CN210102847U - Mechanism for aerosol can production line shunting - Google Patents

Abstract

The utility model relates to an aerosol filling field especially relates to a mechanism that is used for aerosol canister production line gate-type to reposition of redundant personnel, specifically is used for one of aerosol canister production line runner to divide into two. The plate chain conveying line A is arranged in parallel with the plate chain conveying line B, and the aerosol can production line shunting mechanism C is fixed on the plate chain conveying line B. The utility model discloses an aerosol canister production line reposition of redundant personnel, the reposition of redundant personnel is switched swiftly, reliable and stable, and simple structure, and is with low costs. By program control, any proportion of flow division can be realized, and equal proportion of flow division can be realized, such as 2:2, 3:3 and 4:4 … …, or unequal proportion of flow division can be realized, such as 2:4, 3:5 and … ….

Description

Mechanism for aerosol can production line shunting

Technical Field

The utility model relates to an aerosol filling field especially relates to a mechanism that is used for aerosol canister production line reposition of redundant personnel, specifically is used for one of aerosol canister production line runner to be divided into two.

Technical Field

At present, the technical level of the domestic aerosol filling production line is developed, the filling efficiency is high, in order to meet the production rhythm of the subsequent processes of inflation, capping and the like, the previous single flow channel cannot meet the requirement, and in order to improve the production rhythm, a mechanism for shunting the aerosol can production line is designed.

The utility model discloses "food production line reposition of redundant personnel platform" of authorized bulletin number CN208495034U is including rotating motor, sieve, dwang, rotates the motor and installs in the electric cabinet, and the output shaft links to each other with the dwang, and the sieve is fixed on the dwang, rotates through the motor and drives the sieve and rotate, realizes the purpose of reposition of redundant personnel.

Above-mentioned utility model through the rotation that uses the motor to drive the sieve, its control is complicated, and is with high costs.

In summary, a fast, stable and reliable aerosol can production line shunting device needs to be designed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at: a quick, stable and reliable aerosol can production line shunting mechanism is designed.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a mechanism for aerosol can production line shunting comprises a plate chain conveyor line I, a plate chain conveyor line II and an aerosol can production line shunting mechanism C, wherein the plate chain conveyor line I and the plate chain conveyor line II are arranged in parallel and level, and the aerosol can production line shunting mechanism C is fixed on the plate chain conveyor line II; aerosol canister production line reposition of redundant personnel mechanism C includes short baffle 1, pivot 2, long baffle 3, support diaphragm 4, angular contact ball bearing 5, axle collar 6, gear 7, gear end cover 8, linear guide 9, rack 10, slider connecting plate 11, mini cylinder 12, cylinder backing plate 13, strengthening rib 14, support riser 15, connecting plate 16, and connecting plate 16 fixes on plate chain transfer chain two B: the support vertical plate 15 is fixed on the connecting plate 16; the support transverse plate 4 is arranged on the support vertical plate 15 and used for mounting parts, and the reinforcing ribs 14 are connected with the support transverse plate 4 and the support vertical plate 15; the linear guide rail 9 is arranged on the transverse plate 4 of the bracket; the slide block connecting plate 11 is arranged on the linear guide rail 9; the rack 10 is arranged on the slide block connecting plate 11 and is connected with the mini cylinder 12; the cylinder tie plate 13 is arranged on the support transverse plate 4, and the mini cylinder 12 is arranged on the cylinder tie plate 13; the angular contact ball bearings 5 are respectively plugged into the transverse plate 4 of the bracket: the rotating shaft 2 is plugged into the angular contact ball bearing 5, and the shaft shoulder of the rotating shaft 2 fixes the inner ring of the angular contact ball bearing 5 to prevent the axial movement of the angular contact ball bearing; the shaft collar 6 fixes the inner ring on the other surface of the angular contact ball bearing 5, and the axial movement of the angular contact ball bearing 5 is completely limited; the gear 7 is plugged into the rotating shaft 2 and above the shaft ring 6; the gear end cover 8 is arranged on the gear 7 and locked with the rotating shaft 2; the long baffle 3 and the short baffle 1 are respectively fixed on the two rotating shafts 2.

The utility model has the advantages that:

1) the aerosol can production line shunting is realized, shunting switching is quick, stable and reliable, the structure is simple, and the cost is low.

2) By program control, any proportion of flow division can be realized, and equal proportion of flow division can be realized, such as 2:2, 3:3 and 4:4 … …, or unequal proportion of flow division can be realized, such as 2:4, 3:5 and … ….

Drawings

Fig. 1 is a first schematic diagram of the present invention.

Fig. 2 is a second schematic diagram of the present invention.

Detailed description of the preferred embodiments

The structure of the present invention will be further described by way of example with reference to the accompanying drawings.

Fig. 1 is the utility model discloses a mechanism schematic diagram one, as shown in fig. 1, including plate chain transfer chain a, plate chain transfer chain two B, aerosol can production line reposition of redundant personnel mechanism C, wherein plate chain transfer chain a and plate chain transfer chain two B parallel and level arrange, aerosol can production line reposition of redundant personnel mechanism C fixes on plate chain transfer chain two B.

Fig. 2 is the utility model discloses a mechanism schematic diagram two, as shown in fig. 2, aerosol canister production line reposition of redundant personnel mechanism C includes short baffle 1, pivot 2, long baffle 3, support diaphragm 4, angular contact ball bearing 5, axle collar 6, gear 7, gear end cover 8, linear guide 9, rack 10, slider connecting plate 11, mini cylinder 12, support riser 15, connecting plate 16, and connecting plate 16 fixes on plate link chain transfer chain two B: the support vertical plate 15 is fixed on the connecting plate 16; the bracket plate 4 is arranged on the bracket vertical plate 15 and used for mounting parts; the linear guide rail 9 is arranged on the transverse plate 4 of the bracket; the slide block connecting plate 11 is arranged on the linear guide rail 9; the rack 10 is arranged on the slide block connecting plate 11 and is connected with the mini cylinder 12; four angular contact ball bearings 5 are respectively plugged into four positive and negative holes of support diaphragm 4: the two rotating shafts 2 are plugged into the angular contact ball bearing 5, and the shaft shoulders of the rotating shafts 2 fix the inner ring of the angular contact ball bearing 5 to prevent the axial movement of the angular contact ball bearing 5; the shaft collar 6 fixes the inner ring on the other surface of the angular contact ball bearing 5, and the axial movement of the angular contact ball bearing 5 is completely limited; the gear 7 is plugged into the rotating shaft 2 and above the shaft ring 6; the gear end cover 8 is arranged on the gear 7 and locked with the rotating shaft 2 by a screw; the long baffle 3 and the short baffle 1 are respectively fixed on the two rotating shafts 2 by pins.

Further, the utility model discloses still include strengthening rib 14, strengthening rib 14 linking bridge diaphragm 4 and support riser 15.

Further, the utility model discloses still include cylinder backing plate 13, cylinder backing plate 13 is installed on support diaphragm 4, and mini cylinder 12 is installed on cylinder backing plate 13.

The operation of the mechanism for aerosol can line diversion is described below.

When mini cylinder 12 was in the state of stretching out long baffle 3 and short baffle 1 parallel in two B of plate link transfer chain, the aerosol canister moves to flow direction plate link transfer chain on two B, when mini cylinder 12 shrink, long baffle 3 and short baffle 1 rotate, and the aerosol canister flows to on the plate link transfer chain A to realize the purpose of aerosol canister production line reposition of redundant personnel.

Claims (1)

1. A mechanism for aerosol can production line shunting comprises a plate chain conveyor line I, a plate chain conveyor line II and an aerosol can production line shunting mechanism C, and is characterized in that the plate chain conveyor line I and the plate chain conveyor line II are arranged in parallel, and the aerosol can production line shunting mechanism C is fixed on the plate chain conveyor line II; aerosol canister production line reposition of redundant personnel mechanism C includes short baffle 1, pivot 2, long baffle 3, support diaphragm 4, angular contact ball bearing 5, collar 6, gear 7, gear end cover 8, linear guide 9, rack 10, slider connecting plate 11, mini cylinder 12, support riser 15, connecting plate 16 is fixed on plate chain transfer chain two B: the support vertical plate 15 is fixed on the connecting plate 16; the support transverse plate 4 is arranged on the support vertical plate 15 and used for mounting parts; the linear guide rail 9 is arranged on the transverse plate 4 of the bracket; the slide block connecting plate 11 is arranged on the linear guide rail 9; the rack 10 is arranged on the slide block connecting plate 11 and is connected with the mini cylinder 12; the angular contact ball bearings 5 are respectively plugged into the transverse plate 4 of the bracket: the rotating shaft 2 is plugged into the angular contact ball bearing 5, and the shaft shoulder of the rotating shaft 2 fixes the inner ring of the angular contact ball bearing 5 to prevent the axial movement of the angular contact ball bearing; the shaft collar 6 fixes the inner ring on the other surface of the angular contact ball bearing 5, and the axial movement of the angular contact ball bearing 5 is completely limited; the gear 7 is plugged into the rotating shaft 2 and above the shaft ring 6; the gear end cover 8 is arranged on the gear 7 and locked with the rotating shaft 2; the long baffle 3 and the short baffle 1 are respectively fixed on the two rotating shafts 2.

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