CN-121990356-A - Efficient processing method of electronic cigarette shell

Abstract

The invention discloses a high-efficiency processing method of an electronic cigarette case, which is based on a processing mechanism to process the electronic cigarette case, wherein a carrier provided with the electronic cigarette case comprises a vertically arranged base plate and a plurality of carrier blocks arranged on one side surface of the base plate, a horizontally extending strip-shaped supporting plate is arranged at one end of a sliding rail, a plurality of mounting seats corresponding to the carrier blocks on the carrier are arranged on the upper surface of the strip-shaped supporting plate, and a telescopic spring is respectively arranged on the end surfaces of two ends of the strip-shaped supporting plate. The invention not only realizes synchronous processing of the electronic cigarette shells at a plurality of stations and improves the processing efficiency, but also is convenient for hanging and disassembling the carrier loaded with the workpieces and realizing stable clamping of the clamp when loading and unloading the work stations, and can also avoid the deviation of the positions of the electronic cigarette shells caused by rotation, thereby ensuring the stability and consistency of the position precision of each electronic cigarette shell in the processing process of each processing station, improving the processing precision and not damaging the surfaces of the electronic cigarette shells.

Inventors

• DAI JIQUN
• LIU YUSONG

Assignees

• 江苏盈智融科技有限公司

Dates

Publication Date

20260508

Application Date

20241101

Claims (10)

1. 1. The high-efficiency processing method of the electronic cigarette shell is characterized in that the processing mechanism comprises a rotating disc (26) and at least 3 supporting seats (11) arranged at the edge of the upper surface of the rotating disc (26), the supporting seats (11) are uniformly arranged at intervals along the circumferential direction of the rotating disc (26), the center of the lower surface of the rotating disc (26) is connected with an output shaft of a driving mechanism (27), a base substrate (111) of the supporting seat (11) is arranged on the upper surface of the rotating disc (26), the upper surface of the base substrate (111) is positioned on the inner side of a vertical supporting plate (112) of the supporting seat (11), a horizontally arranged supporting plate (12) is arranged on the inner side of the vertical supporting plate (112), and at least one end of the supporting plate (12) is parallel to a sliding rail (14) which is arranged on the upper surface of the supporting seat (14) and is parallel to the sliding rail (131) of the supporting seat (14); The electronic cigarette comprises a sliding rail (131), a horizontally extending strip-shaped supporting plate (18), a plurality of mounting seats (19) corresponding to a carrying block (2) on a carrier are arranged on the upper surface of the strip-shaped supporting plate (18), an extrusion head (20) matched with an electronic cigarette shell (100) is arranged at one end of the mounting seat (19) facing to the vertical supporting plate (112), a telescopic spring (21) is arranged on each of the end surfaces of the two ends of the strip-shaped supporting plate (18), the other end of the telescopic spring (21) with one end connected with the strip-shaped supporting plate (18) is connected with a supporting seat (11), at least one spinning cylinder (16) is arranged on the vertical supporting plate (112), and a rotating part (162) of the spinning cylinder (16) with a main body part (161) arranged on the rear side surface of the vertical supporting plate (112) is positioned at the front side of the vertical supporting plate (112); The processing method comprises the following steps: Step one, correspondingly mounting an electronic cigarette shell (100) to be processed on a carrier block (2) of a carrier to obtain at least one carrier loaded with the electronic cigarette shell (100); Step two, driving the rotating disc (26) to rotate through the driving mechanism (27), and rotating one supporting seat (11) on the upper surface of the rotating disc (26) to the feeding and discharging stations, wherein at the moment, the rest supporting seats (11) are correspondingly positioned at the processing stations; Step three, at the loading and unloading station, firstly placing the spinning cylinder (16) in a non-holding state, and then hanging the substrate (1) of the carrier loaded with the electronic cigarette case (100) on the cushion block (151), so that the cushion block (151) is embedded into a hanging groove (152) arranged on the lower surface of the substrate (1) and the electronic cigarette case (100) faces the corresponding extrusion heads (20) one by one, and at the moment, the rotating part (162) of the spinning cylinder (16) is positioned outside the substrate (1) of the carrier in parallel; Pushing the substrate (1) of the carrier until the substrate is attached to the surface of the vertical supporting plate (112) of the supporting seat (11), wherein in the process, the electronic cigarette case (100) loaded on the carrier passes through the avoidance through hole (14) and each extrusion head (20) is in extrusion contact with the corresponding electronic cigarette case (100); Step five, switching the spinning cylinder (16) to a pressing state, so that a rotating part (162) of the spinning cylinder is in pressing contact with the surface of the vertical supporting plate (112) opposite to the substrate (1) of the carrier; Step six, driving the rotating disc (26) to rotate through the driving mechanism (27), rotating the supporting seat (11) with the carrier to the next processing station, and simultaneously rotating the other adjacent carrier to the feeding and discharging station; And step seven, processing the electronic cigarette case (100) on the carrier transferred on the supporting seat (11) at the processing station, and simultaneously carrying out carrier loading operation as in the steps three to five on the supporting seat (11) on the loading and unloading station.
2. 2. The multi-station efficient machining mechanism of claim 1, wherein a plurality of rotating blocks (3) which are in one-to-one correspondence with the carrying blocks (2) are arranged above the substrate (1), one end, far away from the carrying blocks (2), of each rotating block (3) is rotatably arranged on the upper surface of the substrate (1), a protruding portion (4) is arranged on the upper surface of the other end of each rotating block (3), a groove (101) which can be used for embedding the protruding portion (4) is formed in the inner side of the electronic cigarette case (100) vertically arranged on the outer side of the carrying block (2), and the lower surface of each rotating block (3) is connected with the upper surface of the substrate (1) through at least one spring (5) which is vertically arranged and is in a compressed state.
3. 3. The fixture of electronic cigarette case according to claim 1, wherein the lower surface of the rotating block (3) is an inclined surface, and the inclined surface is gradually increased in a direction approaching the carrying block (2).
4. 4. The holder of claim 1, wherein the center of one side surface of the rotating block (3) is provided with a pressing part (31) extending horizontally outwards.
5. 5. The fixture of the electronic cigarette case of claim 1, wherein 2 springs (5) are arranged between the lower surface of the rotating block (3) and the upper surface of the base plate (1) at intervals.
6. 6. The carrier mounting module as set forth in claim 1, wherein the upper side wall and/or the lower side wall of the receiving groove (22) are provided with a strip-shaped hole (251) extending back and forth, and an end portion of a limit pin (252) vertically penetrating through the movable block (23) is embedded into the strip-shaped hole (251) and slidably engaged with an inner wall of the strip-shaped hole (251).
7. 7. The carrier mounting module as set forth in claim 1, wherein a reinforcing plate (113) is provided on each of both sides of the clearance through hole (14) on the upper surface of the base substrate (111), and the reinforcing plates (113) provided in a right triangle are respectively connected with the rear side surfaces of the base substrate (111) and the vertical support plate (112).
8. 8. The carrier mounting module according to claim 7, wherein the front end of the extension spring (21) is connected to a first pin (211) mounted on the reinforcing plate (113), the rear end of the extension spring (21) is connected to a second pin (212) mounted on end surfaces of both ends of the bar-shaped support plate (18), one end of each of the first pin (211) and the second pin (212) parallel to each other is connected to the extension spring (21), and the other end of each of the first pin and the second pin is mounted on the reinforcing plate (113) or the bar-shaped support plate (18).
9. 9. The multi-station efficient machining mechanism according to claim 1, wherein 4 supporting seats (11) are arranged at equal intervals along the circumferential direction of the rotating disc (26).
10. 10. The multi-station efficient machining mechanism according to claim 1, wherein the driving mechanism (27) comprises a motor (22) and a speed reducer (23) which are arranged below the rotating disc (26) and are sequentially connected.

Description

Efficient processing method of electronic cigarette shell Technical Field The invention relates to the technical field of automatic processing, in particular to a high-efficiency processing method of an electronic cigarette case. Background Electronic cigarettes are handheld electronic devices that produce breathable vapors, often similar to cigarettes, cigars, pipes, and close to the mouth feel of cigarettes, for replacing cigarettes, and electronic cigarette shells need to be coated with glue during installation and then assembled with other components. In the prior art, when the electronic cigarette shell is processed, a carrier provided with the electronic cigarette shell is manually carried and shuttled in a plurality of stations, then different stations sequentially process the electronic cigarette shell, but manual carrying can only carry to one station, synchronous processing of the stations cannot be realized, and the carrier is inconvenient to mount and dismount, the stability of a clamping fixture is poor, the position of the electronic cigarette shell is easy to deviate in the processing process, the stability and consistency of position precision of each electronic cigarette shell in the processing process on each processing station cannot be ensured, and the surface of the electronic cigarette shell is easy to damage due to poor processing precision. Disclosure of Invention The invention mainly aims to provide a high-efficiency processing method for the electronic cigarette shell, which not only realizes synchronous processing of the electronic cigarette shell at a plurality of stations and improves the processing efficiency, but also ensures the stability and consistency of the position precision of each electronic cigarette shell in the processing process of each processing station, improves the processing precision and does not damage the surface of the electronic cigarette shell. The technical scheme includes that the high-efficiency processing method for the electronic cigarette shell is based on a processing mechanism, the electronic cigarette shell is processed, the carrier provided with the electronic cigarette shell comprises a vertically arranged base plate and a plurality of carrier blocks arranged on one side surface of the base plate, the electronic cigarette shell is sleeved on the outer side of the carrier blocks, the processing mechanism comprises a rotating disc and at least 3 supporting seats arranged at the edge of the upper surface of the rotating disc, the plurality of supporting seats are arranged at equal intervals along the circumferential direction of the rotating disc, the center of the lower surface of the rotating disc is connected with an output shaft of a driving mechanism, a base substrate of the supporting seats is arranged on the upper surface of the rotating disc, the upper surface of the base substrate is provided with a horizontally arranged carrier plate which is positioned on the inner side of a vertical supporting plate of the supporting seat, the upper surface of the carrier plate is provided with at least 2 sliding rails parallel to the radial direction of the rotating disc, and one end of each sliding rail penetrates through each of the corresponding position avoiding holes and is provided with a cushion block; The electronic cigarette comprises a sliding rail, a plurality of mounting blocks, a plurality of mounting seats, a plurality of extrusion heads, a telescopic spring, a support seat, at least one spinning cylinder, a main body part and a rotating part of the spinning cylinder, wherein the horizontally extending strip-shaped support plate is mounted at the other end of the sliding rail and can move along with the sliding rail; The processing method comprises the following steps: step one, correspondingly mounting an electronic cigarette shell to be processed on a carrier block of a carrier to obtain at least one carrier loaded with the electronic cigarette shell; step two, driving the rotating disc to rotate through the driving mechanism, and rotating one supporting seat on the upper surface of the rotating disc to the feeding and discharging stations, wherein at the moment, the rest supporting seats are correspondingly positioned at the processing stations; Step three, at the loading and unloading station, placing the spinning cylinder in a non-holding state, and then hanging the substrate of the carrier loaded with the electronic cigarette shells on the cushion block, so that the cushion block is embedded into a hanging groove arranged on the lower surface of the substrate and the electronic cigarette shells face the corresponding extrusion heads one by one, and at the moment, the rotating parts of the spinning cylinder are positioned on the outer side of the substrate of the carrier in parallel; pushing the substrate of the carrier until the substrate is attached to the vertical supporting plate surface of the supporting seat, wherein in the p