CN212501265U - MIM metal part lock core packaging device carrier - Google Patents

Abstract

The utility model discloses a MIM metalwork lock core packing plant carrier, including the carrier mainboard, the material passageway has been seted up at carrier mainboard middle part, carrier mainboard surface assembly has first assembly plate and second assembly plate, first assembly plate and carrier mainboard slip joint, second assembly plate and carrier mainboard slip joint, carrier mainboard surface connection has first fastening screw, carrier mainboard surface connection has second fastening screw; fix the carrier mainboard on processingequipment, the part passes through the material passageway under actuating mechanism promotes, because carrier mainboard length is fixed, make the part quantity that passes through at every turn in the material passageway the same, after the material passageway cohesion is full of the part, snatch the packing with the carrier mainboard, make the quantity of part in the wrapping bag fixed, alleviate the packing work volume, improve work efficiency, reduce the consumption of manpower, the volume production packing uniformity that can effectual assurance part reduces the packing cost with improving.

Description

MIM metal part lock core packaging device carrier

Technical Field

The utility model relates to a metal powder injection moulding technical field specifically is a MIM metalwork lock core packing plant carrier.

Background

The metal powder injection molding (MIM) technology is a new powder metallurgy near net shape forming technology formed by introducing modern plastic injection molding technology into the powder metallurgy field. The basic process comprises the following steps: firstly, uniformly mixing solid powder and organic binder, granulating, injecting the mixture into a die cavity by using an injection molding machine in a heating and plasticizing state (about 150 ℃) for curing and molding, then removing the binder in a molded blank by using a chemical or thermal decomposition method, and finally sintering and densifying to obtain a final product. Compared with the traditional process, the method has the characteristics of high precision, uniform tissue, excellent performance, low production cost and the like, and the product is widely applied to the industrial fields of electronic information engineering, biomedical instruments, office equipment, automobiles, machinery, hardware, sports instruments, clock industry, weapons, aerospace and the like. Therefore, the international general belief that the development of the technology will lead to a revolution of the forming and processing technology of parts and components, and the technology is known as the "most popular part forming technology of the present day" and the forming technology of the 21 st century "; and subsequently, strict requirements are put on the product packaging and quantity.

The lock core part is produced by the metal powder injection molding technology, the part needs to be packaged after production, the existing part packaging consistency is poor, rework is caused, the efficiency is low, and the packaging cost is increased. Accordingly, it is desirable to provide a MIM metal cylinder package carrier.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a MIM metalwork lock core packing plant carrier, can realize the degree height, be fit for mass production, the carrier mainboard of uniformity especially adapts to product packaging quantity uniformity and field management to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a MIM metalwork lock core packing plant carrier, includes the carrier mainboard, material passageway has been seted up at carrier mainboard middle part, carrier mainboard surface assembly has first assembly plate and second assembly plate, first assembly plate and carrier mainboard slip joint, second assembly plate and carrier mainboard slip joint, carrier mainboard surface connection has first fastening screw, carrier mainboard surface connection has second fastening screw.

Preferably, the carrier main plate is a cuboid, and the inner surface of the material channel is a curved surface calculated through hydrodynamics.

Preferably, the carrier main board is of an alloy structure, and the carrier main board is an aluminum alloy board body.

Preferably, the upper surface of the carrier main board is provided with a strip-shaped through groove, and the upper end surface of the strip-shaped through groove is fixedly embedded with a transparent toughened glass plate.

Preferably, the first assembling slide block is welded on the first assembling plate, a first assembling groove matched with the first assembling slide block in a sliding and clamping manner is formed in the carrier mainboard, the second assembling slide block is welded on the second assembling plate, and a second assembling groove matched with the second assembling slide block in a sliding and clamping manner is formed in the carrier mainboard.

Preferably, a first fastening threaded hole is formed in the carrier main board, one end of the first fastening threaded hole is communicated with the first assembling groove, the first fastening screw is in threaded connection with the first fastening threaded hole, a second fastening threaded hole is formed in the carrier main board, one end of the second fastening threaded hole is communicated with the second assembling groove, and the second fastening screw is in threaded connection with the second fastening threaded hole.

Preferably, counterbores are formed in the upper ends of the first fastening threaded hole and the second fastening threaded hole, and the upper ends of the first fastening screw and the second fastening screw are arranged in the counterbores.

Preferably, the first assembling grooves and the second assembling grooves are both provided with two groups, and the assembling positions of the first assembling grooves and the second assembling grooves are arranged on the carrier mainboard in a staggered manner.

Compared with the prior art, the beneficial effects of the utility model are that:

fix the carrier mainboard on processingequipment, the part passes through the material passageway under actuating mechanism promotes, because carrier mainboard length is fixed, make the part quantity that passes through at every turn in the material passageway the same, after the material passageway cohesion is full of the part, snatch the packing with the carrier mainboard, make the quantity of part in the wrapping bag fixed, alleviate the packing work volume, improve work efficiency, reduce the consumption of manpower, the volume production packing uniformity that can effectual assurance part reduces the packing cost with improving.

Drawings

Fig. 1 is a schematic top view of the present invention;

FIG. 2 is a side view of the carrier main board of the present invention;

fig. 3 is a schematic structural view of the present invention viewed from the bottom;

fig. 4 is a schematic sectional view of a second assembly groove according to the present invention.

In the figure: 1. a carrier motherboard; 2. a material channel; 3. a first fitting plate; 31. a first fitting groove; 32. A first assembly slide; 33. the first fastening threaded hole is a first fastening threaded hole; 34. a first fastening screw; 4. a second fitting plate; 41. a second assembly groove; 42. a second assembly slide; 43. a second fastening threaded hole; 44. a second fastening screw; 5. a transparent tempered glass plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: a MIM metal part lock cylinder packaging device carrier comprises a carrier main board 1, wherein a strip-shaped through groove is formed in the upper surface of the carrier main board 1, a transparent toughened glass plate 5 is fixedly embedded on the upper end face of the strip-shaped through groove, a material channel 2 is formed in the middle of the carrier main board 1, a first assembling plate 3 and a second assembling plate 4 are assembled on the surface of the carrier main board 1, the first assembling plate 3 is in sliding clamping connection with the carrier main board 1, the second assembling plate 4 is in sliding clamping connection with the carrier main board 1, a first assembling slide block 32 is welded on the first assembling plate 3, a first assembling groove 31 in sliding clamping connection with the first assembling slide block 32 in a matching manner is formed in the carrier main board 1, a second assembling slide block 42 is welded on the second assembling plate 4, a second assembling groove 41 in sliding clamping connection with the second assembling slide block 42 in a matching manner is formed in the carrier main board 1, and the carrier main board, the internal surface of material passageway 2 is the curved surface through hydrodynamics calculation, carrier mainboard 1 is the alloy structure, and carrier mainboard 1 is the aluminum alloy plate body, first assembly groove 31 and second assembly groove 41 all are provided with two sets ofly, and the arrangement of the mounted position of first assembly groove 31 and second assembly groove 41 on carrier mainboard 1 is dislocation order.

The surface of the carrier main board 1 is connected with a first fastening screw 34, the surface of the carrier main board 1 is connected with a second fastening screw 44, the carrier main board 1 is provided with a first fastening threaded hole 33, one end of the first fastening threaded hole 33 is communicated with the first assembling groove 31, the first fastening screw 34 is in threaded connection with the first fastening threaded hole 33, the carrier main board 1 is provided with a second fastening threaded hole 43, one end of the second fastening threaded hole 43 is communicated with the second assembling groove 41, the second fastening screw 44 is in threaded connection with the second fastening threaded hole 43, the upper ends of the first fastening threaded hole 33 and the second fastening threaded hole 43 are both provided with counter bores, and the upper ends of the first fastening screw 34 and the second fastening screw 44 are arranged in the counter bores.

The working principle is as follows: when the packaging device is used, the carrier main board 1 is fixed on the processing device, parts are pushed by the driving mechanism to pass through the material channel 2, the length of the carrier main board 1 is fixed, so that the number of the parts passing through the material channel 2 every time is the same, after the parts are fully gathered in the material channel 2, the carrier main board 1 is grabbed and packaged, the number of the parts in a packaging bag is fixed, the packaging workload is reduced, the working efficiency is improved, the labor consumption is reduced, the mass production packaging consistency of the parts can be effectively ensured, and the packaging cost is improved; the carrier mainboard 1 course of working is simple, can realize the degree height, is fit for mass production, and the carrier mainboard of uniformity especially adapts to product packaging quantity uniformity and field management, adjusts the position of installing on the carrier mainboard 1 that slides and inlays respectively first assembly plate 3 and second assembly plate 4 through twisting first fastening screw 34 and second fastening screw 44, and portable regulation is fit for the packing requirement of different products.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An MIM metalwork lock core packing plant carrier, includes carrier mainboard (1), its characterized in that: material passageway (2) have been seted up at carrier mainboard (1) middle part, carrier mainboard (1) surface mounting has first mounting plate (3) and second mounting plate (4), first mounting plate (3) and carrier mainboard (1) slip joint, second mounting plate (4) and carrier mainboard (1) slip joint, carrier mainboard (1) surface connection has first fastening screw (34), carrier mainboard (1) surface connection has second fastening screw (44).

2. The MIM metal cylinder package carrier according to claim 1, wherein: the carrier main board (1) is cuboid, and the inner surface of the material channel (2) is a curved surface calculated through hydrodynamics.

3. The MIM metal cylinder package carrier according to claim 1, wherein: the carrier main board (1) is of an alloy structure, and the carrier main board (1) is an aluminum alloy board body.

4. The MIM metal cylinder package carrier according to claim 1, wherein: the upper surface of the carrier main board (1) is provided with a strip-shaped through groove, and the upper end surface of the strip-shaped through groove is fixedly embedded with a transparent toughened glass plate (5).

5. The MIM metal cylinder package carrier according to claim 1, wherein: the welding has first assembly slider (32) on first assembly plate (3), offer first assembly groove (31) with first assembly slider (32) cooperation slip joint on carrier mainboard (1), the welding has second assembly slider (42) on second assembly plate (4), offer second assembly groove (41) with second assembly slider (42) cooperation slip joint on carrier mainboard (1).

6. The MIM metal cylinder package carrier according to claim 1, wherein: the carrier main board is characterized in that a first fastening threaded hole (33) is formed in the carrier main board (1), one end of the first fastening threaded hole (33) is communicated with the first assembling groove (31), the first fastening screw (34) is in threaded connection with the first fastening threaded hole (33), a second fastening threaded hole (43) is formed in the carrier main board (1), one end of the second fastening threaded hole (43) is communicated with the second assembling groove (41), and the second fastening screw (44) is in threaded connection with the second fastening threaded hole (43).

7. The MIM metal cylinder package carrier according to claim 1, wherein: counterbores are formed in the upper ends of the first fastening threaded hole (33) and the second fastening threaded hole (43), and the upper ends of the first fastening screw (34) and the second fastening screw (44) are arranged in the counterbores.

8. The MIM metal cylinder package carrier according to claim 5, wherein: the first assembling grooves (31) and the second assembling grooves (41) are respectively provided with two groups, and the assembling positions of the first assembling grooves (31) and the second assembling grooves (41) are arranged on the carrier main board (1) in a staggered mode.

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