CN210083640U - Binary aerosol canning production line - Google Patents

Abstract

The utility model discloses a binary aerosol canning production line, including the frame and set up the conveyer belt in the frame, effect thing filling device, propellant filling device, the capper, the machine of weighing, the pressure detection device in the aerosol jar, the ink jet numbering machine, nozzle assembly machine and go up big lid machine, effect thing filling device, propellant filling device, the capper, the machine of weighing, the pressure detection device in the aerosol jar, the ink jet numbering machine, the nozzle assembly machine, go up big lid machine and install in proper order in the control system frame along conveyer belt direction of delivery, still including the leakproofness detection mechanism who locates the conveyer belt output. The utility model discloses a with the method of evacuation detection aerosol jar leakproofness in the sealed cowling, the leakproofness detects the rate of accuracy height, has overcome the problem that the detection rate of accuracy that water bath method manual observation detected and brought is low, consume the human cost height and work efficiency hangs down, has improved the production efficiency of binary aerosol jar production line.

Description

Binary aerosol canning production line

Technical Field

The utility model relates to a cosmetics production technical field, concretely relates to binary aerosol canning production line.

Background

Binary aerosol products are aerosol cans filled with two substances: a propellant and a substrate. In the prior art, after the propellant and the reactant are quantitatively filled in a binary aerosol canning production line according to the design requirement, the sealing, the weighing, the detection of the internal pressure of the aerosol can, the detection of a water bath, the code spraying, the nozzle assembly and the large cover mounting are required to be sequentially carried out. In the prior art, a water bath method is adopted for detecting the tightness of the aerosol tank, and judgment is made by observing whether the aerosol tank filled with compressed gas generates continuous bubbles or not, the process generally adopts manual operation, so that not only is a large amount of labor cost consumed, but also the working efficiency is low, and meanwhile, the accuracy of leak detection cannot be ensured; in addition, after the water bath method is adopted for detecting the sealing performance, in order to prevent the aerosol tank from rusting, the water on the surface of the aerosol tank needs to be manually wiped off in the prior art, so that a large amount of labor cost is consumed, and the working efficiency is low.

Disclosure of Invention

The utility model aims at overcoming the above-mentioned not enough, providing binary aerosol canning production line, the leakproofness detects the rate of accuracy height, has overcome the artifical detection rate of accuracy that observes and detect and bring of water-bath low, consume the problem that the human cost is high and work efficiency is low.

In order to achieve the above object, the utility model provides a following technical scheme, binary aerosol canning production line, including the frame and set up in conveyer belt, reactant filling device, propellant filling device, capper, weighing machine, the internal pressure detection device of aerosol jar, ink jet numbering machine, nozzle assembly machine and big lid machine in the frame, reactant filling device, propellant filling device, capper, weighing machine, the internal pressure detection device of aerosol jar, ink jet numbering machine, nozzle assembly machine, big lid machine are installed in proper order in the conveyer belt direction of delivery in the frame, still include locate the leakproofness detection mechanism of conveyer belt output;

the tightness detection mechanism comprises a second machine table, a vacuum pumping pump, a vacuum degree detector, a feeding mechanical arm, a discharging mechanical arm, a sealing cover, a qualified product collecting box, a defective product collecting box and a control system, wherein an L-shaped support is arranged on the second machine table, the L-shaped support comprises a horizontal part and a vertical part, the horizontal part and the vertical part are integrally formed, the vertical part is fixed on the second machine table, a vertical telescopic cylinder is fixed at the top of the horizontal part, the telescopic end of the vertical telescopic cylinder is fixedly connected with the top of the sealing cover, a sealing groove corresponding to the lower end face of the sealing cover is arranged on the second machine table, a pressure sensor is arranged in the sealing groove, an air pumping hole is formed in the sealing cover, the vacuum pumping pump is arranged on the second machine table and is communicated with the air pumping hole through an air pipe, and the vacuum pumping pump is electrically connected, a feeding mechanical arm which is positioned on the second machine table and used for transferring the aerosol tank with the finished upper large cover on the conveying belt to the lower part of the sealing cover and a discharging mechanical arm which is positioned on the lower part of the sealing cover and used for transferring the aerosol tank with the finished sealing detection to a qualified product collecting box or a defective product collecting box are respectively arranged on two sides of the sealing cover, and the qualified product collecting box and the defective product collecting box are both arranged on the second machine table and positioned beside the discharging mechanical arm; the vacuum degree detector is arranged at the top in the sealing cover; the control system is respectively connected with the vertical telescopic cylinder, the feeding manipulator, the discharging manipulator and the vacuum degree detector.

The plasma air box is characterized by further comprising a dust removal mechanism, wherein the dust removal mechanism comprises a door-shaped support, a plasma fan and a plasma air box; the door type support including the symmetry set up in two stands of conveyer belt both sides and connect in the crossbeam on two stand tops, the crossbeam is located directly over the conveyer belt, plasma bellows are located the frame bottom, a plurality of plasma fan is evenly installed to the crossbeam bottom, plasma bellows include a plurality of respectively with a plurality of the tuber pipe that the plasma fan is connected.

Further, the conveying belt is a chain plate conveyor, and a rubber magnetic sheet is fixedly arranged on the end face of each chain plate of the chain plate conveyor

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

1. the utility model discloses leakproofness detection mechanism in binary aerosol canning production line adopts the method of evacuation detection aerosol jar leakproofness in with the sealed cowling, and the leakproofness detects the rate of accuracy height, has overcome the artifical detection rate of accuracy that observes and detect and bring of water-bath low, consume the problem that the human cost is high and work efficiency is low, has improved the production efficiency of binary aerosol jar production line.

2. The utility model discloses dust removal mechanism in binary aerosol canning production line passes through plasma fan dust collection efficiency height, and has eliminated the static on aerosol jar surface when getting rid of aerosol jar outer surface dust.

3. The utility model discloses be equipped with the rubber magnetic sheet on the conveyer belt among the binary aerosol canning production line, prevent that the aerosol jar from being blown when dust removal mechanism, strengthened the stability of aerosol jar in the transportation process on the conveyer belt.

Drawings

Fig. 1 is a schematic structural diagram of the binary aerosol canning production line of the utility model.

Fig. 2 is the appearance structure schematic diagram of the tightness detection mechanism in the binary aerosol canning production line of the utility model.

Fig. 3 is a front view of the internal structure of fig. 2.

Fig. 4 is a schematic top view of the internal structure of fig. 2.

Fig. 5 is a schematic structural view of the conveying belt in the binary aerosol canning production line of the utility model.

Fig. 6 is a schematic view of the structure of the sealing performance detection mechanism in the binary aerosol canning production line of the present invention.

The correspondence between each mark and the part name is as follows:

the device comprises a rack 1, a conveying belt 2, a reactant filling device 3, a propellant filling device 4, a sealing machine 5, a weighing machine 6, an aerosol tank internal pressure detection device 7, an ink-jet printer 8, a nozzle assembling machine 9, an upper large cover machine 10, a sealing detection mechanism 11, a second machine table 12, a vacuum pumping pump 13, a vacuum degree detector 14, a feeding mechanical arm 15, a discharging mechanical arm 16, a sealing cover 17, a qualified product collecting box 18, a defective product collecting box 19, an L-shaped support 20, a vertical telescopic cylinder 21, a sealing groove 22, a pressure sensor 23, an air suction hole 24, an air pipe 25, a dust removal mechanism 26, a door-shaped support 27, a plasma fan 28, a plasma air box 29, a rubber magnetic sheet 30, an aerosol tank 31 and a control system 32.

Detailed Description

In order to make the technical means, the inventive features, the objectives and the functions of the present invention easy to understand, the present invention will be further described with reference to the following specific drawings.

Examples

As shown in fig. 1, the binary aerosol canning production line comprises a frame 1, a conveyer belt 2, a reactant filling device 3, a propellant filling device 4, a sealing machine 5, a weighing machine 6, an aerosol can internal pressure detection device 7, an ink-jet printer 8, a nozzle assembly machine 9 and a large capping machine 10, wherein the conveyer belt 2, the reactant filling device 3, the propellant filling device 4, the sealing machine 5, the weighing machine 6, the aerosol can internal pressure detection device 7, the ink-jet printer 8, the nozzle assembly machine 9 and the large capping machine 10 are arranged on the frame 1 in sequence along the conveying direction of the conveyer belt 2; the packaging line of the binary aerosol can 31 in this embodiment further includes a sealing detection mechanism 11 disposed at the output end of the conveyor belt 2.

As shown in fig. 2, 3 and 4, the sealing performance detecting mechanism 11 includes a second machine 12, a vacuum pumping pump 13, a vacuum degree detector 14, a feeding manipulator 15, a discharging manipulator 16, a sealing cover 17, a qualified product collecting box 18, a defective product collecting box 19 and a control system 32, the second machine 12 is provided with an L-shaped bracket 20, the L-shaped bracket 20 includes a horizontal portion and a vertical portion, the horizontal portion and the vertical portion are integrally formed, the vertical portion is fixed on the second machine 12, a vertical telescopic cylinder 21 is fixed on the top of the horizontal portion, a telescopic end of the vertical telescopic cylinder 21 is fixedly connected with the top of the sealing cover 17, the second machine is provided with a sealing groove 22 corresponding to the lower end surface of the sealing cover 17, a pressure sensor 23 is arranged in the sealing groove 22, the sealing cover 17 is provided with a pumping hole 24, the vacuum pumping pump 13 is arranged on the second machine 12, the vacuum pumping pump 13 is, the vacuum pumping pump 13 is electrically connected with the pressure sensor 23, a feeding manipulator 15 which is positioned on the second machine table 12 and used for transferring the aerosol can 31 with the upper large cover on the conveying belt 2 to the lower part of the sealing cover 17 and a discharging manipulator 16 which is positioned on the second machine table 12 and used for transferring the aerosol can 31 with the sealing detection to the qualified product collecting box 18 or the defective product collecting box 19, wherein the qualified product collecting box 18 and the defective product collecting box 19 are both arranged on the second machine table 12 and positioned beside the discharging manipulator 16; the vacuum degree detector 14 is arranged at the top in the sealing cover 17; the control system 32 is connected to the vertical telescopic cylinder 21, the feeding manipulator 15, the discharging manipulator 16, and the vacuum degree detector 14, respectively.

As shown in fig. 1, the binary aerosol canning production line in the present embodiment further includes a dust removing mechanism 26, where the dust removing mechanism 26 includes a door-shaped bracket 27, a plasma blower 28, and a plasma blower 29; door type support 27 sets up in two stands of conveyer belt 2 both sides and connects in the crossbeam on two stand tops including the symmetry, and the crossbeam is located directly over conveyer belt 2, and the frame bottom is located to plasma bellows 29, and a plurality of plasma fan 28 is evenly installed to the crossbeam bottom, and plasma bellows 29 includes the tuber pipe that a plurality of is connected with a plurality of plasma fan 28 respectively.

As shown in fig. 5, the conveyor belt 2 is a chain scraper conveyor, and a rubber magnet sheet 30 is fixedly arranged on each chain scraper end face of the chain scraper conveyor.

When the aerosol tank 31 sequentially completes the filling of the reactant, the filling of the propellant, the sealing, the weighing, the detection of the internal pressure of the aerosol tank 31, the code spraying, the nozzle assembly and the large cover mounting under the conveying of the conveyer belt 2, the plasma fan 28 removes dust on the outer surface of the aerosol tank 31 and simultaneously eliminates static electricity on the surface of the aerosol tank 31.

In the working process of the binary aerosol canning production line in this embodiment, after the aerosol can 31 sequentially completes the filling of the reactant, the filling of the propellant, the sealing, the weighing, the detection of the internal pressure of the aerosol can 31, the code spraying, the nozzle assembly and the large cover mounting under the conveying of the conveyer belt 2, the control system 32 controls the feeding manipulator 15 to transfer to the position under the seal cover 17, the control system 32 drives the vertical telescopic cylinder 21 to drive the seal cover 17 to descend into the seal groove 22 (as shown in fig. 6), the vacuum pump extracts the air in the seal cover 17 to form the vacuum in the seal cover 17, the vacuum degree detector 14 detects whether the air leakage exists in the seal cover 17, after the detection is completed, the vertical telescopic cylinder 21 drives the seal cover 17 to ascend to the position where the vertical distance between the lower end face of the seal cover 17 and the second machine 12 is greater than the vertical distance between the upper end face of the aerosol can 31 and the second machine 12, the control system 32 judges whether the detected aerosol, if the aerosol can 31 leaks air, the control system 32 controls the discharging manipulator 16 to send the leaked aerosol can 31 into the defective product collecting box 19, and if the aerosol can 31 leaks air, the control system 32 controls the discharging manipulator 16 to send the aerosol can 31 into the qualified product collecting box 18.

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 (3)

1. The binary aerosol canning production line comprises a rack, and a conveying belt, an acting substance filling device, a propellant filling device, a sealing machine, a weighing machine, an aerosol can internal pressure detection device, an ink-jet printer, a nozzle assembly machine and an upper large cover machine which are arranged on the rack, wherein the acting substance filling device, the propellant filling device, the sealing machine, the weighing machine, the aerosol can internal pressure detection device, the ink-jet printer, the nozzle assembly machine and the upper large cover machine are sequentially arranged on the rack along the conveying direction of the conveying belt;

the tightness detection mechanism comprises a second machine table, a vacuum pumping pump, a vacuum degree detector, a feeding mechanical arm, a discharging mechanical arm, a sealing cover, a qualified product collecting box, a defective product collecting box and a control system, wherein an L-shaped support is arranged on the second machine table, the L-shaped support comprises a horizontal part and a vertical part, the horizontal part and the vertical part are integrally formed, the vertical part is fixed on the second machine table, a vertical telescopic cylinder is fixed at the top of the horizontal part, the telescopic end of the vertical telescopic cylinder is fixedly connected with the top of the sealing cover, a sealing groove corresponding to the lower end face of the sealing cover is arranged on the second machine table, a pressure sensor is arranged in the sealing groove, an air pumping hole is formed in the sealing cover, the vacuum pumping pump is arranged on the second machine table and is communicated with the air pumping hole through an air pipe, and the vacuum pumping pump is electrically connected, a feeding mechanical arm which is positioned on the second machine table and used for transferring the aerosol tank with the finished upper large cover on the conveying belt to the lower part of the sealing cover and a discharging mechanical arm which is positioned on the lower part of the sealing cover and used for transferring the aerosol tank with the finished sealing detection to a qualified product collecting box or a defective product collecting box are respectively arranged on two sides of the sealing cover, and the qualified product collecting box and the defective product collecting box are both arranged on the second machine table and positioned beside the discharging mechanical arm; the vacuum degree detector is arranged at the top in the sealing cover; the control system is respectively connected with the vertical telescopic cylinder, the feeding manipulator, the discharging manipulator and the vacuum degree detector.

2. The binary aerosol can production line of claim 1, further comprising a dedusting mechanism, the dedusting mechanism comprising a gantry, a plasma blower, a plasma bellows; the door type support including the symmetry set up in two stands of conveyer belt both sides and connect in the crossbeam on two stand tops, the crossbeam is located directly over the conveyer belt, plasma bellows are located the frame bottom, a plurality of plasma fan is evenly installed to the crossbeam bottom, plasma bellows include a plurality of respectively with a plurality of the tuber pipe that the plasma fan is connected.

3. The binary aerosol can production line of claim 2, wherein the conveyor belt is a chain scraper conveyor, and a rubber magnetic sheet is fixedly arranged on each chain scraper end face of the chain scraper conveyor.

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