CN210028186U - Electron beam empty bottle sterilizing device - Google Patents

Abstract

The utility model discloses an electron beam empty bottle sterilization device, which comprises a frame, a first irradiation shifting wheel and a second irradiation shifting wheel which are respectively arranged on the frame and rotate around a first shaft and have a height difference H, and an electron beam irradiation mechanism arranged on the frame; the empty bottle comprises a first part and a second part which are equally divided by the axial lead of the empty bottle along the radial direction, and when the empty bottle is positioned on the first irradiation thumb wheel/the second irradiation thumb wheel, the first part/the second part is orthorhombic; the device also comprises a first transition thumb wheel which is arranged on the rack and rotates around a second shaft and is used for receiving the empty bottles irradiated in the first irradiation thumb wheel, a second transition thumb wheel which is arranged on the rack and rotates around a third shaft and is used for sending the empty bottles into the second irradiation thumb wheel, and a first spiral lifting thumb wheel which is arranged on the rack and rotates around the axis of the first spiral lifting thumb wheel and is used for sending the empty bottles in the first transition thumb wheel into the second transition thumb wheel and lifting the height of the empty bottles H. The utility model discloses the device can realize that the all-round of empty bottle shines and disinfects, need not to overturn from top to bottom.

Description

Electron beam empty bottle sterilizing device

Technical Field

The utility model relates to a filling technical field, in particular to electron beam empty bottle sterilizing equipment.

Background

Need disinfect to the empty bottle before aseptic filling, the tradition mode is that the empty bottle passes through electron beam sterilization region with linear motion on the conveying chain, accomplishes one side and disinfects the back, and the rethread guide rail realizes that the empty bottle passes through electron beam sterilization region again and accomplishes opposite side and disinfect after overturning from top to bottom. For the empty bottle with a longer bottle body, if the turning action is to be finished, the requirements on the manipulator clamping mechanism and the turning space are higher, and the equipment cost is also correspondingly increased.

Disclosure of Invention

The utility model aims at providing an electron beam empty bottle sterilizing equipment, simple structure can realize disinfecting to empty bottle omnidirectional shining.

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

an electron beam empty bottle sterilization device comprises a rack, a first shaft arranged on the rack, a first irradiation shifting wheel and a second irradiation shifting wheel which are respectively arranged on the rack and rotate around the first shaft and distributed along the vertical direction, and an electron beam irradiation mechanism which is arranged on the rack and extends along the vertical direction and is used for irradiating the first irradiation shifting wheel and the second irradiation shifting wheel simultaneously, wherein the first irradiation shifting wheel and the second irradiation shifting wheel have a height difference H;

the empty bottle comprises a first part and a second part which are equally divided by the axial lead of the empty bottle along the radial direction, and when the empty bottle is positioned on the first irradiation thumb wheel, the electron beam irradiation mechanism is used for irradiating the first part; when the empty bottle is positioned on the second irradiation thumb wheel, the electron beam irradiation mechanism is used for orthographically irradiating the second part;

the device also comprises a second shaft arranged on the frame, a first transition thumb wheel which is arranged on the frame and has the same height with the first irradiation thumb wheel and is used for receiving the irradiated empty bottles in the first irradiation thumb wheel, a third shaft arranged on the frame, a second transition thumb wheel which is arranged on the frame and has the same height with the second irradiation thumb wheel and is used for sending the empty bottles into the second irradiation thumb wheel, and a first spiral lifting thumb wheel which is arranged on the frame and rotates around the self axial lead direction and is used for sending the empty bottles in the first transition thumb wheel into the second transition thumb wheel, wherein the first transition thumb wheel is arranged on the frame and rotates around the second shaft lead direction; the total height of the empty bottle which is lifted or lowered by the first spiral lifting thumb wheel is H.

Preferably, the device further comprises a third transition thumb wheel which is arranged on the rack and has the same height as the second irradiation thumb wheel and is used for receiving the irradiated empty bottles in the second irradiation thumb wheel, a fourth shaft arranged on the rack, a bottle discharging thumb wheel which is arranged on the rack and has the same height as the first irradiation thumb wheel and rotates around the fourth shaft, and a second spiral lifting thumb wheel which is arranged on the rack and rotates around the axis direction of the second spiral lifting thumb wheel and is used for conveying the empty bottles in the third transition thumb wheel into the bottle discharging thumb wheel, wherein the third transition thumb wheel rotates around the second shaft; the second spiral lifting thumb wheel raises or lowers the total height of the empty bottle to H.

Preferably, there are two first spiral lifting thumb wheels, the axial leads of the two first spiral lifting thumb wheels extend along the vertical direction, the rotation directions of the two first spiral lifting thumb wheels are different, and the total height of the two first spiral lifting thumb wheels for lifting or lowering the empty bottle is H.

Preferably, the absolute position of the empty bottle remains unchanged when it is handed over between the two thumbwheels.

Preferably, the first irradiation thumb wheel and the second irradiation thumb wheel have the same rotation radius and different rotation directions.

Preferably, the first transition thumb wheel and the third transition thumb wheel have the same rotation radius and different rotation directions.

Preferably, the first spiral lifting thumb wheel comprises a first spiral body and a first lifting mechanism arranged on the first spiral body and used for lifting empty bottles.

Preferably, the second spiral lifting thumb wheel comprises a second spiral body and a second lifting mechanism which is arranged on the second spiral body and used for lifting the empty bottle.

Preferably, the device further comprises a first bottleneck electron beam guider arranged on the rack and positioned above the empty bottle on the first irradiation thumb wheel, and a first bottle bottom electron beam guider arranged on the rack and positioned below the empty bottle on the first irradiation thumb wheel.

Preferably, the device further comprises a second bottleneck electron beam guider arranged on the rack and located above the empty bottle on the second irradiation thumb wheel, and a second bottle bottom electron beam guider arranged on the rack and located below the empty bottle on the second irradiation thumb wheel.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage: the utility model relates to an electron beam empty bottle sterilizing equipment sends into the second after the conveying turns to and goes up and down to shine again in shining the thumb wheel with the empty bottle that shines in the first thumb wheel, twice respectively orthogonalizes the first portion and the second part of empty bottle, can realize disinfecting to empty bottle omnidirectional shining, need not the empty bottle of upset from top to bottom, simple structure, and the cost is lower.

Drawings

FIG. 1 is a schematic structural diagram of the device of the present invention;

FIG. 2 is a schematic view showing the positional relationship between an empty bottle and an electron beam guide.

Wherein: 1. a frame; 2. a first shaft; 3. a first irradiation dial wheel; 4. a second irradiation thumb wheel; 5. an electron beam irradiation mechanism; 6. a first portion; 7. a second portion; 8. a second shaft; 9. a first transition thumb wheel; 10. a third axis; 11. a second transition thumb wheel; 12. a first spiral lifting thumb wheel; 13. a third transition thumb wheel; 14. a fourth axis; 15. a bottle discharging poking wheel; 16. a second spiral lifting thumb wheel; 17. a first bottleneck electron beam director/a second bottleneck electron beam director; 18. first/second bottom electron beam directors.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings.

Referring to fig. 1-2, the above-mentioned electron beam empty bottle sterilization apparatus includes a frame 1, a first shaft 2 disposed on the frame 1, a first irradiation dial wheel 3 and a second irradiation dial wheel 4 disposed on the frame 1 and distributed along the up-down direction and respectively rotating around the first shaft 2, and an electron beam irradiation mechanism 5 disposed on the frame 1 and extending along the up-down direction and used for simultaneously irradiating the first irradiation dial wheel 3 and the second irradiation dial wheel 4, where the first irradiation dial wheel 3 and the second irradiation dial wheel 4 have a height difference H. In this embodiment, the first irradiation paddle 3 is located below the second irradiation paddle 4, and the first irradiation paddle 3 and the second irradiation paddle 4 have the same radius of rotation and different directions of rotation.

The empty bottle comprises a first part 6 and a second part 7 which are equally divided by the axial lead of the empty bottle along the radial direction, and when the empty bottle is positioned on the first irradiation thumb wheel 3, the electron beam irradiation mechanism 5 is used for irradiating the first part 6; the electron beam irradiation mechanism 5 is used to orthogonalize the second portion 7 when the empty bottle is positioned on the second irradiation wheel 4.

The electron beam empty bottle sterilizing device further comprises a second shaft 8 arranged on the rack 1, a first transition thumb wheel 9 which rotates around the second shaft 8, is arranged on the rack 1, has the same height as the first irradiation thumb wheel 3 and is used for receiving the empty bottles irradiated in the first irradiation thumb wheel 3, a third shaft 10 arranged on the rack 1, a second transition thumb wheel 11 which rotates around the third shaft 10, is arranged on the rack 1, has the same height as the second irradiation thumb wheel 4 and is used for sending the empty bottles into the second irradiation thumb wheel 4, and a first spiral lifting thumb wheel 12 which rotates around the self axial lead direction and is arranged on the rack 1 and is used for sending the empty bottles in the first transition thumb wheel 9 into the second transition thumb wheel 11; the first helical elevating dial 12 raises or lowers the empty bottle to a total height H. In this embodiment, the first spiral lifting/lowering wheel 12 includes a first spiral body, and a first lifting/lowering mechanism provided on the first spiral body for lifting/lowering an empty bottle. In this embodiment, the first helical elevating dial 12 is used to elevate the empty bottle to the same height as the second irradiation dial 4.

In this embodiment, there are two first spiral lifting/lowering wheels 12, the axes of the two first spiral lifting/lowering wheels 12 extend along the vertical direction, the rotation directions thereof are different, and the total height of the two first spiral lifting/lowering wheels 12 is H. The two first spiral lifting thumb wheels 12 are distributed along the up-down direction.

The electron beam empty bottle sterilizing device further comprises a third transition thumb wheel 13 which rotates around a second shaft 8, is arranged on the rack 1, has the same height as the second irradiation thumb wheel 4, is used for receiving the empty bottles irradiated in the second irradiation thumb wheel 4, a fourth shaft 14 arranged on the rack 1, a bottle discharging thumb wheel 15 which rotates around the fourth shaft 14, is arranged on the rack 1, has the same height as the first irradiation thumb wheel 3, and a second spiral lifting thumb wheel 16 which rotates around the axis direction of the second spiral lifting thumb wheel and is arranged on the rack 1, and is used for conveying the empty bottles in the third transition thumb wheel 13 into the bottle discharging thumb wheel 15; the second helical elevating dial 16 raises or lowers the empty bottle to a total height H. In the present embodiment, the first transition thumb wheel 9 and the third transition thumb wheel 13 have the same turning radius and different turning directions. In this embodiment, the second spiral lifting/lowering wheel 16 includes a second spiral body, and a second lifting/lowering mechanism provided on the second spiral body for lifting/lowering the empty bottle. In this embodiment, the second helical elevating dial 16 is used to lower the empty bottle to the same height as the first irradiation dial 3. Through setting up third transition thumb wheel 13 and second spiral lift thumb wheel 16, make the height of the empty bottle after shining the same with the height of the empty bottle before shining to prevent that back end equipment and front end equipment height from differing too much, influence the volume of device, stability and cost.

When the empty bottle enters the first transition thumb wheel 9 from the first irradiation thumb wheel 3, enters the first spiral lifting thumb wheel 12 from the first transition thumb wheel 9, enters the second transition thumb wheel 11 from the first spiral lifting thumb wheel 12, enters the second irradiation thumb wheel 4 from the second transition thumb wheel 11, enters the third transition thumb wheel 13 from the second irradiation thumb wheel 4, enters the second spiral lifting thumb wheel 16 from the third transition thumb wheel 13, and enters the bottle discharge thumb wheel 15 from the second spiral lifting thumb wheel 16, the absolute position of the empty bottle is kept unchanged, and the empty bottle handover is completed only through the opening and closing of the mechanical arm between the empty bottle and the empty bottle. In this embodiment, the axial direction of the first irradiation thumb wheel 3, the first transition thumb wheel 9, the first spiral lifting thumb wheel 12, the second transition thumb wheel 11, the second irradiation thumb wheel 4, the third transition thumb wheel 13, the second spiral lifting thumb wheel 16 and the bottle discharging thumb wheel 15 all extend along the vertical direction.

The electron beam empty bottle sterilizing device further comprises a first bottleneck electron beam guider 17 arranged on the rack 1 and positioned above an empty bottle on the first irradiation shifting wheel 3, a first bottom electron beam guider 18 arranged on the rack 1 and positioned below the empty bottle on the first irradiation shifting wheel 3, a second bottleneck electron beam guider 17 arranged on the rack 1 and positioned above an empty bottle on the second irradiation shifting wheel 4, and a second bottom electron beam guider 18 arranged on the rack 1 and positioned below the empty bottle on the second irradiation shifting wheel 4. In this embodiment, the first bottleneck electron beam director 17, the first bottom electron beam director 18, the second bottleneck electron beam director 17 and the second bottom electron beam director 18 are all magnetic bodies, and through this arrangement, the electron beam is guided to deflect to sterilize the bottleneck and the bottom of the bottle, thereby realizing the purpose of 360-degree omnibearing sterilization of the bottle body, the bottleneck and the bottom of the bottle.

The following specifically explains the working process of this embodiment:

the empty bottle is fed into the first irradiation thumb wheel 3 by the bottle feeding thumb wheel, rotates anticlockwise along with the first irradiation thumb wheel 3, and is irradiated to a first part 6 of the empty bottle when passing through the electron beam irradiation mechanism 5;

the first irradiation thumb wheel 3 continues to rotate anticlockwise, empty bottles are conveyed into the first transition thumb wheel 9, the first transition thumb wheel 9 rotates clockwise, and the empty bottles are conveyed into the first spiral lifting thumb wheel 12;

after the two first spiral lifting thumb wheels 12 are matched with each other to lift the empty bottles to be equal to the second irradiation thumb wheel 4 in height (the lower first spiral lifting thumb wheel 12 rotates anticlockwise, and the upper first spiral lifting thumb wheel 12 rotates clockwise), the empty bottles are conveyed into the second transition thumb wheel 11;

the second transition thumb wheel 11 rotates anticlockwise, the empty bottle is sent into the second irradiation thumb wheel 4, rotates clockwise along with the second irradiation thumb wheel 4, and the second part 7 of the empty bottle is irradiated positively when passing through the electron beam irradiation mechanism 5;

the second irradiation thumb wheel 4 continues to rotate clockwise, empty bottles are conveyed into a third transition thumb wheel 13, the third transition thumb wheel 13 rotates anticlockwise, and the empty bottles are conveyed into a second spiral lifting thumb wheel 16;

the second spiral lifting thumb wheel 16 rotates clockwise to lower the empty bottle to the same height as the first irradiation thumb wheel 3, and then the empty bottle is sent into the bottle discharging thumb wheel 15 which rotates anticlockwise.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (10)

1. An electron beam empty bottle sterilizing device is characterized in that: the device comprises a rack, a first shaft arranged on the rack, a first irradiation shifting wheel and a second irradiation shifting wheel which are respectively arranged on the rack and rotate around the first shaft and distributed along the vertical direction, and an electron beam irradiation mechanism which is arranged on the rack and extends along the vertical direction and is used for irradiating the first irradiation shifting wheel and the second irradiation shifting wheel simultaneously, wherein the first irradiation shifting wheel and the second irradiation shifting wheel have a height difference H;

the empty bottle comprises a first part and a second part which are equally divided by the axial lead of the empty bottle along the radial direction, and when the empty bottle is positioned on the first irradiation thumb wheel, the electron beam irradiation mechanism is used for irradiating the first part; when the empty bottle is positioned on the second irradiation thumb wheel, the electron beam irradiation mechanism is used for orthographically irradiating the second part;

the device also comprises a second shaft arranged on the frame, a first transition thumb wheel which is arranged on the frame and has the same height with the first irradiation thumb wheel and is used for receiving the irradiated empty bottles in the first irradiation thumb wheel, a third shaft arranged on the frame, a second transition thumb wheel which is arranged on the frame and has the same height with the second irradiation thumb wheel and is used for sending the empty bottles into the second irradiation thumb wheel, and a first spiral lifting thumb wheel which is arranged on the frame and rotates around the self axial lead direction and is used for sending the empty bottles in the first transition thumb wheel into the second transition thumb wheel, wherein the first transition thumb wheel is arranged on the frame and rotates around the second shaft lead direction; the total height of the empty bottle which is lifted or lowered by the first spiral lifting thumb wheel is H.

2. The electron beam empty bottle sterilizing apparatus according to claim 1, wherein: the device also comprises a third transition thumb wheel which is arranged on the rack and has the same height as the second irradiation thumb wheel and is used for receiving the empty bottles irradiated in the second irradiation thumb wheel, a fourth shaft arranged on the rack, a bottle outlet thumb wheel which is arranged on the rack and has the same height as the first irradiation thumb wheel and rotates around the fourth shaft, and a second spiral lifting thumb wheel which is arranged on the rack and rotates around the self axial lead direction and is used for conveying the empty bottles in the third transition thumb wheel into the bottle outlet thumb wheel; the second spiral lifting thumb wheel raises or lowers the total height of the empty bottle to H.

3. The electron beam empty bottle sterilizing apparatus according to claim 1, wherein: the two first spiral lifting thumb wheels extend along the vertical direction, the rotating directions of the two first spiral lifting thumb wheels are different, and the total height of the two first spiral lifting thumb wheels for lifting or lowering the empty bottle is H.

4. The electron beam empty bottle sterilizing apparatus according to claim 1, wherein: the absolute position of the empty bottle remains unchanged when it is handed over between the two thumbwheels.

5. The electron beam empty bottle sterilizing apparatus according to claim 1, wherein: the first irradiation thumb wheel and the second irradiation thumb wheel have the same rotation radius and different rotation directions.

6. An electron beam empty bottle sterilizing apparatus according to claim 2, wherein: the first transition thumb wheel and the third transition thumb wheel have the same rotation radius and different rotation directions.

7. The electron beam empty bottle sterilizing apparatus according to claim 1, wherein: the first spiral lifting thumb wheel comprises a first spiral body and a first lifting mechanism which is arranged on the first spiral body and used for lifting empty bottles.

8. An electron beam empty bottle sterilizing apparatus according to claim 2, wherein: the second spiral lifting thumb wheel comprises a second spiral body and a second lifting mechanism which is arranged on the second spiral body and used for lifting the empty bottle.

9. The electron beam empty bottle sterilizing apparatus according to claim 1, wherein: the device also comprises a first bottleneck electron beam guider arranged on the rack and positioned above the empty bottle on the first irradiation thumb wheel and a first bottle bottom electron beam guider arranged on the rack and positioned below the empty bottle on the first irradiation thumb wheel.

10. The electron beam empty bottle sterilizing apparatus according to claim 1, wherein: the device also comprises a second bottleneck electron beam guider arranged on the rack and positioned above the hollow bottle on the second irradiation thumb wheel, and a second bottle bottom electron beam guider arranged on the rack and positioned below the hollow bottle on the second irradiation thumb wheel.

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