turnover mechanism 3 can overturn the adsorption mechanism 2 by taking the support rod 21 as a central shaft, the rotating mechanism 4 comprises a rotating disk 41, the turnover mechanism 3 is fixedly arranged on the rotating disk 41, the rotating disk 41 is arranged in the horizontal direction in parallel, the rotating disk 41 can rotate around the central shaft of the rotating disk 41, the speed regulating mechanism 5 can control the rotating speed of the rotating disk 41, and the rotating mechanism 4 and the speed regulating mechanism 5 are both arranged on the base 6.

This vehicle glass upset rotation integration rubber coating platform carries out the flow of glass 1 assembly and does: adsorb glass 1 with adsorption apparatus structure 2, and make glass 1 be located adsorption apparatus structure 2's top and glass 1's inboard up, it is rotatory that rethread slewing mechanism 4 drives glass 1, the staff can stand in one department and can have finished glass 1 all around and glue, when rotatory glass 1, through speed adjusting mechanism 5 control glass 1 rotatory speed, all coat glass 1 around glass 1 inboard and glue after, tilting mechanism 3 overturns adsorption apparatus structure 2 and makes glass 1 be located adsorption apparatus structure 2's below, be convenient for at this moment handheld adsorption apparatus structure 2, dismantle the back from tilting mechanism 3 with adsorption apparatus structure 2, the handheld adsorption apparatus structure 2 of staff can install glass 1 in the automobile body, accomplish the assembly. This rotatory integrated rubber coating platform of vehicle glass upset can be according to staff's operation custom, glass 1's size and actual gluey speed of going out, through the rotatory speed of speed adjusting mechanism 5 control glass 1, can save glass 1 and glue and can guarantee that glass 1 glues the coating even. And, dismantle adsorption mechanism 2 and tilting mechanism 3 back, the staff can hand adsorption mechanism 2 and install glass 1 in the automobile body, does not need the bare-handed upset glass 1 of a plurality of staff, also does not need many people to cooperate and install glass 1 in the automobile body, has alleviateed staff's intensity of labour, has improved glass 1 assembly efficiency, has promoted glass 1 assembly quality, simple structure moreover, and the cost of manufacture is low, and development cycle is short.

Optionally, the suction mechanism 2 further includes a plurality of suction assemblies 22, the plurality of suction assemblies 22 are spaced along the extending direction of the support rod 21 and are fixedly disposed on the support rod 21, the suction assemblies 22 include a fixing rod 221 and a plurality of suction cups 222, the plurality of suction cups 222 are spaced along the extending direction of the fixing rod 221 and are fixedly disposed on the fixing rod 221, the fixing rod 221 is fixedly connected to the support rod 21, and the suction cups 222 can suck and fix the glass 1. The sucker 222 can adsorb and fix the glass 1, so that the glass 1 is fixedly connected with the adsorption mechanism 2, and when the support rod 21 is connected with the turnover mechanism 3, the turnover mechanism 3 can drive the glass 1 to move; when the support rod 21 is separated from the turnover mechanism 3, the worker can hold the support rod 21 and/or the fixing rod 221 to drive the glass 1 to move, install the glass 1 on the vehicle body, and take the suction cup 222 off the glass 1. Alternatively, a plurality of fixing bars 221 are each disposed perpendicular to the supporting bar 21. In this embodiment, the number of the adsorption assemblies 22 is two, and the two adsorption assemblies 22 are arranged at intervals. Alternatively, suction cup 222 may be selected from pneumatic suction cup 222 or manual suction cup 222.

Alternatively, as shown in fig. 1 to 3, the turnover mechanism 3 includes a turnover support frame 31 and two supports 32 rotatably disposed on the turnover support frame 31, the turnover support frame 31 is fixedly disposed on the rotating disc 41, and two ends of the support rod 21 are respectively detachably connected to the two supports 32. Optionally, the turnover mechanism 3 further includes two second driving members, the two second driving members are respectively in transmission connection with the two supports 32, and the second driving members can drive the supports 32 to rotate relative to the turnover support frame 31. Optionally, the second drive member is an electric motor. In other embodiments, the second driving member may be a pneumatic driving device or a hydraulic driving device.

Optionally, as shown in fig. 1 to 3, the support 32 includes a seat 321, a support rod 322 and a connecting pin 323, the seat 321 is rotatably disposed on the turnover support frame 31, a portion of the support rod 322 penetrates through the seat 321, another portion penetrates through the support rod 21, the support rod 21 is provided with a long hole 211, the support rod 322 is provided with a connecting hole, the connecting pin 323 simultaneously penetrates through the connecting hole and the long hole 211, a notch 3211 is disposed on a side wall of the seat 321, and the notch 3211 is configured such that when the connecting pin 323 is located at an end of the long hole 211 away from the seat 321, the support rod 322 can be separated from the seat 321 from the notch 3211. It is understood that the elongated hole 211 extends along the length direction of the support rod 21, and the connecting pin 323 can slide in the elongated hole 211 after the connecting pin 323 is inserted into the elongated hole 211. When the connecting pin 323 simultaneously penetrates through the connecting hole and the elongated hole 211 and the connecting pin 323 slides in the elongated hole 211, the connecting pin 323 can drive the supporting rod 322 to slide in the supporting rod 21 and the seat body 321, so that the length of the supporting rod 322 in the seat body 321 can be adjusted, when the connecting pin 323 is positioned at one end of the elongated hole 211 far away from the seat body 321, the length of the supporting rod 322 in the support 32 is shortened, and the supporting rod 322 can be separated from the seat body 321 from the gap 3211 of the support 32; when the connecting pin 323 is located at one end of the elongated hole 211 close to the seat body 321, the length of the supporting rod 322 located in the supporting seat 32 is increased, the supporting rod 322 will abut against the inner wall of the seat body 321 and cannot be separated from the seat body 321, and at this time, the turnover mechanism 3 can drive the supporting rod 21 to rotate.

Optionally, the overturning support frame 31 includes a bottom beam 311 fixedly disposed on the rotating disc 41, two upright posts 312, two bearing seats and two first bearings, the two upright posts 312 are respectively and fixedly connected to two ends of the bottom beam 311, the two bearing seats are respectively and fixedly disposed on the two upright posts 312, outer rings of the two first bearings are respectively and fixedly connected to the two bearing seats, and inner rings of the two first bearings are respectively and fixedly connected to the two supports 32. The first bearing is located between the seat 321 and the bearing seat, and can ensure smooth rotation of the seat 321. It will be appreciated that the two uprights 312 are parallel and both perpendicular to the sill 311. The center of the bottom beam 311 in the length direction is fixedly connected to the center of the rotating disk 41. Optionally, the turnover support frame 31 further includes a reinforcing rib 313, one end of the reinforcing rib 313 is fixedly connected to the upright 312, and the other end is fixedly connected to the bottom beam 311. The connection strength of the bottom beam 311 and the upright 312 can be enhanced.

Optionally, as shown in fig. 4, the rotating mechanism 4 further includes a first driving member 42, a fixed shaft 45, a first gear 43 and a second gear 44, the fixed shaft 45 is fixedly disposed on the base 6, the rotating disc 41 and the second gear 44 are both sleeved on the fixed shaft 45, the rotating disc 41 is fixedly connected to the second gear 44, the first gear 43 is engaged with the second gear 44, the first driving member 42 is in transmission connection with the first gear 43, and the first driving member 42 is fixedly disposed on the base 6. The first driving member 42 drives the first gear 43 to rotate, the first gear 43 drives the second gear 44 to rotate, and the second gear 44 drives the rotating disc 41 to rotate. Optionally, the first drive member 42 is a motor. In other embodiments, the first driving member 42 may be a pneumatic driving device or a hydraulic driving device.

Optionally, a second bearing is provided between the rotating disc 41 and the stationary shaft 45. Alternatively, the gear ratio of the first gear 43 to the second gear 44 is 1.

Optionally, the rotating mechanism 4 further includes a protective cover, the protective cover is fixedly disposed on the base 6, and the first gear 43 is located between the protective cover and the base 6. The protective cover can protect the first gear 43 and also protect the worker, and prevent the worker from touching the first gear 43.

Optionally, the number of the first driving members 42 and the first gears 43 is plural, the plural first driving members 42 are in one-to-one transmission connection with the plural first gears 43, the plural first gears 43 are all meshed with the second gear 44, the plural first gears 43 are arranged at intervals along the rotation direction of the rotating disc 41, and the plural first driving members 42 are arranged at intervals along the rotation direction of the rotating disc 41. The plurality of first driving members 42 respectively drive the plurality of first gears 43 to rotate, and the plurality of first gears 43 drive the second gears 44 to rotate together, so that the second gears 44 can be ensured to rotate stably.

Optionally, the governor mechanism 5 includes a dc power supply 52 and a governor pedal 51 both fixedly disposed on the base 6, one electrode of the dc power supply 52, the governor pedal 51, the first driving member 42 and the other electrode of the dc power supply 52 are connected in series through a conductive harness, and the governor pedal 51 can control the output speed of the first driving member 42. The speed of rotation of the output shaft of the first driving member 42, and thus the speed of rotation of the rotating disk 41, is controlled by the operator stepping on the speed adjustment pedal 51. The speed of the rotating disc 41 can be conveniently controlled, and the glass 1 can be coated by workers without being hindered. The specific structure of the governor pedal 51 is conventional and will not be described herein.

Alternatively, the base 6 includes a bottom plate 61 and a plurality of universal wheels 64, the rotating disc 41 is rotatably disposed on the bottom plate 61, and the plurality of universal wheels 64 are spaced and fixedly disposed on the bottom plate 61. The base 6 is conveniently moved, so that the glass of the transport vehicle can be conveniently overturned and rotated to form the integrated glue coating platform.

Optionally, the base 6 further includes a plurality of universal ball structures, the plurality of universal ball structures are spaced and fixedly disposed on the bottom plate 61 along the rotation direction of the rotating disc 41, and the plurality of universal ball structures all support the rotating disc 41. In other embodiments, a plurality of gimbaled ball structures may also support the second gear 44. By supporting the rotary plate 41 or the second gear 44 by the universal ball structure, the rotary plate 41 can be ensured to rotate smoothly, and the rotary plate 41 can be prevented from tilting. The universal ball structure is fixedly connected to the bottom plate 61 through bolts. The specific structure of the universal ball structure is the prior art, and is not described herein again.

Optionally, as shown in fig. 4-5, the base 6 further includes a weight plate 62 and a structural beam 63, the structural beam 63 is fixedly connected to the lower surface of the base plate 61, and the weight plate 62 is fixedly connected to the lower surface of the base plate 61. The structural beam 63 can improve the structural strength of the bottom plate 61 and prevent the bottom plate 61 from being deformed. The weight plate 62 can ensure that the base 6 has enough weight to prevent the vehicle glass from overturning and rotating the integrated glue coating platform.

Optionally, the rotating mechanism 4 further includes a motor fixing plate 46, the first driving member 42 is fixedly connected to the motor fixing plate 46 and located below the motor fixing plate 46, and the first driving member 42 penetrates through the bottom plate 61 and is located below the bottom plate 61.

The specific process of installing the glass 1 on the vehicle body by using the vehicle glass overturning and rotating integrated glue coating platform is as follows: when the vehicle glass overturning and rotating integrated glue coating table is in an initial state, the suction cup 222 of the adsorption mechanism 2 faces upwards. The outer side of glass 1 is fixed by suction with suction cup 222, and the inner side of glass 1 faces upward. The staff foot is stepped on speed governing footboard 51 and is handed glass 1 and glue and carry out the rubber coating to glass 1 inboard, specifically does, adjusts the speed that rotary mechanism 4 drove glass 1 rotation through foot is stepped on speed governing footboard 51, and handheld glass 1 glues all coating glass 1 all around glass 1 is glued. Then, the turnover mechanism 3 is turned over by 180 degrees, so that the support rod 21 and the fixing rod 221 of the suction mechanism 2 are located above the glass 1, then the connecting pin 323 slides towards the middle of the support rod 21 along the elongated hole 211, when the connecting pin 323 slides to one end of the elongated hole 211 far away from the seat body 321, the support rod 322 is separated from the seat body 321 from the notch 3211, so that the support rod 21 is separated from the turnover mechanism 3, finally the support rod 21 and/or the fixing rod 221 is held by hand to install the glass 1 on a vehicle body, and the suction cup 222 is separated from the glass 1, thereby completing the assembly. After the assembly is completed, the adsorption mechanism 2 is installed on the turnover mechanism 3 again, specifically, when one end of the support rod 21 is connected with one of the supports 32, one end of the support rod 322 is firstly inserted into the support rod 21, the connecting pin 323 is simultaneously inserted into the connecting hole of the support rod 21 and the elongated hole 211 of the support rod 21, the connecting pin 323 slides to one end of the elongated hole 211 far away from the seat body 321, the other end of the support rod 322 enters the seat body 321 through the gap 3211, the connecting pin 323 slides in the direction close to the seat body 321, so that the support rod 322 is inserted into the seat body 321, and until the connecting pin 323 slides to one end of the elongated hole 211 close to the seat body 321. The other end of the support bar 21 is then connected to another support 32 according to the above-described procedure. After the suction mechanism 2 is mounted on the turnover mechanism 3, the suction mechanism 2 is turned over to a state where the suction cup 222 faces upward, so that the glass 1 is mounted for use next time.

When the vehicle glass overturning and rotating integrated glue coating platform is designed, as the base 6, the rotating mechanism 4 and the speed regulating mechanism 5 can use the glass 1 with different sizes, according to the three-dimensional data or pattern of the complete glass 1 and the size, weight, surface material and particularity of the glass 1, the height and length of the overturning support frame 31 of the overturning mechanism 3, the size of the adsorption mechanism 2 and the adsorption force of the sucker 222 are only required to be determined. Wherein when the size of tilting mechanism 3 is being designed, choose for use and enable the higher size of suitability of tilting mechanism 3, consequently only change the sucking disc 222 position of adsorption apparatus structure 2 and just can satisfy the installation requirement of the glass 1 of different motorcycle types.

After the size of the vehicle glass overturning and rotating integrated gluing table is designed, human engineering verification work such as glass 1 adsorption feasibility analysis, worker operation portability analysis, glass 1 gluing height analysis and the like needs to be carried out, and finite element analysis needs to be carried out on the strength of the vehicle glass overturning and rotating integrated gluing table.

Through the verification work, the drawing and the manufacturing of the vehicle glass overturning and rotating integrated glue coating platform can be carried out after the requirements are met.

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, adaptations, and substitutions will occur to those skilled in the art without departing from the scope of the present invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (7)

1. The utility model provides a rotatory integrated rubber coating platform of vehicle glass upset which characterized in that includes:

the adsorption mechanism (2) can adsorb the glass (1), the adsorption mechanism (2) comprises a support rod (21), and the support rod (21) extends along the horizontal direction;

the supporting rod (21) is detachably arranged on the turnover mechanism (3), and the turnover mechanism (3) can turn over the adsorption mechanism (2) by taking the supporting rod (21) as a central shaft;

the rotating mechanism (4), the rotating mechanism (4) comprises a rotating disk (41), the turnover mechanism (3) is fixedly arranged on the rotating disk (41), the rotating disk (41) is arranged in parallel to the horizontal direction, and the rotating disk (41) can rotate around the central axis of the rotating disk (41);

the speed regulating mechanism (5), the said speed regulating mechanism (5) can control the speed that the said rotating disc (41) rotates;

the rotating mechanism (4) and the speed regulating mechanism (5) are arranged on the base (6);

the rotating mechanism (4) further comprises a first driving piece (42), a fixed shaft (45), a first gear (43) and a second gear (44), the fixed shaft (45) is fixedly arranged on the base (6), the rotating disc (41) and the second gear (44) are both sleeved on the fixed shaft (45), the rotating disc (41) is fixedly connected with the second gear (44), the first gear (43) is meshed with the second gear (44), the first driving piece (42) is in transmission connection with the first gear (43), and the first driving piece (42) is fixedly arranged on the base (6);

the number of the first driving pieces (42) and the first gears (43) is multiple, the first driving pieces (42) are in one-to-one transmission connection with the first gears (43), the first gears (43) are meshed with the second gears (44), the first gears (43) are arranged at intervals along the rotating direction of the rotating disc (41), and the first driving pieces (42) are arranged at intervals along the rotating direction of the rotating disc (41);

the speed regulation mechanism (5) comprises a direct current power supply (52) and a speed regulation pedal (51) which are fixedly arranged on the base (6), one electrode of the direct current power supply (52), the speed regulation pedal (51), the first driving part (42) and the other electrode of the direct current power supply (52) are connected in series through a conductive wire harness, and the speed regulation pedal (51) can control the output speed of the first driving part (42).

2. The vehicle glass overturning, rotating and integrating gluing table according to claim 1, wherein the adsorption mechanism (2) further comprises a plurality of adsorption components (22), the plurality of adsorption components (22) are spaced and fixedly arranged on the support rod (21) along the extending direction of the support rod (21), the adsorption components (22) comprise a fixing rod (221) and a plurality of suckers (222), the plurality of suckers (222) are spaced and fixedly arranged on the fixing rod (221) along the extending direction of the fixing rod (221), the fixing rod (221) is fixedly connected with the support rod (21), and the suckers (222) can adsorb and fix the glass (1).

3. The vehicle glass turnover and rotation integrated glue coating table according to claim 1, wherein the turnover mechanism (3) comprises a turnover support frame (31) and two supports (32) rotatably arranged on the turnover support frame (31), the turnover support frame (31) is fixedly arranged on the rotating disc (41), and two ends of the support rod (21) are respectively detachably connected to the two supports (32).

4. The vehicle glass overturning and rotating integrated glue coating platform according to claim 3, wherein the support (32) comprises a base body (321), a support rod (322) and a connecting pin (323), the base body (321) is rotatably arranged on the overturning support frame (31), one part of the support rod (322) penetrates through the base body (321), the other part of the support rod penetrates through the support rod (21), the support rod (21) is provided with a long hole (211), the support rod (322) is provided with a connecting hole, the connecting pin (323) penetrates through the connecting hole and the long hole (211) at the same time, a gap (3211) is formed in a side wall of the base body (321), and the gap (3211) is configured such that when the connecting pin (323) is located at an end of the long hole (211) far away from the base body (321), the support rod (322) can be separated from the gap (3211) from the base body (321).

5. The vehicle glass overturning and rotating integrated gluing table according to claim 3, wherein the overturning support frame (31) comprises a bottom beam (311) fixedly arranged on the rotating disc (41), two upright columns (312), two bearing seats and two first bearings, the two upright columns (312) are respectively and fixedly connected to two ends of the bottom beam (311), the two bearing seats are respectively and fixedly arranged on the two upright columns (312), outer rings of the two first bearings are respectively and fixedly connected with the two bearing seats, and inner rings of the two first bearings are respectively and fixedly connected with the two supports (32).

6. The vehicle glass turnover and rotation integrated glue-coating platform according to claim 1, wherein the base (6) comprises a bottom plate (61) and a plurality of universal wheels (64), the rotating disc (41) is rotatably arranged on the bottom plate (61), and the universal wheels (64) are spaced and fixedly arranged on the bottom plate (61).

7. The vehicle glass turnover and rotation integrated gluing station according to claim 6, wherein the base (6) further comprises a plurality of universal ball structures, the universal ball structures are spaced along the rotation direction of the rotating disc (41) and fixedly arranged on the bottom plate (61), and the plurality of universal ball structures all support the rotating disc (41).

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