CN117163677A - Storage device is used in motormeter processing - Google Patents

Abstract

The invention relates to the technical field of instrument processing, and provides a storage device for automobile instrument processing, which comprises a buffer machine frame, a guide bracket arranged in the buffer machine frame and a bearing seat arranged at the tail end of the guide bracket; the guide bracket comprises a buffer main body, an introduction component arranged at the head end of the buffer main body and a connecting piece arranged at the tail end of the buffer main body and in butt joint with the temporary storage box; the buffer main body comprises a vertical support, a main support, a front roller piece and a rear roller piece, wherein the vertical support is erected in the buffer machine frame, the main support is arranged on the vertical support, the front roller piece and the rear roller piece are respectively arranged at the front end and the rear end of the main support, a turnover belt surface is arranged between the front roller piece and the rear roller piece, a plurality of support rollers are arranged on the bottom frame of the main support, and the buffer roller is arranged on the top frame of the main support; the supporting roller and the buffer roller tighten the turnover belt surface, thereby ensuring the stability of the semi-finished product of the automobile instrument in the turnover temporary storage process.

Description

Storage device is used in motormeter processing

Technical Field

The invention relates to the technical field of instrument processing, in particular to a storage device for automobile instrument processing.

Background

At present, automobile meters are devices for reflecting the working conditions of various systems of vehicles, and are commonly provided with fuel oil indicating lamps, cleaning liquid indicating lamps, electronic accelerator indicating lamps, front and rear fog lamp indicating lamps and alarm lamps, and the meters of different automobiles are different, but the conventional meters of general automobiles are a speedometer, a tachometer, an engine oil pressure meter, a water temperature meter, a fuel oil meter, a charging meter and the like.

In the manufacturing process of the automobile instrument, a semi-finished product of the automobile instrument needs to be used as a special storage tool, and the storage tool for processing the semi-finished product of the automobile instrument in the prior art generally comprises a box body, wherein an upper cover is arranged on the upper side of the box body, and a spring, a supporting gasket and other related buffer structures are arranged in the box body; is used for buffering and supporting the automobile instrument, thereby ensuring the precision of the automobile instrument.

In the prior art, the automobile instrument is conveyed to the storage device, and a pipeline turnover mode is often directly adopted, so that certain defects exist in the turnover storage mode, the gravity formed by the height difference between the storage device and the pipeline, and the impact vibration caused by the butt joint of the pipeline and the storage device can influence the internal precision of the automobile instrument, and even cause the problem of assembly dislocation in the subsequent manufacturing process; therefore, how to ensure the stability of the semi-finished product of the automobile instrument in the turnover temporary storage process is a problem to be solved in the prior art.

Disclosure of Invention

The invention aims to provide a storage device for automobile instrument processing, which aims to solve the technical problems in the prior art.

In order to solve the technical problems, the storage device for processing the automobile instrument comprises a buffer machine frame, a guide bracket arranged in the buffer machine frame and a bearing seat arranged at the tail end of the guide bracket;

the guide bracket comprises a buffer main body, an introduction component arranged at the head end of the buffer main body and a connecting piece arranged at the tail end of the buffer main body and in butt joint with the temporary storage box;

the buffer main body comprises a vertical support, a main support, a front roller piece and a rear roller piece, wherein the vertical support is erected in the buffer machine frame, the main support is arranged on the vertical support, the front roller piece and the rear roller piece are respectively arranged at the front end and the rear end of the main support, a turnover belt surface is arranged between the front roller piece and the rear roller piece, a plurality of supporting rollers are arranged on the bottom frame of the main support, and the buffer roller is arranged on the top frame of the main support; the supporting roller and the buffer roller are used for tightening the turnover belt surface, and the supporting roller is supported at the bottom of the upper plane of the turnover belt surface.

As a further scheme of the invention: the side edge of the main support frame is provided with a main support frame and an extension guide strip arranged at the head end of the main support frame, and the front roller piece comprises a support bearing arranged at the bottom edge of the extension guide strip, an introduction shaft arranged on the support bearing and an introduction roller body arranged on the introduction shaft.

As a further scheme of the invention: the main support frame comprises a main support frame body and is characterized in that a side edge support is further arranged on the side edge of the main support frame body, a driving motor is arranged on the side edge support, a coupling transmission is arranged at the power input end of the leading-in shaft, and the power input end of the coupling transmission is connected with the driving end of the driving motor through a driving belt.

As a further scheme of the invention: the supporting rollers are distributed along the main support frame at certain intervals and comprise positioning sheets arranged on the bottom plane of the main support frame, supporting shafts arranged on the positioning sheets and supporting rollers rotatably arranged on the supporting shafts.

As a further scheme of the invention: the buffer roller comprises a side edge base block arranged on the upper surface of the main support frame and a transverse supporting frame arranged on the side edge of the side edge base block, a limit interval is formed between the transverse supporting frames, a side edge spring column and a middle supporting spring column connected between the side edge spring columns are arranged between the side edge base block, the side edge spring column and the middle supporting spring column are connected through a bending bolt, the side edge spring column and the middle supporting spring column form an arch structure, and the middle supporting spring column passes through the limit interval to protrude upwards and is supported at the bottom of an upper plane of a turnover belt surface.

As a further scheme of the invention: the arrangement interval of the buffer rollers gradually reduces from the head end of the main support to the tail end of the main support.

As a further scheme of the invention: the leading-in subassembly is including installing in the bottom support frame of leading roller spare bottom edge, setting up the leading-in layer board on the bottom support frame and install the adsorption plate on leading-in layer board, the outside of buffer memory frame is provided with the adsorption frame, installs the pipeline of breathing in that is used for connecting the adsorption plate on the adsorption frame.

As a further scheme of the invention: the device is characterized in that a limiting support shaft and a limiting coil spring wound at the shaft end of the limiting support shaft are arranged between the bottom support frame and the guide-in support plate, the fixed end of the limiting coil spring is arranged on the bottom support frame, and the bottom end of the guide-in support plate is provided with a collision protrusion.

As still further aspects of the invention: the utility model discloses a buffer spring, including frame, buffer spring, support frame, buffer spring, support frame and support frame is provided with the support frame on the frame is enclosed to the support frame on the frame is provided with the support on the frame is enclosed to the support frame, the bottom of frame is provided with the support frame on the frame is enclosed to the frame, the bottom of keeping in the case is provided with the frame is enclosed to the support, the frame is enclosed to the support is provided with the frame in the bottom of frame, the extension of bracing piece is installed on enclosing the frame in the support, is provided with fixed cover on the extension, twines buffer spring on the body of rod of extension, buffer spring supports between fixed cover and frame.

By adopting the technical scheme, the invention has the following beneficial effects:

the invention aims at protecting a temporary automobile instrument in multiple aspects, a leading-in component is designed to be a first buffer tool and used for discharging initial power existing when the automobile instrument moves, a buffer main body is a second buffer tool, the buffer main body takes a main support frame as a main body, a tight turnover belt surface is formed on the periphery of the buffer main body through a front roller piece, a rear roller piece, a supporting roller and the buffer roller, in the moving process of the automobile instrument, a sufficient supporting effect is given, the buffer roller supports and props against the bottom of the turnover belt surface, each buffer roller is a buffer point, so that the instrument is ensured to stably fall into a temporary storage box, the temporary storage box is a third buffer tool, and a stable supporting structure is formed on the instrument by matching with a bearing seat.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the overall structure of a storage device for processing an automobile instrument according to an embodiment of the present invention.

Fig. 2 is a schematic cross-sectional structure of a guide bracket according to an embodiment of the present invention.

Fig. 3 is a schematic installation diagram of a front roller according to an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a backup roll according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a buffer roller according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of an introduction assembly according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of the area a in fig. 6 according to the present invention.

Fig. 8 is a schematic diagram of an oblique cross-section structure of a bearing seat according to an embodiment of the present invention.

Reference numerals: 11. caching the machine frame; 12. a guide bracket; 13. a bearing seat; 14. a temporary storage box; 15. a buffer body; 16. an import component; 17. a linking member; 21. a vertical bracket; 22. a main support frame; 23. a rear roller; 24. a front roller; 25. a support roller; 26. a turnover belt surface; 27. a buffer roller; 31. a main support frame; 32. extending the guide bar; 33. a support bearing; 34. an introduction shaft; 35. leading in the roller body; 36. a side edge bracket; 37. a driving motor; 38. a transmission belt; 39. a coupling actuator; 41. a positioning sheet; 42. a support shaft; 43. a support roller; 51. a transverse support frame; 52. a side edge base block; 53. a limit section; 54. bending bolt; 55. a side spring post; 56. a middle branch spring column; 61. a bottom bracket frame; 62. limiting the support shaft; 63. leading in a supporting plate; 64. an adsorption plate; 65. an adsorption frame; 66. an air suction pipe; 67. a collision protrusion; 68. a limit coil spring; 71. supporting the surrounding frame; 72. building a frame; 73. a frame base; 74. a chassis rail; 75. a support rod; 76. a fixed sleeve; 77. a buffer spring; 78. an extension end; 81. a longitudinal frame plate; 82. a transverse frame plate; 83. and (5) supporting the fence.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the orientation or positional relationship indicated in the present invention is based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description and simplification of the description, and is not indicative or implying that the apparatus or element to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The invention is further illustrated with reference to specific embodiments.

Referring to fig. 1 and 2, a storage device for processing an automobile instrument is provided, which includes a buffer frame 11, a guide bracket 12 installed in the buffer frame 11, and a bearing seat 13 installed at the tail end of the guide bracket 12;

the bearing seat 13 is provided with a temporary storage box 14, the guide bracket 12 comprises a buffer main body 15, an introduction assembly 16 arranged at the head end of the buffer main body 15, and a connecting piece 17 arranged at the tail end of the buffer main body 15 and in butt joint with the temporary storage box 14;

the buffer main body 15 comprises a vertical support 21 erected in the buffer frame 11, a main support 22 arranged on the vertical support 21, and a front roller piece 24 and a rear roller piece 23 respectively arranged at the front end and the rear end of the main support 22, wherein a turnover belt surface 26 is arranged between the front roller piece 24 and the rear roller piece 23, a plurality of support rollers 25 are arranged on the bottom frame of the main support 22, and a buffer roller 27 is arranged on the top frame of the main support 22; the supporting roller 25 and the buffer roller 27 are used for tightening the turnover belt surface 26, and the supporting roller 25 is supported on the upper plane bottom of the turnover belt surface 26.

The storage device for processing the automobile instrument is arranged in the whole automobile instrument processing flow and is used for carrying out turnover and temporary storage on a semi-finished instrument, the leading-in assembly 16 is used for a butt joint operation production line, the instrument is led into the buffer main body 15 from the leading-in assembly 16, and the buffer main body 15 is in butt joint with the temporary storage box 14 through the connecting piece 17, so that the instrument falls into the temporary storage box 14, and the turnover and temporary storage process of the instrument is completed.

Because the semi-finished instrument is not completely manufactured into a finished product, the protection measures of the outer shell of the semi-finished instrument are not in place, and under the vibration condition, the precision of parts is easily affected, so that the subsequent assembly process and the product quality are affected. The embodiment aims at protecting the temporarily stored automobile instrument in various aspects. The design of this embodiment is that leading-in subassembly 16 is first buffer tool for the initial power that exists when unloading the motormeter motion, buffer main part 15 is the second buffer tool, buffer main part 15 is main part with main support frame 22, form tight turnover area 26 in buffer main part 15's periphery through leading roller piece 24, post roller piece 23, backing roll 25 and buffer roller 27, at the in-process that the motormeter removed, give abundant supporting role, and buffer roller 27 supports and contradicts in turnover area 26's bottom, every buffer roller 27 is a buffer point position, thereby guarantee that the instrument steadily falls into temporary storage box 14, temporary storage box 14 is the third buffer tool, cooperate the bearing seat 13 to form stable bearing structure to the instrument.

In one case of this embodiment, the same guide bracket 12 may be externally connected to the other side of the temporary storage box 14, so as to turn the temporary stored instrument to the next processing procedure.

Referring to fig. 3, for the installation mode of the front roller 24, the following design is provided in this embodiment:

the side edge of the main support frame 22 is provided with a main support frame 31 and an extension guide bar 32 arranged at the head end of the main support frame 31, and the front roller 24 comprises a support bearing 33 arranged at the bottom edge of the extension guide bar 32, an introduction shaft 34 arranged on the support bearing 33, and an introduction roller body 35 arranged on the introduction shaft 34.

The side edge of the main support frame 31 is also provided with a side edge bracket 36, the side edge bracket 36 is provided with a driving motor 37, the power input end of the leading-in shaft 34 is provided with a coupling driver 39, and the power input end of the coupling driver 39 is connected with the driving end of the driving motor 37 through a driving belt 38.

The belt surface of the turnover belt surface 26 takes the extension guide strip 32 as a spreading datum line and is sleeved on the roller surface of the guiding roller body 35, and the guiding roller body 35 is taken as a power driving tool to drive the turnover belt surface 26 to run along the supporting direction of the main support 22; in order to ensure the stability of the operation, the embodiment uses the coupling driver 39 as a medium driving tool, the coupling driver 39 is internally provided with double gears which are meshed with each other, the power input end of the guide shaft 34 is driven to move by gear transmission, and the driving end of the driving motor 37 drives the internal gear of the coupling driver 39 to move by belt transmission; the driving force is conducted in a double-interval transmission mode, so that the influence of self vibration of equipment of the driving motor 37 on the guiding roller body 35 is reduced to the maximum extent, and the phenomenon that the equipment accuracy of the instrument is influenced by the self vibration of the motor is avoided.

Embodiment three, for the structural embodiment of the backup roller 25 and the buffer roller 27, the present embodiment is designed as follows:

referring to fig. 2 and 4, the support rollers 25 are arranged along the main support frame 22 at a certain interval, and the support rollers 25 include a positioning plate 41 mounted on a bottom plane of the main support frame 31, a support shaft 42 mounted on the positioning plate 41, and a support roller 43 rotatably mounted on the support shaft 42. The belt surface of the turnover belt surface 26 is attached to the roller surface of the supporting roller 43, and the supporting roller 43 is used for tightening and supporting the turnover belt surface 26.

Referring to fig. 2 and 5, the buffer roller 27 includes a side base block 52 mounted on the upper surface of the main supporting frame 31, and a lateral support frame 51 disposed on the side edge of the side base block 52, wherein a limit section 53 is formed between the lateral support frames 51, a side spring column 55 and a middle support spring column 56 connected between the side spring columns 55 are disposed between the side base block 52, the side spring columns 55 and the middle support spring column 56 are connected by a bending bolt 54, the side spring columns 55 and the middle support spring column 56 form an arch structure, and the middle support spring column 56 protrudes upward through the limit section 53 and is supported at the bottom of the upper plane of the peripheral belt surface 26.

The side spring columns 55 and the middle branch spring columns 56 are combined into an arched supporting structure, the middle branch spring columns 56 on the inner sides of the side spring columns 55 on the two sides form a herringbone supporting force, the middle branch spring columns 56 form an upward supporting force towards the turnover belt surface 26 on the top, and in the process that the instrument moves along the surface of the turnover belt surface 26, each buffer roller 27 forms a buffer supporting point to buffer the downward weight of the instrument, so that the stability of the instrument is ensured.

Preferably, the arrangement interval of the buffer rollers 27 is gradually reduced from the head end of the main support 22 to the tail end of the main support 22, and the buffer rollers 27 are arranged in a relatively dense manner on the area close to the temporary storage box 14, so as to ensure that the instrument stably falls into the storage space of the temporary storage box 14.

Referring to fig. 1, 2, 3 and 6, for a force-unloading implementation of the lead-in assembly 16, this embodiment is designed as follows:

the lead-in assembly 16 comprises a bottom bracket frame 61 arranged at the bottom edge of the front roller 24, a lead-in supporting plate 63 arranged on the bottom bracket frame 61, and an adsorption plate 64 arranged on the lead-in supporting plate 63, wherein an adsorption frame 65 is arranged at the outer side of the buffer frame 11, and an air suction pipeline 66 for connecting the adsorption plate 64 is arranged on the adsorption frame 65.

Leading-in support plate 63 and leading-in processing station dock, and the instrument falls into on leading-in support plate 63, sets up adsorption plate 64 on the leading-in support plate 63 to the air suction pipe 66 is to the inner chamber of adsorption plate 64 to the trend that makes this regional air current of adsorption plate 64 be pushing down, so that the instrument that gets into the region of adsorption plate 64 carries out the deceleration processing, thereby unloads the kinetic energy when instrument transmission, and it is on to turnover area 26 with comparatively stable mode transition to the instrument.

In one case of the present embodiment, referring to fig. 7, a limiting support shaft 62 and a limiting coil spring 68 wound around the shaft end of the limiting support shaft 62 are disposed between the bottom bracket frame 61 and the guide support plate 63, and a fixed end of the limiting coil spring 68 is mounted on the bottom bracket frame 61, and a contact protrusion 67 is disposed at the bottom end of the guide support plate 63. The abutting protrusion 67 is used for limiting the rotation angle of the guiding support plate 63, so that the guiding support plate 63 can only rotate a small angle (clockwise in the figure) with the limiting support shaft 62 as an axis, when the instrument is guided into the guiding support plate 63, the guiding support plate 63 is subjected to small-amplitude rotation offset due to the influence of gravity, and the limiting coil spring 68 is deformed in the process of limiting the rotation of the support shaft 62, so that a reset thrust in a counterclockwise direction is formed, the instrument is pulled to the head end of the turnover belt surface 26 in a relatively slow mode, and the smoothness of guiding the instrument into the turnover belt surface 26 is improved.

Referring to fig. 1 and 8, for the buffer supporting structure of the temporary storage box 14, the following design is adopted:

the utility model discloses a temporary storage box, including carrier 13, support frame 13, temporary storage box 14, support frame 72, frame seat 73 fixed support is provided with the support frame 71 on the side of frame 72, be provided with the bracing rail 83 in the frame 72, and install on the bracing rail 83 and mutually perpendicular's horizontal frame plate 82 and vertical frame plate 81, the bottom of frame 72 has set up chassis rail 74, installs a plurality of bracing pieces 75 on the chassis rail 74, the extension end 78 of bracing piece 75 is installed on the support frame 71, is provided with fixed cover 76 on the extension end 78, twines on the body of rod of extension end 78 has buffer spring 77, buffer spring 77 supports between fixed cover 76 and chassis rail 74.

The bottom of the temporary storage box 14 takes the lapping frame 72 as a loading structure, a supporting structure consisting of a transverse frame plate 82 and a longitudinal frame plate 81 is arranged in the lapping frame 72, and a jig conforming to the size of the instrument can be loaded in the temporary storage box 14 for loading the instrument; the peripheral supporting frame 71 forms an outer supporting structure for the frame 72, as an example, a mechanism arrangement mode is given in the figure, three supporting rods 75 are arranged on the frame 72, and buffer springs 77 are respectively arranged at the butt joint ends of the supporting rods 75 and the frame 72, so that peripheral supporting protection acting force is formed for the frame 72, and supporting protection effect is formed for the temporary storage box 14.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (9)

1. The storage device for processing the automobile instrument is characterized by comprising a buffer machine frame (11), a guide bracket (12) arranged in the buffer machine frame (11), and a bearing seat (13) arranged at the tail end of the guide bracket (12); it is characterized in that the method comprises the steps of,

the guide bracket (12) comprises a buffer main body (15), an introduction assembly (16) arranged at the head end of the buffer main body (15), and a connecting piece (17) arranged at the tail end of the buffer main body (15) and in butt joint with the temporary storage box (14);

the buffer main body (15) comprises a vertical support (21) erected in the buffer machine frame (11), a main support (22) arranged on the vertical support (21), and a front roller piece (24) and a rear roller piece (23) which are respectively arranged at the head end and the tail end of the main support (22), wherein a turnover belt surface (26) is arranged between the front roller piece (24) and the rear roller piece (23), a plurality of supporting rollers (25) are arranged on the bottom frame of the main support (22), and buffer rollers (27) are arranged on the top frame of the main support (22); the supporting roller (25) and the buffer roller (27) are used for tightening the turnover belt surface (26), and the supporting roller (25) is supported on the upper plane bottom of the turnover belt surface (26).

2. The storage device for machining an automobile instrument according to claim 1, wherein a main support frame (31) and an extension guide bar (32) are provided on a side edge of the main support frame (22), the front roller (24) includes a support bearing (33) mounted on a bottom edge of the extension guide bar (32), an introduction shaft (34) mounted on the support bearing (33), and an introduction roller body (35) mounted on the introduction shaft (34).

3. The storage device for automobile instrument processing according to claim 2, wherein a side edge bracket (36) is further arranged on the side edge of the main support frame (31), a driving motor (37) is arranged on the side edge bracket (36), a coupling transmission (39) is arranged at the power input end of the guide-in shaft (34), and the power input end of the coupling transmission (39) is connected with the driving end of the driving motor (37) through a transmission belt (38).

4. A storage device for machining an automobile instrument according to claim 3, wherein the support rollers (25) are arranged at a certain interval along the main support frame (22), and the support rollers (25) include a positioning piece (41) mounted on a bottom plane of the main support frame (31), a support shaft (42) mounted on the positioning piece (41), and a support roller (43) rotatably mounted on the support shaft (42).

5. The storage device for machining an automobile instrument according to claim 4, wherein the buffer roller (27) comprises a side base block (52) erected on the upper surface of the main supporting frame (31) and a transverse supporting frame (51) arranged on the side edge of the side base block (52), a limit section (53) is formed between the transverse supporting frames (51), a side spring column (55) and a middle supporting spring column (56) connected between the side spring columns (55) are arranged between the side base blocks (52), the side spring columns (55) and the middle supporting spring column (56) are connected through bending bolts (54), the side spring columns (55) and the middle supporting spring column (56) form an arch structure, and the middle supporting spring column (56) passes through the limit section (53) to be protruded upwards and supported on the upper plane bottom of the peripheral belt surface (26).

6. The storage device for automobile instrument processing according to claim 5, wherein the arrangement interval of the buffer rollers (27) is gradually reduced from the head end of the main support frame (22) to the tail end of the main support frame (22).

7. The storage device for automobile instrument processing according to any one of claims 1 to 6, wherein the lead-in unit (16) includes a bottom bracket frame (61) attached to a bottom edge of the front roller (24), a lead-in pallet (63) provided on the bottom bracket frame (61), and an adsorption plate (64) attached to the lead-in pallet (63), an adsorption frame (65) is provided on an outer side of the buffer frame (11), and an air suction pipe (66) for connecting the adsorption plate (64) is attached to the adsorption frame (65).

8. The storage device for machining an automobile instrument according to claim 7, wherein a limiting support shaft (62) and a limiting coil spring (68) wound around the shaft end of the limiting support shaft (62) are arranged between the bottom support frame (61) and the guide-in support plate (63), the fixed end of the limiting coil spring (68) is mounted on the bottom support frame (61), and a collision protrusion (67) is arranged at the bottom end of the guide-in support plate (63).

9. The storage device for processing the automobile instrument according to any one of claims 1 to 6, wherein a supporting enclosure frame (71) is arranged on the bearing seat (13), a lapping frame (72) is arranged at the bottom of the temporary storage box (14), a lapping frame seat (73) is arranged at the side edge of the lapping frame (72), the lapping frame seat (73) is fixedly supported on the supporting enclosure frame (71), a supporting column (83) is arranged in the lapping frame (72), a transverse frame plate (82) and a longitudinal frame plate (81) which are arranged on the supporting column (83) and are mutually perpendicular are arranged on the supporting column (83), a bottom frame plate (74) is arranged on the bottom of the lapping frame (72), a plurality of supporting rods (75) are arranged on the bottom frame plate (74), extension ends (78) of the supporting rods (75) are arranged on the supporting enclosure frame (71), fixing sleeves (76) are arranged on the rod bodies of the extension ends (78), and buffer springs (77) are wound on the rod bodies of the extension ends (78) and supported between the fixing sleeves (76) and the bottom frame plate (74).