CN218710946U - Electrophoresis tool - Google Patents

Abstract

The utility model provides an electrophoresis frock, include: the electrophoresis slide device comprises an electrophoresis slide, a first slide mechanism, a second slide mechanism and a turning positioning mechanism, wherein the plurality of first slide mechanisms are detachably connected with the electrophoresis slide, and the first slide mechanisms are arranged in a sliding manner along the length direction of the electrophoresis slide; the plurality of second sliding mechanisms are detachably connected with the first sliding mechanisms and can be arranged in a sliding mode along the length direction of the first sliding mechanisms; and the second sliding mechanism is correspondingly provided with a turnover positioning mechanism which is used for placing the frame assembly. Adopt the electrophoresis frock of this application, putting into and hoisting of frame assembly are more convenient, and the inside swimming liquid of the skeleton of frame assembly can flow fast after the electrophoresis moreover, has reduced the degree of corrosion of steel pipe inner wall, also can make the film thickness of the electrophoresis of the skeleton surface of frame assembly reach evenly, accords with the technological standard requirement completely, has improved the skeleton quality of whole frame assembly.

Description

Electrophoresis tool

Technical Field

The utility model relates to an assembly technical field particularly, relates to an electrophoresis frock.

Background

Present electrophoresis frock is comparatively simple and easy, through directly keeping flat the frame assembly on electrophoresis skid framework, then adds to weld on the skid in the place of contact surface all around and fixes, and this kind of operation mode has following several shortcomings:

1. because the frame skeleton assembly adopts the form of keeping flat, can only place 2 at most, deposit quantity is less, if stack and to make the skeleton extrude each other and produce the deformation.

2. Because the frame skeleton assembly is horizontally arranged and has more contact surfaces with the electrophoresis skid, the electrophoresis cannot be performed on a plurality of positions on the surface of the skeleton, and the electrophoresis quality of the skeleton cannot meet the process requirement.

3. Because the frame skeleton assembly is horizontally arranged, the defects of liquid accumulation, air cavities and the like are easily formed in the skeleton cavity, and the electrophoresis liquid is not easy to flow out, thereby influencing the electrophoresis quality of the surface of the skeleton.

4. When the frame skeleton assembly is placed fixedly on the electrophoresis skid, a welding mode is adopted, after electrophoresis operation, plasma is used for cutting the fixed point, the fixing and dismounting mode is easy to damage the skeleton and the skid body, and the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides an electrophoresis frock to solve among the prior art skeleton electrophoresis quality and can not reach the problem of technological requirement.

In order to achieve the above object, according to one aspect of the present invention, there is provided an electrophoresis sled; the electrophoresis slide sled comprises a plurality of first slide mechanisms, a plurality of second slide mechanisms and a plurality of electrophoresis slide mechanisms, wherein the plurality of first slide mechanisms are detachably connected with the electrophoresis slide sled, and the first slide mechanisms are slidably arranged along the length direction of the electrophoresis slide sled; the plurality of second sliding mechanisms are detachably connected with the first sliding mechanism and are arranged in a sliding manner along the length direction of the first sliding mechanism; and the second sliding mechanism is correspondingly provided with a turnover positioning mechanism which is used for placing the frame assembly.

Further, the electrophoresis frock still includes: and the clamping mechanism is detachably connected with the second sliding mechanism, and the clamping mechanism is correspondingly provided with an overturning positioning mechanism.

Further, the first skid mechanism includes: the main cross beam is detachably connected with the electrophoresis skid and can be arranged in a sliding manner along the length direction of the electrophoresis skid; the short cross beam is arranged at the bottom of the main cross beam, and two ends of the short cross beam are respectively provided with a pressing plate, wherein the pressing plates are in lap joint with the short cross beam and are connected with the main cross beam; the supporting plate is arranged at the bottom of the pressing plate; the cushion block is arranged between the pressing plate and the supporting plate.

Further, the second skid mechanism includes: the clamping mechanism comprises a first stand column, a first end of the first stand column is provided with a first locking positioning structure, the first locking positioning structure is connected with the clamping mechanism, a second end of the first stand column is provided with a connecting structure, the connecting structure comprises a limiting groove, a part of main cross beam is located in the limiting groove, the first stand column is slidably arranged along the length direction of the main cross beam through the limiting groove, and the overturning positioning mechanism is arranged on the first stand column.

Further, the first locking and positioning structure comprises: the first positioning circular plate is arranged at the first end of the first upright post; the first shaft sleeve is arranged on the first positioning circular plate, and a first thread is arranged in the first shaft sleeve; the second end of the first locking positioning shaft is provided with a second thread matched with the first thread, the second end of the first locking positioning shaft is arranged in the first shaft sleeve, and the first locking positioning shaft is movably connected with the clamping mechanism; the first positioning ring is arranged between the first shaft sleeve and the first locking positioning shaft and provided with an inclined plane.

Further, the connection structure includes: the first pressing plate is arranged at the second end of the first upright post; the two plankers are arranged at the bottom of the first pressing plate, and a distance is reserved between the two plankers; the two first cushion blocks are arranged between the first pressing plate and the carriage, and a distance is reserved between the two first cushion blocks; and a limiting groove is formed by enclosing the first pressing plate, the carriage and the first cushion block.

Further, the clamping machine constructs including: the bottom of second stand is provided with two clamp splices, encloses between second stand and two clamp splices and establishes into the spacing space of first locking positioning shaft, is provided with upset positioning mechanism on the second stand.

Further, the clamping machine structure still includes: the locating pin, the locating pin sets up in the installation space who encloses between two clamp splices, and the locating pin is connected with first locking positioning shaft movably.

Furthermore, locating holes and square holes are formed in the two clamping blocks, an installation space is formed between the locating holes and the square holes in the two clamping blocks, the locating pin comprises a locating portion and a sliding portion, the locating portion is arranged on the hole wall of the locating holes, the sliding portion is arranged on the hole wall of the square holes, spring slot holes are further formed in the two clamping blocks and are located between the locating holes and the square holes, the spring slot holes are used for installing special-shaped springs, the special-shaped springs are arranged between the locating portion and the sliding portion, one end of the sliding portion is connected with the locating portion and the special-shaped springs, and the other end of the sliding portion is movably connected with the first locking locating shaft.

Further, the overturning positioning mechanism comprises: the fixing plate is arranged on the first upright post and the second upright post; the overturning positioning plate is movably connected with the fixing plate and is provided with a first clamping groove used for placing the frame assembly, the overturning positioning plate is provided with a fixing position for fixing the frame assembly, and the overturning positioning plate is provided with a separating position separated from the frame assembly; the overturning positioning block is provided with a second clamping groove, the overturning positioning plate is arranged on the groove wall of the second clamping groove when positioned at a fixed position, and the fixing plate is arranged on the groove wall of the second clamping groove when positioned at a separated position; the overturning positioning baffle is positioned below the overturning positioning block, a distance is reserved between the overturning positioning baffle and the overturning positioning block, when the overturning positioning plate is positioned at a fixed position, the first clamping groove is far away from the overturning positioning baffle, and when the overturning positioning plate is positioned at a separated position, the first clamping groove is arranged towards the overturning positioning baffle; when the overturning positioning plate is located at the fixed position, the length direction of the overturning positioning plate is parallel to the length direction of the fixed plate, and when the overturning positioning plate is located at the separated position, the length direction of the overturning positioning plate is perpendicular to the length direction of the fixed plate.

Use the technical scheme of the utility model, first coasting mechanism is connected with electrophoresis skid detachably, second coasting mechanism is connected with first coasting mechanism detachably, it is provided with upset positioning mechanism to correspond on the second coasting mechanism, upset positioning mechanism is used for placing the frame assembly, set up along the length direction slidable of electrophoresis skid through first coasting mechanism, second coasting mechanism sets up along the length direction slidable of first coasting mechanism, thereby can adjust the position between a plurality of first coasting mechanisms according to the length of frame assembly, adjust the position between a plurality of second coasting mechanisms according to the width of frame assembly, be applicable to various motorcycle types, use more extensively. By adopting the electrophoresis tool, the frame assembly is more convenient to put in and lift, and the electrophoretic liquid in the framework of the frame assembly can flow out quickly after electrophoresis, so that the corrosion degree of the inner wall of the steel pipe is reduced, the thickness of the electrophoretic paint film on the surface of the framework of the frame assembly can be uniform, the requirements of technological standards are completely met, the framework quality of the whole frame assembly is improved, and the problem that the framework electrophoresis quality cannot meet the technological requirements in the prior art is solved.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows a schematic structural view of a first embodiment of an electrophoresis tool according to the present invention;

fig. 2 shows a schematic structural diagram of a second embodiment of an electrophoresis tool according to the present invention;

fig. 3 shows a schematic structural diagram of a third embodiment of an electrophoresis tool according to the present invention;

fig. 4 shows a schematic structural diagram of a fourth embodiment of an electrophoresis tool according to the present invention;

fig. 5 shows a schematic structural view of a first embodiment of a first coasting mechanism according to the present invention;

fig. 6 shows a schematic structural view of a second embodiment of the first coasting mechanism according to the present invention;

fig. 7 shows a schematic structural view of a third embodiment of the first coasting mechanism according to the present invention;

figure 8 shows a schematic structural view of a first embodiment of a second skid according to the present invention;

fig. 9 shows a schematic structural view of a second embodiment of a second coasting mechanism according to the invention;

figure 10 shows a schematic structural view of a first embodiment of a clamping mechanism according to the invention;

figure 11 shows a schematic structural view of a second embodiment of a clamping mechanism according to the invention;

figure 12 shows a schematic structural view of a first embodiment of a second runner cooperating with a clamping mechanism according to the invention;

figure 13 shows a schematic structural view of a second embodiment of a second runner cooperating with a clamping mechanism according to the invention;

figure 14 shows a schematic structural view of a third embodiment of the second runner cooperating with the clamping mechanism according to the present invention;

figure 15 shows a schematic structural view of a fourth embodiment of the second runner cooperating with the clamping mechanism according to the invention;

fig. 16 shows a schematic structural view of a first embodiment of a roll-over positioning mechanism according to the present invention;

fig. 17 shows a schematic structural view of a second embodiment of the roll-over positioning mechanism according to the present invention;

fig. 18 shows a schematic structural view of a third embodiment of the roll-over positioning mechanism according to the present invention;

fig. 19 shows a schematic structural diagram of a fourth embodiment of the roll-over positioning mechanism according to the present invention.

Wherein the figures include the following reference numerals:

10. electrophoresis sledge;

20. a first skid mechanism; 21. a main cross beam; 22. a short cross beam; 23. pressing a plate; 24. a support plate; 25. cushion blocks;

30. a second skid mechanism; 31. a first upright post; 32. a first locking and positioning structure; 321. a first positioning circular plate; 322. a first bushing; 3221. a first thread; 323. a first locking positioning shaft; 3231. a second thread; 324. a first positioning ring; 3241. a bevel; 33. a first platen; 34. a carriage; 35. a first cushion block; 36. a limiting groove;

40. a clamping mechanism; 41. a second upright post; 42. a clamping block; 421. positioning holes; 422. a square hole; 423. a spring slot; 43. positioning pins; 431. a positioning part; 432. a sliding part; 44. a special-shaped spring; 45. a second positioning circular plate; 46. a second shaft sleeve; 47. a second positioning ring; 48. a second locking positioning shaft;

50. a turning positioning mechanism; 51. a fixing plate; 52. turning over the positioning plate; 521. a first card slot; 53. turning over the positioning block; 531. a second card slot; 54. turning over the positioning baffle;

60. a limiting space;

71. fixing the bolt; 72. locking the bolt; 73. fixing a nut; 74. locking the nut;

80. a frame assembly.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.

It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the terms so used are interchangeable under appropriate circumstances such that the embodiments of the application described herein are, for example, capable of operation in sequences other than those illustrated or otherwise described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

Exemplary embodiments according to the present application will now be described in more detail with reference to the accompanying drawings. These exemplary embodiments may, however, be embodied in many different forms and should not be construed as limited to only the embodiments set forth herein. It is to be understood that these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the concept of the exemplary embodiments to those skilled in the art, in the drawings, it is possible to enlarge the thicknesses of layers and regions for clarity, and the same devices are denoted by the same reference numerals, and thus the description thereof will be omitted.

Referring to fig. 1 to 19, according to an embodiment of the present application, an electrophoresis tool is provided.

Specifically, the electrophoresis tool comprises an electrophoresis skid 10, a first sliding mechanism 20, a second sliding mechanism 30 and a turnover positioning mechanism 50, wherein the number of the first sliding mechanisms 20 is multiple, the multiple first sliding mechanisms 20 are detachably connected with the electrophoresis skid 10, the first sliding mechanisms 20 are slidably arranged along the length direction of the electrophoresis skid 10, the number of the second sliding mechanisms 30 is multiple, the multiple second sliding mechanisms 30 are detachably connected with the first sliding mechanisms 20, the second sliding mechanisms 30 are slidably arranged along the length direction of the first sliding mechanisms 20, the turnover positioning mechanism 50 is correspondingly arranged on the second sliding mechanisms 30, and the turnover positioning mechanism 50 is used for placing the frame assembly 80.

By applying the technical scheme of the embodiment, the first skid mechanism 20 is detachably connected with the electrophoresis skid 10, the second skid mechanism 30 is detachably connected with the first skid mechanism 20, the second skid mechanism 30 is correspondingly provided with the overturning positioning mechanism 50, the overturning positioning mechanism 50 is used for placing the frame assembly 80, the frame assembly 80 can be slidably arranged along the length direction of the electrophoresis skid 10 through the first skid mechanism 20, and the second skid mechanism 30 can be slidably arranged along the length direction of the first skid mechanism 20, so that the positions between the plurality of first skid mechanisms 20 can be adjusted according to the length of the frame assembly 80, the positions between the plurality of second skid mechanisms 30 can be adjusted according to the width of the frame assembly, and the electrophoresis skid is suitable for various vehicle types and is widely applied. By adopting the electrophoresis tool with the structure, the frame assembly 80 is more convenient to put in and lift, and the electrophoresis liquid in the framework of the frame assembly 80 can flow out quickly after electrophoresis, so that the corrosion degree of the inner wall of the steel pipe is reduced, the electrophoresis paint film thickness on the framework surface of the frame assembly 80 can be uniform, the electrophoresis paint film completely meets the process standard requirement, the framework quality of the whole frame assembly 80 is improved, and the problem that the framework electrophoresis quality cannot meet the process requirement in the prior art is solved.

Further, the electrophoresis tool further comprises a clamping mechanism 40, the clamping mechanism 40 is detachably connected with the second sliding mechanism 30, and a turning positioning mechanism 50 is correspondingly arranged on the clamping mechanism 40. Through adopting clamping mechanism 40, the electrophoresis frock is fixed more swiftly with the dismantlement, and it is provided with upset positioning mechanism 50 to correspond on clamping mechanism 40 in addition, can keep flat the skeleton of frame assembly 80 on the electrophoresis frock to for hanging on upset positioning mechanism 50, thereby reduced the skeleton of frame assembly 80 and electrophoresis skid 10's contact surface, avoided the unable electrophoresis of many skeleton surfaces, skeleton electrophoresis quality can not reach the problem of technological requirement.

As shown in fig. 5 to 7, the first slide mechanism 20 includes a main beam 21, a short beam 22, a supporting plate 24, and a cushion block 25, the main beam 21 is detachably connected to the electrophoresis skid 10, the main beam 21 is slidably disposed along a length direction of the electrophoresis skid 10, the short beam 22 is disposed at a bottom of the main beam 21, and two ends of the short beam 22 are respectively provided with a pressing plate 23. Wherein, the pressing plate 23 is overlapped with the short beam 22, and the pressing plate 23 is connected with the main beam 21. The supporting plate 24 is arranged at the bottom of the pressing plate 23, and the cushion block 25 is arranged between the pressing plate 23 and the supporting plate 24. The locking bolts 72 between the pressing plates 23 at the two ends of the short cross beam 22, the two cushion blocks 25 and the two support plates 24 are loosened, so that the main cross beam 21 can slide and move until the main cross beam 21 can slide and move, the proper position of the main cross beam 21 is adjusted according to the length of the frame assembly 80, and finally the locking bolts 72 are locked to fix the positions of the main cross beams 21 on the plurality of first sliding mechanisms 20, so that the front and rear positions of the bottom of the electrophoresis tool are debugged. In the present embodiment, the number of the first skids 20 is four, and the main beam 21 and the short beam 22 are both i-shaped steel.

As shown in fig. 8, 9 and 12, the second slide mechanism 30 includes a first upright 31, and a first end of the first upright 31 is provided with a first locking and positioning structure 32. The first locking and positioning structure 32 is connected with the clamping mechanism 40, the second end of the first upright column 31 is provided with a connecting structure, the connecting structure comprises a limiting groove 36, part of the main cross beam 21 is positioned in the limiting groove 36, the first upright column 31 is slidably arranged along the length direction of the main cross beam 21 through the limiting groove 36, and the first upright column 31 is provided with a turnover positioning mechanism 50. Wherein the flipping positioning mechanism 50 is welded to the first upright 31. This arrangement allows the position of the second plurality of skids 30 on first skid 20 to be adjusted so that the second plurality of skids 30 can be adjusted to the appropriate position depending on the width of frame assembly 80. In the present embodiment, the number of the second skids 30 is four.

Further, first locking location structure 32 includes first location plectane 321, first axle sleeve 322, first locking location axle 323 and first location ring 324, first location plectane 321 sets up in the first end of first stand 31, first axle sleeve 322 sets up on first location plectane 321, be provided with first screw thread 3221 in the first axle sleeve 322, the second end of first locking location axle 323 is provided with the second screw thread 3231 with first screw thread 3221 matched with, the second end of first locking location axle 323 sets up in first axle sleeve 322, and first locking location axle 323 and clamping mechanism 40 movably are connected, first location ring 324 sets up between first axle sleeve 322 and first locking location axle 323, first location ring 324 is provided with inclined plane 3241. In this embodiment, the first bushing 322 is welded to the first positioning circular plate 321, and the first positioning circular plate 321 is welded to the top of the first upright column 31. Since the second end of the first locking and positioning shaft 323 is provided with the second thread 3231 matching with the first thread 3221, the second end of the first locking and positioning shaft 323 can be locked in the first sleeve 322. The first positioning ring 324 is movably disposed up and down.

Further, the connecting structure includes a first pressing plate 33, two plankers 34 and a first cushion block 35, the first pressing plate 33 is disposed at the second end of the first upright column 31, the two plankers 34 are disposed at the bottom of the first pressing plate 33, a distance is provided between the two plankers 34, the number of the first cushion blocks 35 is two, the two first cushion blocks 35 are disposed between the first pressing plate 33 and the plankers 34, and a distance is provided between the two first cushion blocks 35. A limiting groove 36 is formed among the first pressing plate 33, the carriage 34 and the first cushion block 35. In this embodiment, the first presser plate 33 is welded to the bottom of the first upright 31. The adjustment of the plurality of second runners 30 to the appropriate position according to the width of the carriage assembly 80 is further achieved by loosening the locking bolts 72 between the first pressure plate 33, the first spacer 35 and the carriage 34 to slide and adjust the first upright 31 to the appropriate position, and then locking the locking bolts 72.

As shown in fig. 10 to 12, the clamping mechanism 40 includes a second upright 41, two clamping blocks 42 are disposed at the bottom of the second upright 41, a limiting space 60 of the first locking positioning shaft 323 is defined between the second upright 41 and the two clamping blocks 42, and the turning positioning mechanism 50 is disposed on the second upright 41. Wherein the turning positioning mechanism 50 is welded to the second upright 41. The arrangement makes the connection between the clamping mechanism 40 and the second sliding mechanism 30 and the overturning positioning mechanism 50 more reliable.

Further, the clamping mechanism 40 further includes a positioning pin 43, the positioning pin 43 is disposed in the installation space enclosed between the two clamping blocks 42, and the positioning pin 43 is movably connected with the first locking positioning shaft 323. The clamping mechanism 40 and the second sliding mechanism 30 are quickly assembled and disassembled by matching the positioning pin 43 with the first locking positioning shaft 323, so that the production efficiency is improved.

Furthermore, positioning holes 421 and square holes 422 are formed in the two clamping blocks 42, an installation space is defined between the positioning holes 421 and the square holes 422 of the two clamping blocks 42, the positioning pin 43 includes a positioning portion 431 and a sliding portion 432, the positioning portion 431 is disposed on a hole wall of the positioning hole 421, the sliding portion 432 is disposed on a hole wall of the square hole 422, a spring slot 423 is further formed in the two clamping blocks 42, the spring slot 423 is located between the positioning hole 421 and the square hole 422, the spring slot 423 is used for installing the special-shaped spring 44, the special-shaped spring 44 is disposed between the positioning portion 431 and the sliding portion 432, one end of the sliding portion 432 is connected with the positioning portion 431 and the special-shaped spring 44, and the other end of the sliding portion 432 is movably connected with the first locking positioning shaft 323. In the present embodiment, the sliding portion 432 of the positioning pin 43 is slidably disposed in the clamping block 42, when the clamping mechanism 40 and the second runner 30 are in the assembled state, the sliding portion 432 of the positioning pin 43 is connected to the first locking positioning shaft 323, at this time, a part of the sliding portion 432 is located in the limiting space 60, the limiting space 60 is narrowed, and the positioning pin 43 generates a pressing force on the first locking positioning shaft 323, thereby fixing the first locking positioning shaft 323 in the limiting space 60 (as shown in fig. 12). When the clamping mechanism 40 needs to be detached from the second sliding mechanism 30, the upper portion of the clamping mechanism 40 is first pressed downward to press the sliding portion 432 to the lower inclined surface of the first positioning ring 324 (as shown in fig. 13), and then the clamping mechanism 40 is pulled upward. When the positioning part is pulled up, the first positioning ring 324 moves up and down in the limiting space 60, so that the sliding part 432 retracts (as shown in fig. 14), and the positioning part 431 and the shaped spring 44 are driven to retract. When the sliding portion 432 is retracted to be no longer located in the limiting space 60, the limiting space 60 is at a maximum, so that the clamping mechanism 40 is separated from the second sliding mechanism 30, and the clamping mechanism 40 is completely detached from the second sliding mechanism 30 (as shown in fig. 15). The electrophoresis tool is further fixed and detached more quickly by the arrangement, and the production efficiency is improved.

Further, the flipping positioning mechanism 50 includes a fixing plate 51, a flipping positioning plate 52, a flipping positioning block 53, and a flipping positioning baffle 54. The fixed plate 51 is disposed on the first upright 31 and the second upright 41, and the positioning plate 52 is movably connected to the fixed plate 51. The roll-over positioning plate 52 has a first engaging groove 521, the first engaging groove 521 is used for accommodating the frame assembly 80, the roll-over positioning plate 52 has a fixing position for fixing the frame assembly 80, and the roll-over positioning plate 52 has a separating position separated from the frame assembly 80. The positioning block 53 has a second engaging groove 531, when the positioning block 52 is at the fixed position, the positioning block 52 is disposed on a wall of the second engaging groove 531, and when the positioning block 52 is at the separated position, the fixing plate 51 is disposed on a wall of the second engaging groove 531. The turnover positioning baffle 54 is located below the turnover positioning block 53, a distance is provided between the turnover positioning baffle 54 and the turnover positioning block 53, when the turnover positioning plate 52 is located at a fixed position, the first engaging groove 521 is located far away from the turnover positioning baffle 54, and when the turnover positioning plate 52 is located at a separated position, the first engaging groove 521 is located toward the turnover positioning baffle 54. When the positioning plate 52 is at the fixed position, the length direction of the positioning plate 52 is parallel to the length direction of the fixed plate 51, and when the positioning plate 52 is at the separated position, the length direction of the positioning plate 52 is perpendicular to the length direction of the fixed plate 51. The arrangement is not only easy to fix the frame assembly 80 in the first clamping groove 521 of the turnover positioning plate 52, but also easy to separate the frame assembly 80 from the turnover positioning plate 52, and the positioning function of the turnover positioning block 53 and the turnover positioning baffle 54 is not affected when the frame assembly 80 is lifted, so that the reliability of the turnover positioning mechanism 50 is improved. As shown in fig. 16 and 18, the inversion positioning plate 52 is located at the fixed position, and as shown in fig. 19, the inversion positioning plate 52 is located at the separated position.

The application of electrophoresis frock as follows:

1. firstly, the locking bolts 72 among the pressure plate 23, the cushion block 25 and the supporting plate 24 of the first sliding mechanism 20 are loosened to enable the main cross beam 21 to slide and move, then the proper position of the main cross beam 21 is adjusted according to the front-back length of the frame assembly 80, finally the locking bolts 72 are locked to fix the positions of the main cross beams 21 of the four first sliding mechanisms 20, and the front-back position debugging of the bottom is completed.

2. And loosening the locking bolt 72 among the first pressure plate 33, the first cushion block 35 and the carriage 34 of the second slide mechanism 30, adjusting the first upright post 31 to a proper position left and right, and locking the locking bolt 72 by using the locking nut 74. Then the bolts and nuts of the turning positioning mechanism 50 on the second sliding mechanism 30 are loosened, the turning positioning plate 52 is turned into the second clamping groove 531 of the turning positioning block 53, the bolts and nuts are locked, so that the turning positioning mechanism 50 is in a use state, the frame assemblies 80 are sequentially placed on the turning positioning plate 52, and the first layer of frame assemblies 80 are installed and fixed.

3. When the clamping mechanism 40 is quickly inserted into the first locking and positioning shaft 323, the sliding portion 432 of the positioning pin 43 is connected with the first locking and positioning shaft 323, a part of the sliding portion 432 is located in the limiting space 60, and the positioning pin 43 presses the first locking and positioning shaft 323, the clamping mechanism 40 and the second sliding mechanism 30 reach a fixed state, and at this time, the clamping mechanism 40 is fixed by the locking bolt 72, the locking nut 74, the fixing bolt 71 and the fixing nut 73 as shown in fig. 12, so that the clamping mechanism 40 is completely fixed on the second sliding mechanism 30. And sequentially loading 2-8 clamping mechanisms 40, sequentially placing the overturning positioning mechanism 50, placing the frame assembly 80, and completing the installation of the second layer of frame assembly 80. The assembly and disassembly of the plurality of clamping mechanisms 40 are consistent with the assembly and disassembly of the clamping mechanisms 40 and the second sliding mechanisms. As shown in fig. 10, a second positioning circular plate 45 is welded to the top of the second column 41, a second shaft sleeve 46 is welded to the second positioning circular plate 45, the bottom of a second locking positioning shaft 48 is inserted into the second shaft sleeve 46, and a second positioning circular ring 47 is arranged between the second shaft sleeve 46 and the second locking positioning shaft 48. The second upright column 41 and the first upright column, the second positioning circular plate 45 and the first positioning circular plate 321, the second shaft sleeve 46 and the first shaft sleeve 322, the second positioning circular ring 47 and the first positioning circular ring 324, and the second locking positioning shaft 48 and the first locking positioning shaft 323 are all arranged in the same way.

4. And quickly inserting the third layer clamping mechanism 40 into the second locking positioning shaft 48 of the lower layer clamping mechanism 40 and adjusting the overturning positioning mechanism 50, and then putting the third layer clamping mechanism into the frame assembly 80, so that the third layer frame assembly 80 is installed. The structure of the third layer frame assembly 80 after installation is schematically shown in fig. 4.

5. The whole frame assembly 80 is mounted on the electrophoresis tool, after electrophoresis is completed, the third layer of frame assembly 80 is firstly hung out, the overturning positioning plate 52 of the overturning positioning mechanism 50 is overturned to the upper surface of the overturning positioning baffle plate 54, then the locking bolt 72, the locking nut 74, the fixing bolt 71 and the fixing nut 73 of the clamping mechanism 40 are loosened, the clamping mechanism 40 is pressed down forcibly, the positioning pin 43 slides to the lower inclined surface of the second positioning ring 47 which can move up and down, and then the clamping mechanism 40 is pulled up quickly and separated from the lower layer of clamping mechanism 40. And sequentially completing the whole disassembly of the third layer.

6. After the second tier frame assembly is sequentially lifted, the roll-over retainer 52 is returned to the roll-over retainer 54. The clamping mechanism 40 and the second sliding mechanism 30 are disassembled in the same sequence as the above, the clamping mechanism 40 can be quickly separated from the second sliding mechanism 30 through the matching of the positioning pin 43 and the first locking positioning shaft 323, the task of the second layer is completed, the first layer is completed by analogy, and the whole implementation process is completed.

Adopt the electrophoresis frock of this application, the quantity of clamping mechanism 40 sets up according to the actual demand, the electrophoresis frock of the skeleton of having solved former frame assembly deposits the problem of small in quantity (2 at most), and make frame assembly 80's skeleton can keep flat on the electrophoresis frock, owing to adopt clamping mechanism 40, production efficiency promotes more than 3 times, utilize upset positioning mechanism 50 to hang frame assembly 80 simultaneously and carry out the mode of electrophoresis, the surface electrophoresis quality of frame assembly 80 has been promoted greatly, and use this electrophoresis frock, need not to weld and cutting operation when fixing with dismantling, the problem of damaging the skeleton of electrophoresis skid 10 and frame assembly 80 has been avoided.

For ease of description, spatially relative terms such as "over 8230 \ 8230;,"' over 8230;, \8230; upper surface "," above ", etc. may be used herein to describe the spatial relationship of one device or feature to another device or feature as shown in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary terms "at 8230; \8230; 'above" may include both orientations "at 8230; \8230;' above 8230; 'at 8230;' below 8230;" above ". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

In addition to the foregoing, it should be noted that reference throughout this specification to "one embodiment," "another embodiment," "an embodiment," or the like, means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment described generally throughout this application. The appearances of the same phrase in various places in the specification are not necessarily all referring to the same embodiment. Further, when a particular feature, structure, or characteristic is described in connection with any embodiment, it is submitted that it is within the scope of the invention to effect such feature, structure, or characteristic in connection with other embodiments.

In the foregoing embodiments, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides an electrophoresis frock which characterized in that includes:

an electrophoresis sled (10);

the electrophoresis slide sled (10) is detachably connected with the first sliding mechanism (20), and the first sliding mechanism (20) is arranged in a sliding manner along the length direction of the electrophoresis slide sled (10);

a plurality of second skids (30), wherein the plurality of second skids (30) are detachably connected with the first skids (20), and the second skids (30) are slidably arranged along the length direction of the first skids (20);

the overturning and positioning mechanism (50) is correspondingly arranged on the second sliding mechanism (30), and the overturning and positioning mechanism (50) is used for placing the frame assembly (80).

2. The electrophoresis tool of claim 1, further comprising:

the clamping mechanism (40) is detachably connected with the second sliding mechanism (30), and the overturning positioning mechanism (50) is correspondingly arranged on the clamping mechanism (40).

3. Electrophoresis apparatus according to claim 2 wherein the first slide mechanism (20) comprises:

the main beam (21) is detachably connected with the electrophoresis skid (10), and the main beam (21) is slidably arranged along the length direction of the electrophoresis skid (10);

the short beam (22) is arranged at the bottom of the main beam (21), two pressing plates (23) are respectively arranged at two ends of the short beam (22), the pressing plates (23) are overlapped with the short beam (22), and the pressing plates (23) are connected with the main beam (21);

the supporting plate (24), the supporting plate (24) is arranged at the bottom of the pressing plate (23);

a spacer block (25), the spacer block (25) being disposed between the platen (23) and the pallet (24).

4. Electrophoresis apparatus according to claim 3 wherein the second runner mechanism (30) comprises:

first stand (31), the first end of first stand (31) is provided with first locking location structure (32), first locking location structure (32) with clamping mechanism (40) are connected, the second end of first stand (31) is provided with connection structure, connection structure includes spacing groove (36), and is partial main beam (21) is located in spacing groove (36), first stand (31) pass through spacing groove (36) are followed the length direction slidable ground of main beam (21) sets up, be provided with on first stand (31) upset positioning mechanism (50).

5. Electrophoresis tooling according to claim 4 wherein the first locking and positioning structure (32) comprises:

a first positioning circular plate (321), wherein the first positioning circular plate (321) is arranged at a first end of the first upright post (31);

the first shaft sleeve (322) is arranged on the first positioning circular plate (321), and a first thread (3221) is arranged in the first shaft sleeve (322);

a first locking and positioning shaft (323), a second thread (3231) matched with the first thread (3221) is arranged at a second end of the first locking and positioning shaft (323), the second end of the first locking and positioning shaft (323) is arranged in the first shaft sleeve (322), and the first locking and positioning shaft (323) is movably connected with the clamping mechanism (40);

first location ring (324), first location ring (324) set up in first axle sleeve (322) with between first locking location axle (323), first location ring (324) are provided with inclined plane (3241).

6. Electrophoresis tool according to claim 4 wherein the connection structure comprises:

a first pressure plate (33), wherein the first pressure plate (33) is arranged at the second end of the first upright post (31);

the number of the plankers (34) is two, the two plankers (34) are arranged at the bottom of the first pressing plate (33), and a distance is reserved between the two plankers (34);

the number of the first cushion blocks (35) is two, the two first cushion blocks (35) are arranged between the first pressing plate (33) and the carriage (34), and a distance is reserved between the two first cushion blocks (35);

the limiting groove (36) is formed by enclosing the first pressing plate (33), the carriage (34) and the first cushion block (35).

7. Electrophoresis tool according to claim 5 wherein the clamping mechanism (40) comprises:

the bottom of the second upright column (41) is provided with two clamping blocks (42), a limiting space (60) of the first locking positioning shaft (323) is enclosed between the second upright column (41) and the two clamping blocks (42), and the overturning positioning mechanism (50) is arranged on the second upright column (41).

8. Electrophoresis tool according to claim 7 wherein the clamping mechanism (40) further comprises:

the positioning pin (43) is arranged in an installation space enclosed between the two clamping blocks (42), and the positioning pin (43) is movably connected with the first locking positioning shaft (323).

9. Electrophoresis tool in accordance with claim 8 wherein,

the two clamping blocks (42) are respectively provided with a positioning hole (421) and a square hole (422), the positioning holes (421) and the square holes (422) on the two clamping blocks (42) form an installation space, the positioning pin (43) comprises a positioning part (431) and a sliding part (432), the positioning part (431) is arranged on the hole wall of the positioning hole (421), the sliding part (432) is arranged on the hole wall of the square hole (422), the two clamping blocks (42) are also provided with spring groove holes (423), the spring groove holes (423) are located between the positioning hole (421) and the square hole (422), the spring groove holes (423) are used for installing a special-shaped spring (44), the special-shaped spring (44) is arranged between the positioning part (431) and the sliding part (432), one end of the sliding part (432) is connected with the positioning part (431) and the special-shaped spring (44), and the other end of the sliding part (432) is movably connected with the first locking positioning shaft (323).

10. Electrophoresis apparatus according to claim 7 wherein the flipping positioning mechanism (50) comprises:

a fixed plate (51), the fixed plate (51) being disposed on the first upright (31) and the second upright (41);

the overturning positioning plate (52), the overturning positioning plate (52) is movably connected with the fixing plate (51), the overturning positioning plate (52) is provided with a first clamping groove (521), the first clamping groove (521) is used for placing the frame assembly (80), the overturning positioning plate (52) is provided with a fixing position for fixing the frame assembly (80), and the overturning positioning plate (52) is provided with a separating position separated from the frame assembly (80);

the overturning positioning block (53) is provided with a second clamping groove (531), when the overturning positioning plate (52) is located at the fixed position, the overturning positioning plate (52) is arranged on the groove wall of the second clamping groove (531), and when the overturning positioning plate (52) is located at the separated position, the fixing plate (51) is arranged on the groove wall of the second clamping groove (531);

the overturning positioning baffle plate (54) is positioned below the overturning positioning block (53), a distance is reserved between the overturning positioning baffle plate (54) and the overturning positioning block (53), when the overturning positioning plate (52) is positioned at the fixed position, the first clamping groove (521) is far away from the overturning positioning baffle plate (54), and when the overturning positioning plate (52) is positioned at the separated position, the first clamping groove (521) is arranged towards the overturning positioning baffle plate (54);

when the overturning positioning plate (52) is located at the fixed position, the length direction of the overturning positioning plate (52) is parallel to the length direction of the fixed plate (51), and when the overturning positioning plate (52) is located at the separated position, the length direction of the overturning positioning plate (52) is perpendicular to the length direction of the fixed plate (51).

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