CN223532347U - A flip work platform - Google Patents

Abstract

The utility model belongs to the technical field of tool clamps, and discloses a turnover working platform. The turnover working platform comprises a clamp assembly, a rotating assembly, a base assembly and an auxiliary supporting assembly, wherein a fitting to be assembled can be fixed on one side of the clamp assembly, the other side of the clamp assembly is connected with the rotating assembly, the rotating assembly is rotatably arranged on the base assembly and can drive the clamp assembly to rotate around a Y axis between a first position and a second position, one end of the auxiliary supporting assembly is connected with the rotating assembly, the other end of the auxiliary supporting assembly is connected with the base assembly, and the auxiliary supporting assembly is used for supporting the clamp assembly in the first position. The turnover working platform realizes flexible adjustment of the position of the to-be-assembled part, solves the problem of insufficient assembly flexibility of the working platform caused by position fixation, can adapt to different assembly procedure demands, reduces assembly obstruction caused by unsuitable position, reduces assembly difficulty, improves assembly efficiency, and ensures smoothness and high efficiency of the assembly process.

Description

Turnover working platform

Technical Field

The utility model relates to the technical field of tool clamps, in particular to a turnover working platform.

Background

The automobile industry continues to develop, automobile parts accelerate iteration and upgrade, technological progress enables the integration level of the parts to be continuously increased, and assembly complexity is correspondingly improved. In the process of automobile assembly, medium-sized and relatively large-mass parts to be assembled are frequently produced, and the assembly of the parts has quite high requirements on a working platform.

The traditional fixed working platform is fixed in structure, when facing to the to-be-assembled parts with large mass, lacks a flexible adjustment mechanism, is high in operation difficulty, is difficult to improve in assembly efficiency, and is difficult to adapt to the assembly requirements of modern automobiles.

Disclosure of utility model

The utility model aims to provide a turnover working platform, which solves the problem of low assembly efficiency caused by fixed position of a part to be assembled and difficult flexible adjustment in the traditional assembly.

To achieve the purpose, the utility model adopts the following technical scheme:

the turnover working platform comprises a clamp assembly, a rotating assembly, a base assembly and an auxiliary supporting assembly, wherein one side of the clamp assembly can fix a part to be assembled, the other side of the clamp assembly is connected with the rotating assembly, the rotating assembly is rotatably arranged on the base assembly and can drive the clamp assembly to rotate around a Y axis between a first position and a second position, one end of the auxiliary supporting assembly is connected with the rotating assembly, the other end of the auxiliary supporting assembly is connected with the base assembly, and the auxiliary supporting assembly is used for supporting the clamp assembly when being positioned at the first position.

As an alternative scheme of upset work platform, this rotating assembly includes connecting plate and the bearing frame that is connected, and this anchor clamps subassembly sets up on this connecting plate, and this base subassembly includes base, first support and pivot, and the one end of this first support is connected with this base, and the other end and the this pivot fixed connection of this first support, this pivot wear to locate this bearing frame and with this bearing frame normal running fit.

As an alternative scheme of upset work platform, first fixed orifices and second fixed orifices have been seted up along the axial to this bearing frame, and this base subassembly still includes second support and locking piece, and this second support is connected with this base to be equipped with the guide way on this second support, this locking piece slides and sets up in this guide way, and in this first position, this locking piece can peg graft this first fixed orifices, in this second position, this second fixed orifices can be pegged graft to this locking piece.

As an alternative scheme of upset work platform, this upset work platform still includes first detection component, and this first detection component includes detecting source and detecting piece, and this detecting source is connected with this second support, and this detecting piece is connected with this locking piece, and this detecting piece can be with this detecting source response cooperation in order to detect the grafting state of this locking piece with this bearing frame.

As an alternative scheme of the turnover working platform, the auxiliary supporting component comprises a first connecting piece and a second connecting piece which are rotatably connected around a Y axis, one end of the first connecting piece, which is far away from the second connecting piece, is rotatably connected with the base component around the Y axis, and one end of the second connecting piece, which is far away from the first connecting piece, is rotatably connected with the rotating component around the Y axis.

As an alternative to the turnover working platform, the auxiliary supporting component further includes an elastic member, one end of the elastic member is connected with the first connecting member, and the other end of the elastic member is connected with the base component.

As an alternative scheme of upset work platform, this anchor clamps subassembly includes bottom plate, first setting element and first clamp piece, and this first setting element and this first clamp piece all set up on this bottom plate, and this first setting element is used for the location to wait to adorn the accessory, and this first clamp piece is used for compressing tightly this to wait to adorn the accessory in this bottom plate.

As an alternative scheme of upset work platform, this rotating assembly includes connecting plate and second setting element, and this anchor clamps subassembly sets up in one side of this connecting plate, and this connecting plate is close to one side of this anchor clamps subassembly and is equipped with this second setting element, and this anchor clamps subassembly includes bottom plate and second and compresses tightly the piece, and this bottom plate is provided with and this second setting element matched with first locating hole, and this second compresses tightly the piece and wears to establish this bottom plate and be connected with this connecting plate.

As an alternative to the flipping-over table, the flipping-over table further comprises a second detecting assembly coupled to the rotating assembly, the second detecting assembly configured to detect the code on the clamp assembly.

As an alternative to the turnover working platform, the turnover working platform further includes a third detecting component connected with the base component for detecting a rotation angle of the rotating component around the Y axis.

The beneficial effects are that:

The utility model provides a turnover working platform, which is characterized in that a clamp assembly, a rotating assembly, a base assembly and an auxiliary supporting assembly of the turnover working platform are cooperatively matched, the clamp assembly is used for fixing a part to be assembled, the rotating assembly is used for rotating by taking the base assembly as a support and driving the clamp assembly and the part to be assembled to rotate around a Y axis between a first position and a second position, and the auxiliary supporting assembly is connected with the rotating assembly and the base assembly in the first position, so that the integral structure is stable, and the assembly of different procedures can be carried out in the two positions respectively. The turnover working platform realizes flexible adjustment of the position of the to-be-assembled part, solves the problem of insufficient assembly flexibility caused by position fixation in the traditional assembly mode, can adapt to different assembly procedure demands, reduces assembly obstruction caused by unsuitable position, reduces assembly difficulty, improves assembly efficiency, and ensures smoothness and high efficiency of the assembly process.

Drawings

Fig. 1 is a schematic structural diagram of a turnover working platform according to an embodiment of the present utility model;

FIG. 2 is a schematic view of a clamp assembly according to an embodiment of the present utility model;

FIG. 3 is a first schematic view of a rotating assembly and a second sensing assembly provided in an embodiment of the present utility model;

FIG. 4 is a second schematic view of a rotating assembly and a second sensing assembly provided by an embodiment of the present utility model;

FIG. 5 is a first schematic view of a part of a turnover working platform according to an embodiment of the present utility model;

FIG. 6 is a second schematic view of a part of a turnover working platform according to an embodiment of the present utility model;

Fig. 7 is an enlarged view at a in fig. 6.

In the figure:

1-a clamp assembly, 11-a bottom plate, 12-a first positioning piece, 13-a first pressing piece, 14-a second pressing piece, 15-a handle, 111-a first positioning hole, 112-a support column and 113-a mounting column;

2-rotating components, 21-connecting plates, 22-bearing seats, 23-second positioning pieces, 221-first fixing holes and 222-second fixing holes;

3-base assembly, 31-base, 32-first bracket, 33-rotating shaft, 34-second bracket, 35-locking piece, 36-first limited block and 341-guide channel;

4-auxiliary supporting components, 41-first connecting pieces, 42-second connecting pieces, 43-elastic pieces, 44-first fixing seats, 45-second fixing seats and 46-third fixing seats;

5-first detecting component, 51-detecting source, 52-detecting piece;

6-second detection component, 61-first sensor, 62-first mounting seat;

7-third detection component, 71-second sensor, 72-second mounting seat;

8-fitting to be assembled.

Detailed Description

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

In the description of the present utility model, the terms "coupled," "connected," and "fixed" are to be construed broadly, as they may be fixed, removable, or integral, for example, unless clearly indicated and limited otherwise. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

In the present utility model, unless expressly stated or limited otherwise, a first feature "above" or "below" a second feature may include both the first and second features being in direct contact, as well as the first and second features not being in direct contact but being in contact with each other through additional features therebetween. Moreover, a first feature being "above," "over" and "on" a second feature includes the first feature being directly above and obliquely above the second feature, or simply indicating that the first feature is higher in level than the second feature. The first feature being "under", "below" and "beneath" the second feature includes the first feature being directly under and obliquely below the second feature, or simply means that the first feature is less level than the second feature.

In the description of the present embodiment, the terms "upper", "lower", and the like are based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description and simplicity of operation, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the utility model. Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for distinguishing between them.

The embodiment provides a turnover working platform, as shown in fig. 1-7, the turnover working platform comprises a clamp assembly 1, a rotating assembly 2, a base assembly 3 and an auxiliary supporting assembly 4, wherein one side of the clamp assembly 1 can fix a fitting 8 to be assembled, the other side of the clamp assembly 1 is connected with the rotating assembly 2, the rotating assembly 2 is rotatably arranged on the base assembly 3 and can drive the clamp assembly 1 to rotate between a first position and a second position around a Y-axis, one end of the auxiliary supporting assembly 4 is connected with the rotating assembly 2, the other end of the auxiliary supporting assembly 4 is connected with the base assembly 3, and the auxiliary supporting assembly 4 is used for supporting the clamp assembly 1 when being in the first position. In this embodiment, the to-be-assembled component 8 is an automobile part, and in other embodiments, the to-be-assembled component 8 may be other parts, which is not limited herein.

The clamp assembly 1, the rotating assembly 2, the base assembly 3 and the auxiliary supporting assembly 4 of the turnover working platform are cooperatively matched, the clamp assembly 1 is used for fixing an assembly to be assembled 8 at first, the rotating assembly 2 is used for rotating by taking the base assembly 3 as a support, the clamp assembly 1 and the assembly to be assembled 8 are driven to rotate around a Y axis between a first position and a second position, and when the clamp assembly is in the first position, the auxiliary supporting assembly 4 is used for connecting the rotating assembly 2 and the base assembly 3, so that the whole structure is stable, and assembly of different procedures can be carried out when the clamp assembly is in the two positions. This upset work platform has realized waiting to adorn the nimble adjustment of accessory 8 position, has solved the assembly flexibility problem that leads to because of the fixed position in traditional assembly methods, adaptable different assembly process demands, reduces the assembly hindrance that produces because of the position is unsuitable, reduces the assembly degree of difficulty, promotes assembly efficiency, ensures the smoothness nature and the high efficiency of assembly process.

Specifically, in the present embodiment, the first position is a horizontal position, the second position is a vertical position, and the auxiliary supporting member 4 is a link structure. As shown in fig. 1, when the turnover working platform is in the horizontal first position, the auxiliary supporting component 4 is connected with the rotating component 2 and is in an extending state, so as to provide support for the clamp component 1 and further support the to-be-assembled component 8. Because the weight of the to-be-assembled part 8 is overlarge, the gravity of the to-be-assembled part generates larger moment on the clamp assembly 1 and the rotating assembly 2 in the horizontal direction, and if the to-be-assembled part is only connected with the base assembly 3 by the rotating assembly 2 to maintain balance, the shaking and the deviation are easy to occur due to uneven stress. The auxiliary supporting component 4 can enhance the overturning moment resistance of the overturning working platform, ensure the stability of the overturning working platform in the horizontal position, provide reliable working conditions for the subsequent assembly process and avoid assembly errors or safety accidents caused by the instability of the overturning working platform. When the tilting platform is in the second vertical position (not shown), the auxiliary support member 4 is folded away from the clamp assembly 1, and no support is provided to the clamp assembly 1. When the turnover working platform is turned to the second position, one end of the clamp assembly 1 can be in contact with the ground, and the ground provides support for the clamp assembly 1, so that the to-be-assembled part 8 is supported, and the stability of the turnover working platform in the vertical position is ensured. In other embodiments, the second position may be any position between a horizontal position and a vertical position, and may be adaptively selected according to actual assembly requirements, which is not specifically limited herein.

In this embodiment, as shown in fig. 3-6, the rotating assembly 2 includes a connecting plate 21 and a bearing seat 22 that are connected, the fixture assembly 1 is disposed on the connecting plate 21, the base assembly 3 includes a base 31, a first bracket 32 and a rotating shaft 33, the first bracket 32 extends along the Z-axis direction, one end of the first bracket 32 is connected with the base 31, the other end of the first bracket 32 is fixedly connected with the rotating shaft 33, the rotating shaft 33 extends along the Y-axis direction, and the rotating shaft 33 is disposed through the bearing seat 22 and is in running fit with the bearing seat 22. The first bracket 32 connects the base 31 and the rotating shaft 33, provides a stable supporting frame for the rotating assembly 2, ensures the structural stability of the rotating assembly, and ensures the smooth and unimpeded rotating process by the rotating fit of the rotating shaft 33 and the bearing seat 22, so that the whole rotating action can be performed stably.

Specifically, as shown in fig. 3 to 6, two bearing seats 22 are provided on the connection plate 21 at intervals along the Y direction, and are respectively connected with two ends of the rotation shaft 33, so as to improve the rotation stability. Meanwhile, both ends of the rotating shaft 33 are stepped for limiting the bearing 22. Further, the bearing seat 22 is a resistance bearing seat, when the rotating assembly 2 rotates from the first position to the second position, excessive rotation or shaking of the fitting 8 caused by excessive inertia is prevented by virtue of the characteristics, so that the whole rotation process is ensured to be smoother.

It should be noted that the resistance bearing seat belongs to the prior art category known in the art, so the specific structure thereof will not be described herein.

In this embodiment, as shown in fig. 3-6, the bearing seat 22 is provided with a first fixing hole 221 and a second fixing hole 222 along the axial direction, the base component 3 further includes a second bracket 34 and a locking piece 35, the second bracket 34 is connected with the base 31, the second bracket 34 is provided with a guiding channel 341, the locking piece 35 is slidably disposed in the guiding channel 341, when in a first position (horizontal position), the locking piece 35 can be inserted into the first fixing hole 221, when in a second position (vertical position), the locking piece 35 can be inserted into the second fixing hole 222, so that the rotating component 2 can be effectively locked in the horizontal and vertical positions, and the assembly stability and precision are improved.

Specifically, in this embodiment, the included angle between the first fixing hole 221 and the second fixing hole 222 is 90 °, and this angle setting is suitable for most common assembly scenarios, so that accurate locking at two positions, i.e., horizontal and vertical, can be achieved. Optionally, based on the special assembly position requirement of the to-be-assembled part 8, the included angle can be 30 degrees, 45 degrees, 60 degrees or 75 degrees, and the like, and the turnover working platform can be better adapted to diversified assembly tasks by flexibly adjusting the included angle, so that the universality and the adaptability of the equipment are improved.

In this embodiment, as shown in fig. 7, the turnover working platform further includes a first detection assembly 5, where the first detection assembly 5 includes a detection source 51 and a detection member 52, the detection source 51 is connected with the second bracket 34, the detection member 52 is connected with the locking member 35, and the detection member 52 can inductively cooperate with the detection source 51 to detect the plugging state of the locking member 35 and the bearing seat 22. In the assembly operation process, an operator can rapidly determine whether the rotating assembly 2 is reliably locked through a detection result, so that assembly position deviation or safety accidents caused by locking failure are avoided, and the accuracy and safety of the assembly operation are ensured.

Specifically, the type of detection source 51 is a photo-electronic sensor. In other alternative embodiments, the detection source 51 may also be a proximity sensor, which has high sensitivity and simple installation, or a hall sensor, which has high detection accuracy and strong anti-interference, or a micro switch, which has simple structure and low cost, and triggers a signal when locked in place. The detection source 51 can be flexibly selected according to the actual conditions, so that the assembly operation can be ensured to be smoothly carried out, and the stable operation of the equipment can be ensured.

In the present embodiment, as shown in fig. 5 and 6, the auxiliary supporting member 4 includes a first link 41 and a second link 42 rotatably connected about the Y axis, an end of the first link 41 away from the second link 42 is rotatably connected with the base member 3 about the Y axis, and an end of the second link 42 away from the first link 41 is rotatably connected with the rotating member 2 about the Y axis. When the turnover working platform rotates between the first position (horizontal position) and the second position (vertical position), the auxiliary supporting component 4 can be correspondingly folded or unfolded, so that stable and reliable support can be provided for the clamp component 1 in the horizontal position, the capability of the platform for resisting overturning moment is enhanced, the turnover working platform can be smoothly folded and folded in the vertical position, the phenomenon that the platform is blocked in rotation is avoided, the continuity and smoothness of the movement of the whole turnover working platform are ensured, and the normal operation of other components cannot be influenced due to the limitation of the structure of the turnover working platform.

Specifically, as shown in fig. 5 and 6, the auxiliary supporting component 4 further includes a first fixing base 44 and a second fixing base 45, the first fixing base 44 is connected with the base 31, the second fixing base 45 is connected with the connecting plate 21, one end of the first connecting piece 41 near the base component 3 is rotatably connected with the first fixing base 44 around the Y axis, and one end of the second connecting piece 42 near the rotating component 2 is rotatably connected with the second fixing base 45 around the Y axis. The first fixing base 44 provides a stable mounting base point for the first connecting member 41, and ensures the reliability and flexibility of the connection between the support assembly 4 and the base assembly 3. The second fixing seat 45 provides a stable installation base point for the second connecting piece 42, and ensures the reliability and flexibility of the connection between the support assembly 4 and the rotating assembly 2.

In this embodiment, as shown in fig. 5, the auxiliary supporting component 4 further includes an elastic member 43, one end of the elastic member 43 is connected to the first connecting member 41, and the other end of the elastic member 43 is connected to the base component 3. The elastic member 43 gradually recovers deformation due to its own elastic characteristic during rotation from the first position to the second position. In the process, the contraction force generated by the first connecting piece 41 acts on the first connecting piece 41 connected with the first connecting piece, so that the first connecting piece 41 drives the second connecting piece 42 to fold away from the rotating direction. The auxiliary supporting component 4 is prevented from interfering or colliding with the rotating component 2 when the rotating component rotates, the rotating component 2 can smoothly and unimpeded complete the rotation from the horizontal position to the vertical position, and the fluency and the safety of the state conversion process of the whole turnover working platform are ensured. Specifically, in the present embodiment, the elastic member 43 is a tension spring, which has a simple structure and low manufacturing cost.

Specifically, as shown in fig. 5, the auxiliary supporting component 4 further includes a third fixing base 46, where the third fixing base 46 is connected to the base 31 and is spaced from the first fixing base 44, and the third fixing base 46 provides a connection pivot for the elastic member 43.

In this embodiment, as shown in fig. 5 and 6, the base assembly 3 further includes a first stopper 36. The first limiting block 36 is connected to the base 31 in a direction away from the auxiliary supporting component 4, and is used for limiting the rotating component 2 from rotating to a horizontal position and then over rotating. When the rotating assembly 2 reaches the horizontal position, one end of the connecting plate 21 is supported by the auxiliary supporting assembly 4, and the other end of the connecting plate is supported by the first limiting block 36, so that the accurate positioning of the horizontal position is ensured, and the position deviation caused by excessive rotation is prevented. The material of the first stopper 36 near one end of the connecting plate 21 is polyurethane with buffering performance, and the polyurethane can effectively buffer the impact force generated by collision at the moment that the rotating assembly 2 rotates to the horizontal position and contacts with the first stopper 36. The damage risk to the structures of the connecting plate 21 and the first limiting block 36 is reduced, the service lives of the connecting plate and the first limiting block are prolonged, the influence on other related parts is reduced, and the running stability and reliability of the whole turnover working platform are further improved.

In this embodiment, as shown in fig. 2, the fixture assembly 1 includes a bottom plate 11, a first positioning member 12 and a first pressing member 13, where the first positioning member 12 and the first pressing member 13 are both disposed on the bottom plate 11, the first positioning member 12 is used to position the to-be-assembled component 8, limit planar translation thereof, ensure the assembly position to be precise, and the first pressing member 13 is used to press the to-be-assembled component 8 on the bottom plate 11, so as to prevent displacement and shaking phenomena during assembly and powerfully ensure stable and reliable assembly operation. As shown in fig. 2, two first positioning members 12 are disposed on the bottom plate 11 at intervals along a diagonal direction, and two first pressing members 13 are disposed on the bottom plate 11 at intervals along another diagonal direction, so that the connection firmness between the fixture assembly 1 and the fitting 8 to be assembled is enhanced, and a stable relative positional relationship can be maintained all the time in the assembly process.

Specifically, the first positioning element 12 may be a positioning round pin or a positioning diamond pin according to the shape of the fitting 8, and only the shape of the first positioning element 12 is required to be matched with the shape of the positioning hole of the fitting 8, and the shape of the first positioning element 12 is not specifically limited.

In particular, the first pressing member 13 is a clamp, the jaws of which can be suitably adjusted according to the shape and size of the fitting 8 to be assembled, ensuring a close fit, thus providing a reliable clamping effect.

Further, as shown in fig. 2, the bottom plate 11 is further provided with a support column 112 and a mounting column 113, where the support column 112 is used to support the to-be-assembled component 8, and in the assembly process, especially for some to-be-assembled components 8 with complex structures or special shapes, the support column 112 can provide additional support points, so that a suitable spatial relationship between the to-be-assembled component 8 and the bottom plate 11 is maintained, and deformation or displacement of the to-be-assembled component 8 due to self gravity or external force of assembly is prevented, so that the accuracy of the assembly position is further ensured. The mounting post 113 provides a stable mounting position for the first pressing member 13, so that the first pressing member 13 can be accurately mounted at a predetermined position, and the force applied by the first pressing member is ensured to be uniform and accurate when the first pressing member presses the fitting 8, so that the unstable mounting of the first pressing member 13 can be avoided, and the unstable pressing or uneven stress of the fitting 8 is avoided, thereby effectively improving the overall reliability and stability of the clamp assembly 1.

In addition, the clamp assembly 1 includes a handle 15 coupled to the base plate 11 that provides an operator with a point of force for handling, mounting and adjusting the clamp assembly 1, facilitating movement and fine adjustment. Meanwhile, when the rotating assembly 2 is switched in position, an operator can stably and accurately apply force through the handle 15, deviation clamping is reduced, the power-assisted assembly process is efficient and continuous, and quality and efficiency are improved.

In this embodiment, the rotating assembly 2 further includes a second positioning member 23, the fixture assembly 1 is disposed on one side of the connecting plate 21, the connecting plate 21 is provided with the second positioning member 23 on one side close to the fixture assembly 1, the fixture assembly 1 further includes a second pressing member 14, the bottom plate 11 is provided with a first positioning hole 111 matched with the second positioning member 23, and the second pressing member 14 penetrates through the bottom plate 11 to be in threaded connection with the connecting plate 21. The setting like this can realize the accurate location and the firm connection of rotating assembly 2 and anchor clamps subassembly 1, ensures the high-efficient steady operation of upset work platform in order to satisfy the assembly requirement. Wherein, the first positioning hole 111 is provided with a bushing and a bushing mounting plate, so as to reduce the abrasion with the second positioning piece 23 and prolong the service life. The second compresses tightly the junction of piece 14 and bottom plate 11 and is equipped with prevents moving back the piece, prevents to connect not hard up, guarantees upset work platform steady operation and assembly quality. In addition, the clamp assembly 1 and the rotating assembly 2 adopt a detachable connection mode, so that the clamp assembly 1 is convenient to replace, flexible adaptation installation can be carried out according to the to-be-assembled parts 8 of different models, the universality and the flexibility of the whole equipment are obviously improved, and the diversified assembly production requirements are met.

In this embodiment, the turnover working platform further includes a second detecting component 6, where the second detecting component 6 is connected with the rotating component 2 and is used to detect the code on the fixture component 1 to confirm the model of the fixture component 1. Because the clamp assembly 1 corresponds to the parts to be assembled 8 one by one, the parts to be assembled 8 are prevented from being mistakenly assembled by identifying the model of the clamp assembly 1, and the problems that the parts to be assembled 8 are wrong in use, and parts are assembled in a non-matching manner in the assembly process are avoided.

Specifically, as shown in fig. 1, the second detecting assembly 6 includes the first sensor 61 and the first mount 62 connected, the first mount 62 being connected with the connection plate 21, wherein the number of the first sensors 61 is set to four. The coding of the clamp assembly 1 is based on a physical structure (e.g. metal bumps or grooves) that the first sensor 61 can detect. The code takes the form of a binary number, representing a "1" when the first sensor 61 detects a metallic structure and a "0" when not detected. So four first sensors 61 can read a four-bit binary code, and then successfully identify the code of the fixture assembly 1, determine the model of the fixture assembly, and accordingly select the assembly procedure and assembly parts matched with the to-be-assembled part 8, thereby powerfully ensuring the accuracy and the efficiency of the assembly operation.

Specifically, the first sensor 61 is of the inductive type. In other alternative embodiments, other types of sensors, such as a photoelectric sensor or a capacitive sensor, may be used as the first sensor 61, where the type of the first sensor 61 is not specifically limited.

In this embodiment, as shown in fig. 5 and 6, the turnover working platform further includes a third detecting component 7, where the third detecting component 7 is connected with the base component 3 and is used for detecting the rotation angle of the rotating component 2 around the Y axis. The locking component 35 is prevented from being locked again when the rotating component 2 is not rotated in place after the locking component 35 is unlocked, so that the to-be-assembled part 8 can be guaranteed to accurately reach a preset assembly position, and the assembly accuracy and reliability are improved.

Specifically, as shown in fig. 5 and 6, the third detection assembly 7 includes a second sensor 71 and a second mount 72. The second mounting seat 72 is connected with the base 31, and the two second sensors 71 are arranged on the second mounting seat 72 around the rotating shaft 33 in a spacing ring manner to detect the rotation angle of the rotating assembly 2 around the Y axis.

Specifically, the second sensor 71 is of the inductive type. In other alternative embodiments, the second sensor 71 may be another type of sensor, for example, a photoelectric sensor or an electromagnetic sensor, and the type of the second sensor 71 is not specifically limited.

It is to be understood that the above examples of the present utility model are provided for clarity of illustration only and are not limiting of the embodiments of the present utility model. Various obvious changes, rearrangements and substitutions can be made by those skilled in the art without departing from the scope of the utility model. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (10)

1. A flipping work platform, characterized in that it comprises: a clamp assembly (1), a rotating assembly (2), a base assembly (3), and an auxiliary support assembly (4), wherein one side of the clamp assembly (1) is capable of fixing the part to be assembled (8), the other side of the clamp assembly (1) is connected to the rotating assembly (2), the rotating assembly (2) is rotatably disposed on the base assembly (3), and is capable of driving the clamp assembly (1) to rotate around the Y-axis between a first position and a second position, one end of the auxiliary support assembly (4) is connected to the rotating assembly (2), the other end of the auxiliary support assembly (4) is connected to the base assembly (3), and the auxiliary support assembly (4) is used to support the clamp assembly (1) when it is in the first position. 2. The flipping work platform according to claim 1, characterized in that the rotating component (2) includes a connecting plate (21) and a bearing seat (22) connected together, the clamping component (1) is disposed on the connecting plate (21), the base component (3) includes a base (31), a first bracket (32) and a rotating shaft (33), one end of the first bracket (32) is connected to the base (31), the other end of the first bracket (32) is fixedly connected to the rotating shaft (33), and the rotating shaft (33) passes through the bearing seat (22) and rotates in cooperation with the bearing seat (22). 3. The flipping work platform according to claim 2, characterized in that the bearing seat (22) is provided with a first fixing hole (221) and a second fixing hole (222) along the axial direction, the base assembly (3) further includes a second bracket (34) and a locking member (35), the second bracket (34) is connected to the base (31), and the second bracket (34) is provided with a guide channel (341), the locking member (35) is slidably disposed in the guide channel (341), in the first position, the locking member (35) can be inserted into the first fixing hole (221), and in the second position, the locking member (35) can be inserted into the second fixing hole (222). 4. The flipping work platform according to claim 3, characterized in that the flipping work platform further includes a first detection component (5), the first detection component (5) includes a detection source (51) and a detection element (52), the detection source (51) is connected to the second bracket (34), the detection element (52) is connected to the locking element (35), and the detection element (52) can cooperate with the detection source (51) to detect the insertion state of the locking element (35) and the bearing seat (22). 5. The flipping work platform according to claim 1, characterized in that the auxiliary support component (4) includes a first connector (41) and a second connector (42) rotatably connected around the Y-axis, the end of the first connector (41) away from the second connector (42) being rotatably connected to the base component (3) around the Y-axis, and the end of the second connector (42) away from the first connector (41) being rotatably connected to the rotating component (2) around the Y-axis. 6. The flipping work platform according to claim 5, wherein the auxiliary support component (4) further includes an elastic element (43), one end of the elastic element (43) is connected to the first connecting member (41), and the other end of the elastic element (43) is connected to the base component (3). 7. The flipping work platform according to claim 1, characterized in that the clamping assembly (1) includes a base plate (11), a first positioning member (12) and a first clamping member (13), the first positioning member (12) and the first clamping member (13) are both disposed on the base plate (11), the first positioning member (12) is used to position the part to be assembled (8), and the first clamping member (13) is used to clamp the part to be assembled (8) onto the base plate (11). 8. The flipping work platform according to claim 1, characterized in that the rotating component (2) includes a connecting plate (21) and a second positioning member (23), the clamping component (1) is disposed on one side of the connecting plate (21), the connecting plate (21) is provided with the second positioning member (23) on the side near the clamping component (1), the clamping component (1) includes a base plate (11) and a second clamping member (14), the base plate (11) is provided with a first positioning hole (111) that cooperates with the second positioning member (23), and the second clamping member (14) passes through the base plate (11) and is connected to the connecting plate (21). 9. The flipping work platform according to claim 1, characterized in that the flipping work platform further includes a second detection component (6), the second detection component (6) being connected to the rotating component (2), and the second detection component (6) being used to detect the code on the clamping component (1). 10. The flipping work platform according to claim 1, wherein the flipping work platform further comprises a third detection component (7), the third detection component (7) being connected to the base component (3) for detecting the rotation angle of the rotating component (2) around the Y-axis.