A multi-specification special-shaped part auxiliary arrangement device

By using a multi-specification irregular-shaped parts auxiliary arrangement device, and utilizing adjustable slots and crossbar slot assemblies, the automated boxing of irregular-shaped parts is achieved, solving the problems of contamination and damage during the boxing process, reducing costs and improving efficiency.

CN224491650UActive Publication Date: 2026-07-14SUZHOU BRO BIOLOGICAL CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SUZHOU BRO BIOLOGICAL CO LTD
Filing Date
2025-08-01
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

In existing technologies, the boxing process for irregularly shaped parts is prone to contamination and damage, and automated equipment suffers from problems such as large size, high customization costs, and low efficiency, making it difficult to adapt to the boxing needs of irregularly shaped parts of various specifications.

Method used

A multi-specification irregular part auxiliary arrangement device was designed. By cooperating with the adjustable spacing slot assembly and the crossbar slot assembly, it can adapt to crossbars and adjustable spacing assemblies of different specifications, realize the automatic arrangement and boxing of irregular parts, avoid manual contact, and improve stability and efficiency by using a screening chamber and a guide plate.

Benefits of technology

It enables automated, contactless boxing of irregularly shaped parts, reducing production costs and labor intensity, improving the stability and efficiency of boxing, and adapting to the needs of various specifications of irregularly shaped parts.

✦ Generated by Eureka AI based on patent content.

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Patent Text Reader

Abstract

The utility model discloses a kind of multi-specification special-shaped parts auxiliary arrangement devices, including arrangement box, the side of arrangement box is provided with distance adjusting assembly, the one end of arrangement box is provided with crossbar assembly, the bottom of arrangement box is provided with storage box, the inside of storage box is provided with the storage cavity that is adapted with arrangement cavity. In the utility model, first, insert the separate crossbar into crossbar slot, then pour the special-shaped part into the inside of arrangement box, shake and arrange, after arranging, insert the distance adjusting rod into distance adjusting slot to adjust the distance of the arranged special-shaped part, so that it does not interfere with each other, and the special-shaped part after distance adjusting corresponds with the storage cavity of storage box, finally, separate crossbar and distance adjusting rod are extracted, the special-shaped part can drop into storage cavity by gravity to pack, without experimental personnel touching the special-shaped part by hand, wherein crossbar and distance adjusting rod can be selected already commercialized metal rod, without additional processing or customization, greatly reduce production cost.
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Description

Technical Field

[0001] This utility model relates to the fields of biomedicine and industrial automation technology, and in particular to an auxiliary arrangement device for multi-specification irregular-shaped parts. Background Technology

[0002] In large-scale industrial automated production and biomedical research, manually arranging and boxing bulk, irregularly shaped parts such as screws, pins, and pipette tips for easy access and product protection is a common task. However, due to different application requirements, most of the same type of irregularly shaped parts come in many different sizes, such as screws, pins, and pipette tips of various sizes. Boxing different sizes requires different production sites, equipment, or customized production lines. Adjusting the site and purchasing multiple machines results in significant costs and waste.

[0003] Currently, the arrangement and boxing of various bulk irregularly shaped parts is usually done manually. However, during the boxing process, hands are prone to touching the irregularly shaped parts, which can lead to contamination or damage. In addition, large-scale boxing can result in excessive labor intensity. Some automation companies have designed similar equipment that combines vibratory feeders with grippers for automatic arrangement and boxing of irregularly shaped parts. However, this equipment has problems such as large size, high customization costs, and low efficiency compared to manual labor, which limits the widespread application of this technology.

[0004] Therefore, there is an urgent need for an arrangement device to arrange multiple specifications of the same type of irregularly shaped parts. This arrangement device should be able to adjust according to the different specifications of the irregularly shaped parts in order to adapt to different specifications of irregularly shaped parts. At the same time, the arrangement device can automatically arrange and box multiple specifications of irregularly shaped parts by manually shaking the arrangement device to vibrate the irregularly shaped parts. It can realize the function of arranging without touching the irregularly shaped parts during the operation. It has the characteristics of small size, low cost, simple operation and low energy consumption. Utility Model Content

[0005] To meet the above requirements, this utility model provides an auxiliary arrangement device for multi-specification irregular-shaped parts, so as to solve the problems mentioned in the background art.

[0006] To solve the above-mentioned technical problems, this utility model achieves this through the following technical solution: a multi-specification irregular-shaped component auxiliary arrangement device, including an arrangement box, a screening chamber through which the arrangement box is formed, adjustable spacing slot assemblies on both sides of the arrangement box, and crossbar slot assemblies at both ends of the arrangement box; an adjustable spacing assembly is detachably provided on one side of the arrangement box via the adjustable spacing slot assembly, and a crossbar assembly is detachably provided at one end of the arrangement box via the crossbar slot assembly; a storage box is provided at the bottom of the arrangement box at the intersection of the crossbar assembly and the adjustable spacing assembly; the crossbar assembly... The component includes a crossbar connecting seat, inside which a row of crossbars is detachably arranged. Multiple row of crossbars are spaced apart along the length of the crossbar connecting seat, forming a row cavity between every two row of crossbars. The adjusting assembly includes an adjusting rod connecting seat, inside which an adjusting rod is arranged. Multiple adjusting rods are spaced apart along the length of the adjusting rod connecting seat, forming an adjusting cavity between every two adjusting rods. Multiple arrangement cavities are formed at the intersections of the multiple row cavities and the multiple adjusting cavities. The storage box has storage cavities inside that are adapted to the arrangement cavities.

[0007] Furthermore, the adjustable spacing slot assembly includes adjustable spacing slots located on both sides of the arrangement box. Each of the two adjustable spacing slots has a partition plate inside, and each partition plate divides each adjustable spacing slot into four. Large adjustable spacing holes are opened through the interior of the two top adjustable spacing slots, and medium and small adjustable spacing holes are opened through the top and bottom of the two bottom adjustable spacing slots, respectively.

[0008] Furthermore, the crossbar slot assembly includes a large-sized socket, a medium-sized socket, and a small-sized socket that are sequentially opened through both ends of the arrangement box from top to bottom. The large-sized socket, the medium-sized socket, and the small-sized socket are all spaced apart along the width direction of the arrangement box. A partition block is fixedly installed on the inner wall of the arrangement box between every two adjacent large-sized sockets, and a guide groove is formed between two partition blocks to guide the crossbars.

[0009] Furthermore, both the large-sized and medium-sized sockets are circular, the small-sized socket is rectangular, and the diameter of the medium-sized socket is smaller than that of the large-sized socket.

[0010] Furthermore, the crossbar connecting seat is composed of two crossbar connecting plates, and an installation cavity for installing the row of crossbars is opened between the two crossbar connecting plates. Multiple installation cavities are arranged at intervals along the length direction of the crossbar connecting plates. The inner wall of the crossbar connecting plate and on both sides of the installation cavity are provided with connecting cavities adapted to the row of crossbars. One end of the row of crossbars is fixedly installed with a mounting seat adapted to the installation cavity.

[0011] Furthermore, the crossbars include large-size crossbars, medium-size crossbars, and small-size crossbars. The crossbar connecting seat has an internal mounting groove for installing the large-size crossbars, medium-size crossbars, and small-size crossbars. Both ends of one side of the crossbar connecting seat are fixedly mounted with fixing plates, and a connecting rod for fixing one end of the small-size crossbar is horizontally fixed between the two fixing plates.

[0012] Furthermore, a flow guide plate is provided between the storage box and the arrangement box. The flow guide plate consists of a connecting part and a base, and the connecting part has a flow guide cavity that is adapted to the arrangement cavity.

[0013] Furthermore, the adjusting rod connecting seat includes adjusting rod mounting plates, and two adjusting rod mounting plates are provided. Protrusions are fixedly installed on the upper and lower surfaces of the two adjusting rod mounting plates. Multiple protrusions on each side are arranged alternately from front to back along the length direction of the corresponding adjusting rod mounting plate, and an adjusting rod mounting groove is formed between each two adjacent protrusions.

[0014] Furthermore, baffles are fixedly installed at the center of the inner walls on both sides of the arrangement box, and baffle holes are opened on the surface of the arrangement box and at the top of the adjustment slot assembly. Multiple baffle holes are opened at intervals along the length of the arrangement box.

[0015] Furthermore, the irregularly shaped part includes a thicker end and a thinner end, the thinner end being located at the bottom of the thicker end, and the diameter of the top of the thinner end being smaller than the diameter of the bottom of the thicker end.

[0016] The beneficial technical effects of this utility model are:

[0017] 1. This multi-specification irregular part auxiliary arrangement device, through the cooperation of the adjustable spacing slot assembly and the crossbar slot assembly, enables the device to adapt to crossbar assemblies and adjustable spacing assemblies of different specifications, so that the arrangement box is compatible with large, medium and small irregular parts for arrangement and boxing. Through the symmetrical design, the device can also be stacked for arrangement and boxing, which has the effect of small size and saving materials and production costs.

[0018] 2. This multi-specification irregular-shaped part auxiliary arrangement device can use multiple horizontal bars and multiple adjusting rods to work together to ensure that each column and each row of irregular-shaped parts is neatly arranged according to their different specifications. The experimenter can first insert the horizontal bars into the horizontal bar slots, then pour the irregular-shaped parts into the arrangement box and shake them to arrange them. After they are arranged, the adjusting rods are inserted into the adjusting slots to adjust the spacing of the arranged irregular-shaped parts so that they do not interfere with each other and correspond to the storage cavity of the storage box. Finally, the horizontal bars and adjusting rods are pulled out, and the irregular-shaped parts fall into the storage cavity by gravity for boxing. The experimenter does not need to touch the irregular-shaped parts by hand. The horizontal bars and adjusting rods can be made of commercially available metal rods, without the need for additional processing or customization, which greatly reduces production costs.

[0019] 3. The auxiliary arrangement device for multi-specification irregular parts has a screening chamber inside the arrangement box that is through-hole, which makes it easy to assemble the storage box inside the screening chamber for positioning. The baffle can limit the storage box, making it easy to install and unload the irregular part storage box.

[0020] 4. This multi-specification irregular part auxiliary arrangement device, by setting a guide plate, when the guide plate is assembled on the storage box with interference fit, the guide cavity and the storage cavity correspond, the guide plate can play a guiding function, so that the irregular parts first pass through the guide cavity and then slide into the storage cavity for boxing, which can greatly reduce the probability of irregular parts failing to be boxed. Attached Figure Description

[0021] Figure 1 This is a three-dimensional structural schematic diagram of the present invention;

[0022] Figure 2 This is a three-dimensional structural diagram of the guide plate and storage box in this utility model;

[0023] Figure 3 This is a three-dimensional schematic diagram of the arrangement box structure in this utility model;

[0024] Figure 4 This is a side view of the structure of the adjusting groove and the partition plate in this utility model;

[0025] Figure 5 This is a three-dimensional structural diagram of the crossbar connecting plate and the row of crossbars in this utility model;

[0026] Figure 6 This is a three-dimensional schematic diagram of the mounting cavity and connecting cavity in this utility model;

[0027] Figure 7 This is a three-dimensional structural schematic diagram of the adjusting rod mounting plate and the adjusting rod mounting plate in this utility model;

[0028] Figure 8This is a three-dimensional structural diagram of the guide cavity and connecting part in this utility model;

[0029] Figure 9 This is a three-dimensional structural schematic diagram of the irregularly shaped component in this utility model;

[0030] Figure 10 This is a front view schematic diagram of the integrated crossbar assembly in this utility model;

[0031] Figure 11 This is a utility model Figure 10 A three-dimensional structural diagram of the crossbar assembly.

[0032] The numbers and letters in the diagram represent the names of the corresponding components:

[0033] 1. Arrangement box; 11. Divider plate; 12. Baffle plate; 13. Baffle strip hole; 2. Guide plate; 21. Connecting part; 22. Base; 23. Guide cavity; 3. Storage box; 4. Crossbar connecting seat; 41. Separating crossbar; 411. Mounting seat; 412. Large crossbar; 413. Medium crossbar; 414. Small crossbar; 42. Mounting cavity; 43. Connecting cavity; 44. Fixing plate; 45. Connecting 46. ​​Connecting rod; 5. Adjusting rod mounting plate; 51. Adjusting rod; 52. Adjusting rod mounting groove; 53. Protrusion; 6. Adjusting groove; 61. Large adjusting hole; 62. Medium adjusting hole; 63. Small adjusting hole; 7. Crossbar slot assembly; 71. Large-sized insertion hole; 72. Medium-sized insertion hole; 73. Small-sized insertion hole; 74. Separator block; 8. Irregularly shaped part; 81. Thinner end; 82. Thicker end. Detailed Implementation

[0034] In order to better understand the technical means of this utility model and to implement it in accordance with the contents of the specification, the specific embodiments of this utility model will be further described in detail below with reference to the accompanying drawings and examples. The following examples are used to illustrate this utility model, but are not intended to limit the scope of this utility model.

[0035] See appendix Figures 1-11As shown, the auxiliary arrangement device for multi-specification irregular-shaped parts in Embodiment 1 includes an arrangement box 1. A screening chamber is provided through the interior of the arrangement box 1. The irregular-shaped part 8 includes a thicker end 82 and a thinner end 81. The thinner end 81 is located at the bottom of the thicker end 82, and the diameter of the top of the thinner end 81 is smaller than the diameter of the bottom of the thicker end 82. Adjustment slot assemblies are provided on both sides of the arrangement box 1, and crossbar slot assemblies 7 are provided at both ends of the arrangement box 1. An adjustment component is detachably provided on one side of the arrangement box 1 via the adjustment slot assembly, and a crossbar assembly is detachably provided at one end of the arrangement box 1 via the crossbar slot assembly 7. The bottom of the arrangement box 1 is located between the crossbar assembly and the adjustment component. A storage box 3 is provided at the intersection of the components; the crossbar assembly includes a crossbar connecting seat 4, and a row of crossbars 41 is detachably provided inside the crossbar connecting seat 4. Multiple row of crossbars 41 are spaced apart along the length of the crossbar connecting seat 4, and a row cavity is formed between every two row of crossbars 41; the adjusting assembly includes an adjusting rod connecting seat, and an adjusting rod 51 is provided inside the adjusting rod connecting seat. Multiple adjusting rods 51 are spaced apart along the length of the adjusting rod connecting seat, and an adjusting cavity is formed between every two adjusting rods 51; multiple row cavities and multiple adjusting cavities intersect to form multiple arrangement cavities, and the storage box 3 has a storage cavity inside that matches the arrangement cavity.

[0036] When using the device, the crossbar assembly is then manually installed in the crossbar slot assembly 7, so that multiple split crossbars 41 are inside the storage cavity of the arrangement box 1. Then, the bulk irregular parts 8 are poured into the storage cavity, and the arrangement box 1 is manually shaken so that the irregular parts 8 are separated between the two split crossbars 41 by gravity. After they are separated, the distance adjustment rod 51 is inserted into the storage cavity through the distance adjustment slot assembly to adjust the distance of the already separated irregular parts 8 to achieve auxiliary arrangement.

[0037] During storage, the arrangement box 1 is placed on the storage box 3, so that the arranged irregularly shaped parts 8 correspond to the storage cavity in the storage box 3, and the thinner end 81 of the irregularly shaped parts 8 is inserted into the storage cavity in the storage box 3. Finally, the crossbar assembly and the spacing adjustment assembly are pulled out, and the irregularly shaped parts 8 can fall into the storage cavity by gravity. There is no need for traditional manual screening, arrangement and boxing. Only the arrangement box 1 needs to be shaken to automatically screen and arrange, and then the boxes are packed by gravity. This greatly reduces manual labor. The vibration screening also avoids the problem of hands coming into contact with the irregularly shaped parts 8 during the boxing process, which could lead to contamination or damage to the irregularly shaped parts 8. At the same time, it solves the problem of excessive labor intensity when boxing in large quantities.

[0038] When using it directly, place the arrangement box 1 on the table, and the experimenter can directly take out the irregularly shaped parts 8 that have been automatically and neatly arranged in the arrangement box 1 for use.

[0039] A guide plate 2 is also provided between the storage box 3 and the arrangement box 1. The guide plate 2 is composed of a connecting part 21 and a base 22, and the connecting part 21 has a guide cavity 23 that is adapted to the arrangement cavity.

[0040] By setting the guide plate 2, the guide plate 2 is installed on the top surface of the storage box 3, and the storage cavity and the guide cavity 23 correspond to each other. Then, after the irregular part 8 is arranged in the arrangement cavity of the arrangement box 1, the height of the guide plate 2 is raised manually or by auxiliary equipment, so that the thinner end 81 of the bottom of the irregular part 8 enters the interior of the guide cavity 23. Then, the corresponding crossbar assembly and the adjustment assembly are pulled out, so that the arranged irregular part 8 enters the interior of the guide cavity 23 by gravity. It is then guided into the storage cavity inside the storage box 3 by the guide cavity 23 for storage. Compared with the method of directly entering the storage cavity after being arranged, the irregular part 8 guided by the guide plate 2 can enter the storage cavity inside the storage box 3 more stably, which greatly reduces the probability of the irregular part 8 failing to be packed.

[0041] The adjustable slot assembly includes adjustable slots 6 on both sides of the arrangement box 1. Each of the two adjustable slots 6 has a partition plate 11 inside, and each partition plate 11 divides each adjustable slot 6 into four. Both of the top adjustable slots 6 have a large adjustable hole 61 through them. Both of the bottom adjustable slots 6 have a medium adjustable hole 62 and a small adjustable hole 63 through them at the top and bottom respectively.

[0042] The adjusting rod 51 can be made in large, medium or small sizes according to requirements to fit the large adjusting hole 61, medium adjusting hole 62 or small adjusting hole 63. When arranging irregularly shaped parts 8 of different sizes, the corresponding adjusting rod 51 can be inserted into the corresponding large adjusting hole 61, medium adjusting hole 62 or small adjusting hole 63 to adjust the distance between the arranged irregularly shaped parts 8 so that they correspond to the receiving cavity or guiding cavity 23. The structure is simple and easy to use. Moreover, the adjusting rod 51 can be made of commercially available metal sheets, without additional processing or customization, which greatly reduces production costs while ensuring support strength.

[0043] The crossbars 41 come in three sizes: large, medium, and small.

[0044] When the irregular part 8 is large, the adjusting rod 51 is inserted into the corresponding small adjusting hole 63 with a small size as required, and is matched with a small crossbar; when the irregular part 8 is medium size, the adjusting rod 51 is inserted into the corresponding medium adjusting hole 62 with a medium size as required, and is matched with a medium crossbar; when the irregular part 8 is small size, the adjusting rod 51 is inserted into the corresponding large adjusting hole 61 with a large size as required, and is matched with a large crossbar; by selecting the appropriate crossbar and adjusting rod, the arrangement cavity formed between the crossbar and adjusting rod can be specifically adapted to the arrangement of irregular parts 8 of different sizes.

[0045] The adjusting rod connecting seat includes adjusting rod mounting plate 5. There are two adjusting rod mounting plates 5. The upper and lower surfaces of the two adjusting rod mounting plates 5 are fixedly mounted with protrusions 53. Multiple protrusions 53 on each side are arranged alternately from front to back along the length direction of the corresponding adjusting rod mounting plate 5. An adjusting rod mounting groove 52 is formed between each two adjacent protrusions 53.

[0046] During installation, the two adjusting rod mounting plates 5 are stacked one on top of the other. Then, the adjusting rod 51 is inserted into the adjusting rod mounting groove 52 on the upper surface of the bottom adjusting rod mounting plate 5. Next, the protrusion 53 on the lower surface of the top adjusting rod mounting plate 5 is attached to the adjusting rod 51 in the bottom adjusting rod mounting plate 5, so that the two adjusting rod mounting plates 5 form a clamping force on the adjusting rod 51. Finally, the two adjusting rod mounting plates 5 are fixed with bolts to complete the fixing of the adjusting rod 51.

[0047] The crossbar slot assembly 7 includes a large-sized socket 71, a medium-sized socket 72, and a small-sized socket 73 that are sequentially opened from top to bottom at both ends of the arrangement box 1. The large-sized socket 71, the medium-sized socket 72, and the small-sized socket 73 are all spaced apart along the width direction of the arrangement box 1. A partition block 74 is fixedly installed on the inner wall of the arrangement box 1 between every two adjacent large-sized sockets 71. A guide groove is formed between the two partition blocks 74 to guide the crossbars 41. The large-sized socket 71 and the medium-sized socket 72 are both round holes, while the small-sized socket 73 is rectangular. The diameter of the medium-sized socket 72 is smaller than the diameter of the large-sized socket 71. The design of the guide groove allows the rectangular crossbar to be better inserted from the small-sized socket 73 at one end of the arrangement box 1 into the small-sized socket 73 at the other end of the inner cavity of the arrangement box 1.

[0048] The arrangement of large-size socket 71, medium-size socket 72, and small-size socket 73 allows the crossbar to have three different specifications. When the irregular part 8 is small-size, the crossbar is installed inside the large-size socket 71 in a large-size configuration. When the irregular part 8 is medium-size, the crossbar is installed inside the medium-size socket 72 in a medium-size configuration. When the irregular part 8 is large-size, the small-size crossbar 414 is installed inside the small-size socket 73. In order to ensure the strength of the small-size crossbar 414, the small-size crossbar 414 is rectangular. The large-size crossbar 412, medium-size crossbar 413, and small-size crossbar 414 all use commercially available metal bars, which do not require additional processing or customization, greatly reducing production costs.

[0049] The crossbar connecting seat 4 includes a crossbar connecting plate 46. There are two crossbar connecting plates 46. A mounting cavity 42 for mounting the crossbar is opened between the two crossbar connecting plates 46. Multiple mounting cavities 42 are arranged at intervals along the length direction of the crossbar connecting plate 46. A connecting cavity 43 adapted to the row of crossbars 41 is opened on the inner wall of the crossbar connecting plate 46 and on both sides of the mounting cavity 42. A mounting seat 411 adapted to the mounting cavity 42 is fixedly installed at one end of the row of crossbars 41.

[0050] Furthermore, baffles 12 are fixedly installed at the center of the inner walls on both sides of the arranging box 1. A baffle hole 13 is opened on the surface of the arranging box 1 and at the top of the adjustment slot assembly. Multiple baffle holes 13 are opened at intervals along the length of the arranging box 1. By setting baffle holes 13, baffles can be added to the arranging box 1. The baffles can ensure that after different specifications of irregularly shaped parts 8 enter the arranging box 1 in batches, the scattered irregularly shaped parts 8 that are not arranged and sorted will not interfere with the stability of the arranged irregularly shaped parts 8, thereby increasing the stability of the box. By setting baffles 12, two guide plates 2 can be installed separately at the bottom of the inner cavity of the arranging box 1 to prevent the two guide plates 2 from affecting each other when the arranging box 1 vibrates, thereby further improving stability.

[0051] like Figures 5-6 As shown, the crossbar connecting seat 4 is composed of two crossbar connecting plates 46. Each of the two crossbar connecting plates 46 has a mounting cavity 42 for mounting the crossbars 41. Multiple mounting cavities 42 are spaced apart along the length of the crossbar connecting plates 46. The inner wall of the crossbar connecting plates 46 and both sides of the mounting cavity 42 have connecting cavities 43 that are adapted to the crossbars 41. One end of the crossbar 41 is fixedly mounted with a mounting seat 411 that is adapted to the mounting cavity 42.

[0052] When the crossbar connecting seat 4 is composed of two crossbar connecting plates 46, the crossbars 41 are cylindrical. One end of the crossbar 41 is provided with a mounting seat 411. After the two crossbar connecting plates 46 are attached to each other, the two crossbar connecting plates 46 can fix the crossbars 41 by wrapping the mounting seat 411 through the mounting cavity 42. Then, the two attached crossbar connecting plates 46 can be fixed with bolts. When the specifications of the crossbars 41 after installation do not match the specifications of the irregular part 8, the workers can pull out all the crossbars 41 through the crossbar connecting plates 46 and replace them with crossbars 41 of the corresponding specifications. The structure is simple, time-saving and labor-saving. Moreover, the crossbars 41 are made of commercially available metal rods, which do not require additional processing or customization, greatly reducing production costs.

[0053] As attached Figures 10-11As shown, the crossbars 41 include a large crossbar 412, a medium crossbar 413, and a small crossbar 414. The crossbar connecting seat 4 has an internal mounting groove for installing the large crossbar 412, the medium crossbar 413, and the small crossbar 414. Both ends of one side of the crossbar connecting seat 4 are fixedly installed with fixing plates 44. A connecting rod 45 for fixing one end of the small crossbar 414 is horizontally fixed between the two fixing plates 44.

[0054] When the crossbar connector 4 is integrated, the large-size crossbar 412 (i.e., large-sized crossbar), the medium-size crossbar 413 (i.e., medium-sized crossbar), and the small-size crossbar 414 (i.e., small-sized crossbar) are all installed in the crossbar connector 4. The experimenter only needs to insert the crossbar assembly into the corresponding crossbar slot assembly 7, so that the large-size crossbar 412, medium-size crossbar 413, and small-size crossbar 414 enter the large-size insertion hole 71, medium-size insertion hole 72, and small-size insertion hole 73 respectively. Then, the bulk irregular-shaped parts 8 are poured into the screening chamber, so that the irregular-shaped parts 8 are inserted into the large-size crossbar 412, medium-size crossbar 413, and small-size crossbar 414. Screening is performed at rod 414. Then, the experimenter inserts the adjustment component into the corresponding large adjustment hole 61, medium adjustment hole 62 and small adjustment hole 63, so that the arrangement box 1 can arrange and organize the irregular parts 8 of different specifications at the same time. After the arrangement is completed, the guide plate 2 is moved upward, so that the thinner end 81 of the bottom of the irregular part 8 is inserted into the top of the guide cavity 23 in the guide plate 2. Then, the crossbar component and the adjustment component are pulled out, so that the irregular part 8 enters the guide cavity 23 by gravity and then enters the storage cavity inside the storage box 3 for storage and boxing. This method can screen irregular parts 8 of different specifications at the same time, further improving production efficiency.

[0055] The above are merely preferred embodiments of this utility model and are not intended to limit this utility model. It should be noted that for those skilled in the art, several improvements and modifications can be made without departing from the technical principles of this utility model, and these improvements and modifications should also be considered within the protection scope of this utility model.

Claims

1. A multi-specification irregular-shaped component auxiliary arrangement device, characterized in that: The arrangement includes a sorting box (1), which has a screening chamber through it. Both sides of the sorting box (1) are provided with a spacing adjustment slot assembly, and both ends of the sorting box (1) are provided with a crossbar slot assembly (7). One side of the arrangement box (1) is detachably provided with an adjustment component via the adjustment slot assembly, and one end of the arrangement box (1) is detachably provided with a crossbar assembly via the crossbar slot assembly (7). A storage box (3) is provided at the bottom of the arrangement box (1) and at the intersection of the crossbar assembly and the adjustment component. The crossbar assembly includes a crossbar connecting seat (4), and a row of crossbars (41) is detachably provided inside the crossbar connecting seat (4). Multiple row of crossbars (41) are spaced apart along the length direction of the crossbar connecting seat (4), and a row cavity is formed between every two row of crossbars (41). The adjusting component includes an adjusting rod connecting seat, and an adjusting rod (51) is provided inside the adjusting rod connecting seat. Multiple adjusting rods (51) are provided at intervals along the length of the adjusting rod connecting seat, and an adjusting cavity is formed between every two adjusting rods (51). Multiple arrangement cavities are formed at the intersection of multiple sorting cavities and multiple adjusting cavities, and the storage box (3) has a storage cavity inside that is adapted to the arrangement cavity.

2. The multi-specification irregular-shaped component auxiliary arrangement device according to claim 1, characterized in that, The adjustable slot assembly includes adjustable slots (6) on both sides of the arrangement box (1). Each of the two adjustable slots (6) is provided with a partition plate (11). Each partition plate (11) divides each adjustable slot (6) into four. The two top adjustable slots (6) are provided with a large adjustable hole (61) through them. The top and bottom of the two bottom adjustable slots (6) are provided with a medium adjustable hole (62) and a small adjustable hole (63) through them, respectively.

3. The auxiliary arrangement device for multi-specification irregular-shaped parts according to claim 1, characterized in that, The crossbar slot assembly (7) includes a large-sized socket (71), a medium-sized socket (72) and a small-sized socket (73) that are sequentially opened through both ends of the arrangement box (1) from top to bottom. The large-sized socket (71), the medium-sized socket (72) and the small-sized socket (73) are all spaced apart along the width direction of the arrangement box (1). A partition block (74) is fixedly installed on the inner wall of the arrangement box (1) between every two adjacent large-sized sockets (71). A guide groove is formed between the two partition blocks (74) to guide the crossbars (41).

4. The auxiliary arrangement device for multi-specification irregular-shaped parts according to claim 3, characterized in that, The large-sized socket (71) and the medium-sized socket (72) are both round holes, the small-sized socket (73) is rectangular, and the diameter of the medium-sized socket (72) is smaller than the diameter of the large-sized socket (71).

5. The auxiliary arrangement device for multi-specification irregular-shaped parts according to claim 1, characterized in that, The crossbar connecting seat (4) is composed of two crossbar connecting plates (46). A mounting cavity (42) for installing the crossbar (41) is provided between the two crossbar connecting plates (46). Multiple mounting cavities (42) are provided at intervals along the length direction of the crossbar connecting plate (46). A connecting cavity (43) adapted to the crossbar (41) is provided on the inner wall of the crossbar connecting plate (46) and on both sides of the mounting cavity (42). A mounting seat (411) adapted to the mounting cavity (42) is fixedly installed at one end of the crossbar (41).

6. The auxiliary arrangement device for multi-specification irregular-shaped parts according to claim 1, characterized in that, The crossbars (41) include large crossbars (412), medium crossbars (413) and small crossbars (414). The crossbar connecting seat (4) has an installation groove for installing the large crossbars (412), medium crossbars (413) and small crossbars (414). Both ends of one side of the crossbar connecting seat (4) are fixedly installed with fixing plates (44). A connecting rod (45) for fixing one end of the small crossbar (414) is horizontally fixed between the two fixing plates (44).

7. The auxiliary arrangement device for multi-specification irregular-shaped parts according to claim 1, characterized in that, A guide plate (2) is also provided between the storage box (3) and the arrangement box (1). The guide plate (2) is composed of a connecting part (21) and a base (22), and the connecting part (21) has a guide cavity (23) adapted to the arrangement cavity.

8. The auxiliary arrangement device for multi-specification irregular-shaped parts according to claim 1, characterized in that, The adjusting rod connecting seat includes adjusting rod mounting plate (5), and there are two adjusting rod mounting plates (5). The upper and lower surfaces of the two adjusting rod mounting plates (5) are fixedly mounted with protrusions (53). Multiple protrusions (53) on each side are arranged alternately from front to back along the length direction of the corresponding adjusting rod mounting plate (5). An adjusting rod mounting groove (52) is formed between each two adjacent protrusions (53).

9. The auxiliary arrangement device for multi-specification irregular-shaped parts according to claim 1, characterized in that, A baffle (12) is fixedly installed at the center of the inner wall on both sides of the arrangement box (1). A baffle hole (13) is opened on the surface of the arrangement box (1) and at the top of the adjustment slot assembly. Multiple baffle holes (13) are opened at intervals along the length of the arrangement box (1).

10. The auxiliary arrangement device for multi-specification irregular-shaped parts according to claim 1, characterized in that, The irregular part (8) includes a thicker end (82) and a thinner end (81), the thinner end (81) being located at the bottom of the thicker end (82), and the diameter of the top of the thinner end (81) being smaller than the diameter of the bottom of the thicker end (82).